Immersion Corporation Patent applications |
Patent application number | Title | Published |
20160054799 | Systems and Methods for Shape Input and Output for a Haptically-Enabled Deformable Surface - One illustrative computing device disclosed herein includes a first sensor configured to detect a position associated with a deformable surface and transmit a sensor signal associated with the position; and a processor in communication with the sensor, the processor configured to: receive the sensor signal; determine a haptic effect based at least in part on the sensor signal; and transmit a haptic signal associated with the haptic effect. The illustrative computing device also includes a haptic output device in communication with the processor, the haptic output device configured to receive the haptic signal and output the haptic effect. | 02-25-2016 |
20160004309 | Systems and Methods for Multi-Output Electrostatic Haptic Effects - One illustrative system disclosed herein includes a processor configured to determine a haptic effect, wherein the haptic effect includes a static ESF effect or a confirmation ESF effect; and transmit a haptic signal associated with the haptic effect. The illustrative system also includes an ESF controller in communication with the processor, the ESF controller configured to receive the haptic signal, determine an ESF signal based at least in part on the haptic signal, and transmit the ESF signal. The illustrative system further includes an ESF device in communication with the ESF controller, the ESF device including an ESF cell and configured to receive the ESF signal and output the haptic effect. | 01-07-2016 |
20160004308 | Systems and Methods for Surface Elements that Provide Electrostatic Haptic Effects - One illustrative system disclosed herein includes a processor configured to determine an electrostatic force (ESF)-based haptic effect and transmit a haptic signal associated with the ESF-based haptic effect. The illustrative system also includes an ESF controller in communication with the processor, the ESF controller configured to receive the haptic signal, determine an ESF signal based at least in part on the haptic signal, and transmit the ESF signal. The illustrative system further includes a surface configured to contact a user, and an ESF device coupled to the surface and in communication with the ESF controller, the ESF device configured to receive the ESF signal and output the ESF-based haptic effect on the surface. | 01-07-2016 |
20150362993 | Systems and Methods for Foley-Style Haptic Content Creation - One illustrative system disclosed herein includes an audio input device configured to detect an audio input and transmit an audio signal associated with the audio input. The illustrative system also includes a haptic trigger device which includes a sensor, wherein the sensor is configured to transmit a sensor signal associated with an event. Further, the illustrative system includes a processor in communication with the audio input device and the haptic trigger device, the processor configured to: receive the audio signal; receive the sensor signal substantially simultaneously to receiving the audio signal; record the audio signal to an audio track; and insert a haptic effect marker into a haptic track based in part on the sensor signal, wherein the haptic track and the audio track are associated with a video. | 12-17-2015 |
20150355710 | Systems and Methods for Induced Electrostatic Haptic Effects - One illustrative system disclosed herein includes a processor configured to determine an ESF-based haptic effect and transmit a haptic signal associated with the ESF-based haptic effect. The illustrative system also includes an ESF controller in communication with the processor, the ESF controller configured to receive the haptic signal, determine an ESF signal based at least in part on the haptic signal, and transmit the ESF signal. Further, the illustrative system includes an inducing electrode configured to receive the ESF signal and induce an electric charge on an induced electrode, wherein the inducing electrode does not contact the induced electrode, and wherein the induced electrode is configured to output the ESF-based haptic effect to a surface. | 12-10-2015 |
20150347075 | HAPTIC NOTIFICATION MANAGER - A notification manager is provided that manages notifications for a user. The notification manager detects a notification event and determines a context of the notification event. The notification manager determines a target device for the notification event based on the determined context and one or more available displays. The notification manager then generates a notification on one or more of the one or more available displays to direct the user's attention to the target device. | 12-03-2015 |
20150339898 | HAPTIC DESIGN AUTHORING TOOL - A haptic authoring tool is provided that recommends one or more haptic effects provides a haptification model generated by learning a human haptic designer style. The haptic authoring tool receives an input comprising at least one of audio and video and a plurality of events. The haptic authoring tool then recommends a type of haptic effect to be associated with a corresponding event from the input based on the learned haptification model. | 11-26-2015 |
20150331488 | NON-COLLOCATED HAPTIC CUES IN IMMERSIVE ENVIRONMENTS - A device for delivering non-collocated haptic feedback includes at least one haptic playback device and a drive circuit for controlling the haptic playback device. A processor coupled to the drive circuit receives manipulation haptic information based on data received from a user interface. The processor generates a haptic signal is based on the manipulation haptic information. The haptic signal is provided to the drive circuit to produce the non-collocated haptic feedback. | 11-19-2015 |
20150323993 | SYSTEMS AND METHODS FOR PROVIDING HAPTIC FEEDBACK FOR REMOTE INTERACTIONS - A system includes a first electronic device and a second electronic device. The first electronic device includes a sensor configured to sense or property experienced by the first electronic device, and a transmitter configured to transmit a signal based on output from the sensor. The second electronic device is in signal communication with the first electronic device. The second electronic device includes a receiver configured to receive the transmitted signal, a detector configured to determine an object that a user of the second device is focusing on, a processor configured to generate a haptic signal representative of the transmitted signal if it is determined that the object the user is focusing on corresponds with a location of the first electronic device, and a haptic output device configured to receive the haptic signal and generate a haptic effect to the user. | 11-12-2015 |
20150316985 | Systems and Methods for Viewport-Based Augmented Reality Haptic Effects - One illustrative system disclosed herein includes a display configured to receive a display signal and output an image, and an image capture device configured to capture an area image and transmit an image signal. The illustrative system also includes a processor in communication with the image capture device and the display, the processor configured to: receive the image signal; determine a virtual object based in part on the image signal; determine the display signal based in part on the image signal, wherein the display signal includes data associated with the virtual object; determine a haptic effect based at least in part on the virtual object; and transmit a haptic signal associated with the haptic effect. The illustrative system further includes a haptic output device configured to receive the haptic signal and output the haptic effect. | 11-05-2015 |
20150287293 | WEARABLE DEVICE WITH FLEXIBLY MOUNTED HAPTIC OUTPUT DEVICE - A system includes a wearable device configured to be worn by a user. The wearable device includes a flexible mounting, and a haptic output device connected to the flexible mounting. The system includes a signal generator configured to generate a haptic signal and communicate the haptic signal to the haptic output device. The haptic signal includes a short duration control pulse configured to create a small deformation sensation to the user. | 10-08-2015 |
20150268722 | Systems and Methods for a Shared Haptic Experience - One illustrative system disclosed herein includes a processor configured to: receive a first haptic effect signal, the first haptic effect signal based at least in part on a haptic event and adapted to cause a first haptic effect to be output by a first haptic output device to a first user, determine a second haptic effect based at least in part on the first haptic effect and a characteristic independent of the haptic event, generate a second haptic effect signal based at least in part on the second haptic effect, and transmit the second haptic signal to a second haptic output device. In the illustrative system, the second haptic output device is in communication with the processor, and the second haptic output device is configured to receive the second haptic effect signal and output the second haptic effect to a second user. | 09-24-2015 |
20150224394 | Multiple Actuation Handheld Device - A device includes a housing, a processor that is coupled to the housing, the processor is configured to process a software program stored in a memory. A touch screen is coupled to the housing and configured to display graphical objects, wherein a sensor signal associated with a user's interaction with the touch screen is provided to the processor. A first actuator is coupled to the touch screen and positioned within the housing. The first actuator is configured to output a first haptic effect to the touch screen upon receiving a first activating signal from the processor. A second actuator is coupled to the housing and configured to output a second haptic effect to the housing upon receiving a second activating signal from the processor. The first activating signal is associated with a foreground event and the second activating signal is associated with a background event occurring in the software program. | 08-13-2015 |
20150199013 | Systems and Methods for Transmitting Haptic Messages - Systems and methods for transmitting haptic messages are disclosed. For example, one disclosed method includes the steps of: receiving at least one sensor signal from at least one sensor of a mobile device, the at least one sensor signal associated with a movement of the mobile device, determining a message to be displayed in a user interface based at least in part on the at least one sensor signal, and causing the message to be displayed. | 07-16-2015 |
20150185885 | Devices, Systems, and Methods For Using Corrugated Tessellation To Create Surface Features - Devices, systems and methods for using corrugated tessellation to create surface features are disclosed. In embodiments, a device comprises a touch-sensitive surface capable of being in a first configuration and a second configuration different than the first configuration. When the touch-sensitive surface is in the second configuration an input device may be provided that is not present when the touch-sensitive surface is in the first configuration. For example, the touch-sensitive surface can be a flat surface in the first configuration and can be a three-dimensional surface comprising a physical keyboard in the second configuration. In embodiments, a device, such as a mobile phone or a tablet computer, comprises a touch-sensitive display that comprises the touch-sensitive surface. | 07-02-2015 |
20150185841 | SYSTEMS AND METHODS FOR A HAPTICALLY-ENABLED PROJECTED USER INTERFACE - One illustrative system disclosed herein includes a sensor configured to detect a user input associated with a projected user interface and transmit a sensor signal associated with the user interaction, and a processor in communication with the sensor, the processor configured to: receive the sensor signal, determine a remote haptic effect based at least in part on the user input, generate a haptic signal based at least in part on the remote haptic effect, and transmit the haptic signal. The illustrative system further includes a haptic output device in communication with the processor, the haptic output device configured to receive the haptic signal and output the remote haptic effect. | 07-02-2015 |
20150175172 | GESTURE BASED INPUT SYSTEM IN A VEHICLE WITH HAPTIC FEEDBACK - A system for controlling vehicle systems includes a haptic actuator, a gesture detection device, a controller, and a plurality of vehicle systems. The gesture detection device captures movements of a vehicle driver or passenger and outputs data representing a gesture made by the vehicle driver or passenger. The controller is coupled to the gesture detection device and receives a signal from the gesture detection device indicative of the gesture. The controller is coupled to the haptic actuator, and selects a haptic effect based on the detected gesture and sends a signal to the haptic actuator to provide the selected haptic effect. The controller is also coupled to the vehicle systems, and based on the detected gesture, the controller sends a signal to one of the vehicle systems to perform a particular action. The particular action of the vehicle system is matched with the selected haptic effect. | 06-25-2015 |
20150145783 | Dual Stiffness Suspension System - Devices disclosed herein include a housing component, a touch screen, a haptic actuator for moving the touch screen relative to the housing component, and at least one dual stiffness suspension system that couples the touch screen and housing component together such that the touch screen is movable relative to the housing component. The dual stiffness suspension system has a first element of a first stiffness and a second element of a second stiffness which is stiffer than the first stiffness. The dual stiffness suspension system is configured to limit movement between the touch screen and the housing component in a first direction due to the first element of the dual stiffness suspension system while also being configured to allow movement of the touch screen relative to the housing component in a second opposing direction due to the second element of the dual stiffness suspension system. | 05-28-2015 |
20150145657 | SYSTEMS AND METHODS FOR GENERATING FRICTION AND VIBROTACTILE EFFECTS - A system includes a sensor configured to sense an input received from a user at a surface; a first haptic output device configured to generate a first haptic effect at the surface based on the input received from the user, the first haptic effect comprising a friction effect at the surface; a second haptic output device configured to generate a second haptic effect, the second haptic effect comprising vibrotactile feedback; and a processor configured to receive an input signal from the sensor and output a first drive signal to the first haptic output device to generate the first haptic effect and to output a second drive signal to the second haptic output device to generate the second haptic effect. | 05-28-2015 |
20150145656 | METHOD AND APPARATUS OF BODY-MEDIATED DIGITAL CONTENT TRANSFER AND HAPTIC FEEDBACK - The disclosure relates to systems and methods of transferring/storing digital content, and/or providing haptic feedback via wearable devices directly or indirectly responsive to an event such as a communication, an event occurring in an electronic environment and/or physical environment, the transfer of digital content, and/or other events. Wearable devices may be worn at various locations on a body of the user. Each location may be associated with a wearable device. Different haptic feedback may be provided at different locations based on the event such that the events may be distinguished or otherwise identified based on the location at which haptic feedback is provided. The locations may be stored in a configuration of wearable devices that act as a mapping of the wearable devices. The locations and/or haptic feedback itself may be varied based on the context and/or properties such as size of digital content or status of the transfer. | 05-28-2015 |
20150133221 | GAMING DEVICE WITH HAPTIC EFFECT ISOLATED TO USER INPUT ELEMENTS - A user input device includes a housing, a user input element adapted to be operated by a user and configured to send a signal to a processor when operated by the user, and an actuator coupled to the user input element. The actuator is configured to receive a control signal from the processor and output a haptic effect to the user input element in response to the control signal from the processor. A vibration isolation barrier is disposed between the user input element and the housing, wherein the vibration isolation barrier substantially mechanically isolates the user input element from the housing. The user input element may be a joystick, button, or trigger. | 05-14-2015 |
20150106707 | Products and Processes for Providing Force Sensations in a User Interface - Products and processes for providing haptic feedback in a user interface device are disclosed. In one exemplary embodiment, a process comprises defining a first cell, mapping a first location of a matrix with the defined first cell, and mapping a second location of the matrix with the defined first cell. The first cell comprises a first parameter representing a first haptic effect. | 04-16-2015 |
20150097800 | ELECTROSTATIC HAPTIC BASED USER INPUT ELEMENTS - A user input element includes a first part having a first capacitive surface, a second part having a second capacitive surface configured to be movable relative to the first capacitive surface, and an insulator positioned in between the first capacitive surface and the second capacitive surface so that a haptic effect is generated when the second capacitive surface is moved relative to the first capacitive surface from a first position to a second position. The user input element may be part of a haptic feedback interface system configured to provide haptic effects to a user operating the system. | 04-09-2015 |
20150077324 | ORIENTATION ADJUSTABLE MULTI-CHANNEL HAPTC DEVICE - A system that generates haptic effects on a haptically-enabled device determines an orientation of the haptically-enabled device and obtains one or more haptic effect channels. The system then assigns each of the haptic effect channels to a haptic output device on the haptically-enabled device based on the orientation. | 03-19-2015 |
20150072789 | Systems and Methods for Performing Haptic Conversion - Systems and methods for haptic conversion are described. One disclosed method includes the steps of: determining a characteristic of a target user interface device having a target haptic output device, determining a source haptic effect associated with a source user interface device having a source haptic output device; converting the source haptic effect to a target haptic effect, the conversion based at least in part on the characteristic of the target haptic output device, and generating a haptic signal associated with the target haptic effect, the haptic signal configured to cause the target haptic output device to output the target haptic effect. | 03-12-2015 |
20150070265 | Systems and Methods for Visual Processing of Spectrograms to Generate Haptic Effects - Systems and methods for visual processing of spectrograms to generate haptic effects are disclosed. In one embodiment, a signal comprising at least an audio signal is received. One or more spectrograms may be generated based at least in part on the received signal. One or more haptic effects may be determined based at least in part on the spectrogram. For example, a generated spectrogram may be a two-dimensional image and this image can be analyzed to determine one or more haptic effects. Once a haptic effect has been determined, one or more haptic output signals can be generated. A generated haptic output signal may be output to one or more haptic output devices. | 03-12-2015 |
20150070261 | Haptic Conversion System Using Frequency Shifting - A system is provided that converts an input into one or more haptic effects using frequency shifting. The system receives an input signal. The system further performs a fast Fourier transform of the input signal. The system further shifts one or more frequencies of the transformed input signal to one or more frequencies within a shift-to frequency range. The system further performs an inverse fast Fourier transform of the frequency-shifted signal, where the inversely transformed signal forms a haptic signal. The system further generates the one or more haptic effects based on the haptic signal. | 03-12-2015 |
20150070260 | Haptic Conversion System Using Segmenting and Combining - A system is provided that converts an input into one or more haptic effects using segmenting and combining. The system receives an input. The system further segments the input into a plurality of input sub-signals. The system further converts the plurality of input sub-signals into a haptic signal. The system further generates the one or more haptic effects based on the haptic signal. | 03-12-2015 |
20150070152 | MULTIPLEXING AND DEMULTIPLEXING HAPTIC SIGNALS - A system receives a multiplexed signal with two or more different types of haptic signals encoded therein. Each type of haptic signal represents a haptic effect for different types of haptic output devices. The system determines a target haptic output device located on a haptic playback device. The system demultiplexes the multiplexed signal into at least the type of haptic signal corresponding to the target output device. The system provides the demultiplexed haptic signal to the target haptic output device. | 03-12-2015 |
20150070151 | HAPTIC WARPING SYSTEM THAT TRANSFORMS A HAPTIC SIGNAL INTO A COLLECTION OF VIBROTACTILE HAPTIC EFFECT PATTERNS - A system is provided that transforms haptic signals into vibrotactile haptic effect patterns. The system receives a haptic signal that includes haptic effect patterns. The system further detects a start time and an end time for each haptic effect pattern. The system further detects haptic effect patterns based on a characteristic, and replaces the detected haptic effect patterns with substitute haptic effect patterns. The system further shifts the start time for each haptic effect pattern back by a shift duration. The system further assigns a vibrotactile haptic effect pattern to each haptic effect pattern. The system further sends the vibrotactile haptic effect patterns to a standard-definition haptic output device to generate vibrotactile haptic effects. | 03-12-2015 |
20150070149 | HAPTIC WARPING SYSTEM - A system is provided that transforms haptic signals. The system receives an original haptic signal, where the original haptic signal includes a first haptic effect space, and where the first haptic effect space includes one or more haptic effects that can be generated by a first haptic output device. The system further transforms the original haptic signal into a new haptic signal, where the new haptic signal includes a second haptic effect space that is different from the first haptic effect space, where the second haptic effect space includes one or more haptic effects that can be generated by a second haptic output device, and where data contained within the new haptic signal is based on data contained within the original haptic signal. The system further sends the new haptic signal to a haptic output device to generate one or more haptic effects. | 03-12-2015 |
20150070148 | Systems and Methods for Generating Haptic Effects Associated With Audio Signals - Systems and methods for generating haptic effects associated with audio signals are disclosed. One disclosed system for outputting haptic effects includes a processor configured to: receive an audio signal; determine a haptic effect based in part on the audio signal by: identifying one or more components in the audio signal; and determining a haptic effect associated with the one or more components; and output a haptic signal associated with the haptic effect. | 03-12-2015 |
20150070147 | Systems and Methods for Generating Haptic Effects Associated With an Envelope in Audio Signals - Systems and methods for generating haptic effects associated with envelopes in audio signals are disclosed. One disclosed system for outputting haptic effects includes a processor configured to: receive an audio signal; determine an envelope associated with the audio signal; determine a haptic effect based in part on the envelope; and output a haptic signal associated with the haptic effect. | 03-12-2015 |
20150070146 | Systems and Methods for Generating Haptic Effects Associated With Transitions in Audio Signals - Systems and methods for generating haptic effects associated with transitions in audio signals are disclosed. One disclosed system for outputting haptic effects includes a processor configured to: receive a signal; determine a haptic effect based in part on the signal; output a haptic signal associated with the haptic effect; an audio output device configured to receive the signal and output an audible effect; and a haptic output device in communication with the processor and coupled to the touch surface, the haptic output device configured to receive the haptic signal and output the haptic effect. | 03-12-2015 |
20150070145 | ELECTRICAL STIMULATION HAPTIC FEEDBACK INTERFACE - A haptic drive circuit for an electrical muscle stimulation electrode has an input for receiving a haptic signal based on a haptic effect from a haptic effects processor. The drive circuit contains logic for generating a electrical muscle stimulation current based on the haptic signal. An electrode in contact with a user's skin receives the electrical muscle stimulation current, causing a haptic effect by contraction and relaxation of muscles near the electrode. | 03-12-2015 |
20150070144 | AUTOMATIC REMOTE SENSING AND HAPTIC CONVERSION SYSTEM - A system is provided that automatically converts an input into one or more haptic effects in near real-time. The system senses the input in near real-time. The system automatically converts the sensed input into one or more haptic signals in near real-time. The system generates the one or more haptic effects based on the one or more haptic signals. | 03-12-2015 |
20150054727 | HAPTICALLY ENABLED VIEWING OF SPORTING EVENTS - A system that generates haptic effects for a sporting event receives sporting event data that includes different types of event data, each type having a corresponding characteristic. The system assigns a different type of haptic effect to each different type of event data, and generates a haptic signal that corresponds to each type of haptic effect. The system then transmits the haptic signal to a haptic output device. | 02-26-2015 |
20150035780 | INTERACTIVITY MODEL FOR SHARED FEEDBACK ON MOBILE DEVICES - A system that produces a dynamic haptic effect and generates a drive signal that includes a gesture signal and a real or virtual device sensor signal. The haptic effect is modified dynamically based on both the gesture signal and the real or virtual device sensor signal such as from an accelerometer or gyroscope, or by a signal created from processing data such as still images, video or sound. The haptic effect may optionally be modified dynamically by using the gesture signal and the real or virtual device sensor signal and a physical model, or may optionally be applied concurrently to multiple devices which are connected via a communication link. The haptic effect may optionally be encoded into a data file on a first device. The data file is then communicated to a second device and the haptic effect is read from the data file and applied to the second device. | 02-05-2015 |
20140347270 | SYSTEM AND METHOD FOR DISPLAY OF MULTIPLE DATA CHANNELS ON A SINGLE HAPTIC DISPLAY - A system that produces a haptic effect and generates a drive signal that includes at least two haptic effect signals each having a priority level. The haptic effect is a combination of the haptic effect signals and priority levels. The haptic effect may optionally be a combination of the two haptic effect signals if the priority levels are the same, otherwise only the haptic effect signal with the highest priority is used. The frequency of haptic notifications may also be used to generate a drive signal using foreground and background haptic effect channels depending on whether the frequency ratio exceeds a foreground haptic effect threshold. | 11-27-2014 |
20140347177 | METHOD AND SYSTEM FOR HAPTIC DATA ENCODING AND STREAMING - A method includes receiving digital content data including audio data and/or video data, generating haptic data using at least some of the received digital content data, encoding the haptic data for efficient transmission over a communication network, multiplexing the encoded haptic data with the received digital content data, embedding information for decoding the encoded haptic data in metadata of the multiplexed data stream, and sending the multiplexed data stream over the communication network. The method may include analyzing the haptic data to determine at least one characteristic of the haptic data, and the encoding the haptic data may include encoding, based on the determined characteristic, the haptic data to meet a pre-defined criteria. | 11-27-2014 |
20140340209 | LOW-FREQUENCY EFFECTS HAPTIC CONVERSION SYSTEM - A system is provided that produces haptic effects. The system receives an audio signal that includes a low-frequency effects audio signal. The system further extracts the low-frequency effects audio signal from the audio signal. The system further converts the low-frequency effects audio signal into a haptic signal by shifting frequencies of the low-frequency effects audio signal to frequencies within a target frequency range of a haptic output device. The system further sends the haptic signal to the haptic output device, where the haptic signal causes the haptic output device to output one or more haptic effects. | 11-20-2014 |
20140333565 | INTERACTIVITY MODEL FOR SHARED FEEDBACK ON MOBILE DEVICES - A system that produces a dynamic haptic effect and generates a drive signal that includes a gesture signal and a real or virtual device sensor signal. The haptic effect is modified dynamically based on both the gesture signal and the real or virtual device sensor signal such as from an accelerometer or gyroscope, or by a signal created from processing data such as still images, video or sound. The haptic effect may optionally be modified dynamically by using the gesture signal and the real or virtual device sensor signal and a physical model, or may optionally be applied concurrently to multiple devices which are connected via a communication link. The haptic effect may optionally be encoded into a data file on a first device. The data file is then communicated to a second device and the haptic effect is read from the data file and applied to the second device. | 11-13-2014 |
20140320436 | SIMULATION OF TANGIBLE USER INTERFACE INTERACTIONS AND GESTURES USING ARRAY OF HAPTIC CELLS - A user interface device includes a flexible layer comprising a touch surface configured to receive a touch by a user, a plurality of haptic cells covered by the flexible layer, each haptic cell comprising a haptic output device, a sensor configured to sense an amount and/or rate of deformation of the flexible layer when a user touches the touch surface, and a processor configured to receive an output signal from the sensor, generate a haptic control signal based on the output signal from the sensor, and output the haptic control signal to at least one haptic output device of the plurality of haptic cells to cause the haptic output device to deform an associated haptic cell in response to the sensed deformation of the flexible layer. | 10-30-2014 |
20140320435 | Systems and Methods for Haptically-Enabled Conformed and Multifaceted Displays - One illustrative system disclosed herein includes a touch-sensitive surface, which includes: a first surface on a first plane; and a second surface adjacent to the first surface, wherein the second surface is on a second plane different from the first plane. The illustrative system also includes a haptic output device configured to receive a haptic signal and output a haptic effect. Further, the illustrative system includes a processor coupled to the haptic output device and the touch-sensitive surface, the processor configured to: determine an event; determine the haptic effect based at least in part on the event; determine the haptic signal based at least in part on the haptic effect; and transmit the haptic signal associated with the haptic effect to the haptic output device. | 10-30-2014 |
20140320431 | System and Method for a Haptically-Enabled Deformable Surface - One illustrative system disclosed herein includes a first haptic output device configured to receive a first haptic signal and output a first haptic effect to a deformable surface and a second haptic output device configured to receive a second haptic signal and output a second haptic effect to the deformable surface. The illustrative system further includes a processor coupled to the first haptic output device and the second haptic output device, the processor configured to: determine an event, determine a first haptic effect and a second haptic effect based at least in part on the event, transmit a first haptic signal associated with the first haptic effect to the first haptic output device, and transmit a second haptic signal associated with the second haptic effect to the second haptic output device. | 10-30-2014 |
20140320402 | SELF CALIBRATION FOR HAPTIC DEVICES - Systems, methods and apparatuses using feedback from internal sensors to adjust haptic effect output are provided. In an embodiment, a method of generating a haptic output effect in an apparatus with a haptic effect output device is provided. A haptic effect output initiates with the haptic effect output device. The method includes receiving feedback data from an input sensor. The method compares feedback data from the input sensor to expected results of the haptic effect output. The method adjusts operating parameters of the haptic effect output device. The haptic effect output continues. | 10-30-2014 |
20140320396 | PASSIVE STIFFNESS AND ACTIVE DEFORMATION HAPTIC OUTPUT DEVICES FOR FLEXIBLE DISPLAYS - A system includes a flexible display configured to display an image and a sensor connected to the flexible display. The sensor is configured to sense an amount of flexure of the flexible display. A haptic output device is connected to the flexible display and is configured to change a resistance to movement of a first portion of the flexible display relative to a second portion of the flexible display upon receipt of a haptic control signal. The system includes a processor in signal communication with the flexible display, the sensor and the haptic output device. The processor is configured to receive an output signal from the sensor based on the amount of flexure and generate the haptic control signal based on the output signal from the sensor. | 10-30-2014 |
20140320393 | HAPTIC FEEDBACK FOR INTERACTIONS WITH FOLDABLE-BENDABLE DISPLAYS - A flexible device includes a bendable-foldable display that has bendable flaps connected by a hinge. The display has sensors for detecting a folding characteristic between the at least two flaps and for detecting a bending characteristic in at least one flap. The display has a haptic system with haptic output devices, where the haptic system receives input from the sensors indicating deformation of the bendable-foldable display device. A flexible device also includes bendable, foldable, or rollable displays that have sensors and actuators to augment user interaction with the device. Based on one or more measurements provided by the input, the haptic system interprets the input to determine deformation characteristics of the bendable-foldable display device. The haptic system generates haptic feedback based on the deformation characteristics. | 10-30-2014 |
20140315642 | GAMING DEVICE HAVING A HAPTIC-ENABLED TRIGGER - A haptic peripheral comprising a housing, a user input element, a position sensor coupled to the user input element, and an actuator located within the housing and coupled to the user input element. The position sensor is configured to detect a position of the user input element and is configured to send the position to a processor. The actuator is configured to receive a haptic effect drive signal from the processor and is configured to output a force in response to the haptic effect drive signal from the processor. The force is transmitted to the user input element as a kinesthetic haptic effect. The haptic peripheral may include a mechanical amplification system coupled to the actuator and configured to increase the force output by the actuator. In such an embodiment, the increased force is transmitted from the mechanical amplification system to the user input element as a kinesthetic haptic effect. The user input element may be a button, joystick, or trigger and is manipulated by a user to interact with a host computer. | 10-23-2014 |
20140306904 | Systems and Methods for Piezo-Based Haptic Feedback - Systems and methods for piezo-based haptic feedback are disclosed. For example, one described apparatus for piezo-based haptic feedback includes a polymer matrix, and a piezoelectric actuator at least partially embedded within the polymer matrix, the piezoelectric actuator configured to output a haptic effect. | 10-16-2014 |
20140300454 | OFFLINE HAPTIC CONVERSION SYSTEM - A system is provided that controls an offline haptic conversion. The system receives an input from a source. The system further converts the input into haptic signals. The system further encodes the haptic signals. The system further stores the haptic signals within the source, where the haptic signals are combined with the input within the source. Alternately, rather than encoding the haptic signals and storing the haptic signals within the source, the system handles the haptic signals separately, independent of the source. | 10-09-2014 |
20140282051 | Method and Devices for Displaying Graphical User Interfaces Based on User Contact - Method and devices for displaying graphical user interface configurations based detected user contact are disclosed. One disclosed method comprises displaying a graphical user interface (GUI) according to a first GUI configuration on a display of a handheld device, receiving a sensor signal from a sensor, the sensor coupled to the handheld device, the sensor signal indicating a contact with the handheld device, determining a grasping contact based at least in part on the sensor signal, determining a second GUI configuration based at least in part on the grasping contact, and displaying the GUI on the display according to the second GUI configuration. | 09-18-2014 |
20140281958 | HAPTICALLY ENHANCED INTERACTIVITY WITH INTERACTIVE CONTENT - Interactive content may be presented to a user that is manipulating a peripheral. One or more state parameters that are related to the position of the peripheral may be determined. The peripheral may be identified from a plurality of possible peripherals. The interactive content may be adjusted based at least in part on the one or more position parameters and/or the identification of the peripheral. Haptic feedback to be provided to the user may be determined based at least in part on the one or more position parameters and/or the identification of the peripheral. | 09-18-2014 |
20140281954 | Systems and Methods For Haptic And Gesture-Driven Paper Simulation - Systems and methods for haptic and gesture-driven paper simulation are disclosed. For example, one disclosed method includes the steps of receiving an electronic document; receiving metadata associated with the electronic document, the metadata comprising a characteristic indicating a type of paper; generating and transmitting a display signal configured to cause display of the at least a portion of the document; and generating and transmitting a haptic signal based on the type of paper, the haptic signal configured to cause a haptic output device to generate a haptic effect. | 09-18-2014 |
20140274398 | PROGRAMMABLE HAPTIC PERIPHERAL - A system includes a host computer, a processor, and a haptic peripheral. The haptic peripheral includes a manipulandum movable in at least one degree of freedom, an inertial haptic output device, and a haptic output device. The inertial haptic output device is coupled to the manipulandum, and is configured to receive a control signal from the processor and output a transient haptic effect to the manipulandum in response to the control signal from the processor. The haptic output device is configured to receive a control signal from the processor and modify the stiffness of the manipulandum in response to the control signal from the processor. | 09-18-2014 |
20140267904 | METHOD AND APPARATUS TO GENERATE HAPTIC FEEDBACK FROM VIDEO CONTENT ANALYSIS - The disclosure relates to generating haptic feedback based on video content analysis, sensor information that includes one or more measurements of motion of one or more objects on a video, and/or sensor information that includes one or more measurements of motion of one or more image capture devices. The video content analysis may include image processing of the video. The system may identify one or more events based on the image processing and cause a haptic feedback based on the one or more events. The haptic feedback may vary based on an estimated acceleration of an object of a scene of the video, wherein the estimated acceleration is based on the image processing. The estimated acceleration may be made more accurate at high speeds using the sensor information and an estimated acceleration based on the sensor information may be made more accurate at lower speeds based on the image processing. | 09-18-2014 |
20140267065 | CONTACTOR-BASED HAPTIC FEEDBACK GENERATION - A system that generates haptic effects senses contact on an interface by a contactor/object. The system then determines one or more properties of the contactor and generates a type of haptic effect in response to the contact. The type of haptic effect is based at least on the one or more properties. | 09-18-2014 |
20140267013 | USER INTERFACE DEVICE PROVIDED WITH SURFACE HAPTIC SENSATIONS - A user interface device includes a housing, a user input element supported by the housing, and a haptic output device supported by the housing. The haptic output device is configured to generate a haptic effect at a surface of the user interface device. The surface is part of the housing and/or the user input element. A processor disposed within the housing. The processor is configured to receive an input command from the user input element, communicate the input command to a host computer, receive an output command from the host computer, and output a haptic signal based on the output command to the haptic output device to generate the haptic effect at the surface. | 09-18-2014 |
20140266644 | HAPTIC EFFECTS BROADCASTING DURING A GROUP EVENT - A system that generates haptic effects on mobile devices during a group event receives an identity of a first type of haptic effect to be broadcast during the group event and determines a first set of the mobile devices during the group event that will generate the haptic effect. The system then broadcasts the first type of haptic effect to the first set of mobile devices during the group event. | 09-18-2014 |
20140258318 | AUTOMATIC FITTING OF HAPTIC EFFECTS - A system is provided that automatically generates one or more haptic effects from source data, such as audio source data. The system fits the one or more haptic effects to the source data by analyzing the source data and identifying one or more haptic effects that are the most similar to the source data. The system matches the identified one or more haptic effects with the source data. The system subsequently outputs the identified one or more haptic effects. | 09-11-2014 |
20140257536 | PACING SYSTEM WITH FEEDBACK BASED ADJUSTMENTS - A pacing system for pacing an activity receives a desired pace that includes a timing interval and generates a first pace signal based on the desired pace and corresponding to the timing interval. The system receives feedback on an actual pace of the activity and determines if the actual pace is different than the desired pace. When the actual pace is different, the system generates a second pace signal having a timing that is different than the timing interval. When the actual pace is not different, the system generates the second pace signal in accordance with the timing interval. | 09-11-2014 |
20140256438 | HAPTIC SENSATIONS AS A FUNCTION OF EYE GAZE - Systems, electronic devices, and methods provide haptic sensations as a function of eye gaze. A system may include a detector configured to determine a direction of an eye gaze of a user of the system, a processor configured to generate signal representative of a haptic effect based on the direction of the eye gaze, and a haptic output device configured to receive the signal from the processor and output the haptic effect to the user. A method for providing a haptic effect to a user of a system may include determining a direction of an eye gaze of the user of the system, generating a haptic effect based on the direction of the eye gaze, and outputting the haptic effect to the user. | 09-11-2014 |
20140253303 | AUTOMATIC HAPTIC EFFECT ADJUSTMENT SYSTEM - A system is provided that automatically adjusts a haptic effect. The system generates a haptic effect based on one or more haptic parameters. The system measures an affective state of a user that experiences the haptic effect. The system adjusts at least one haptic parameter of the one or more haptic parameters based on the measured affective state. The system generates a new haptic effect based on the one or more haptic parameters, where the at least one haptic effect parameter causes the new haptic effect to be different from the haptic effect. | 09-11-2014 |
20140247227 | HAPTIC DEVICE WITH LINEAR RESONANT ACTUATOR - A haptic output device including an actuator configured to generate a haptic effect, and a processor configured to communicate a driving signal to the actuator and to communicate a braking signal to the actuator before or at the same time the driving signal is terminated to generate the haptic effect. The braking signal has a frequency substantially the same as a resonant frequency of the actuator and at a reverse phase of the driving signal. | 09-04-2014 |
20140247120 | SYSTEM AND METHOD FOR AUTOMATICALLY PRODUCING HAPTIC EVENTS FROM A DIGITAL AUDIO FILE - In an embodiment, a system and method for automatically converting a plurality of events in a plurality of channels in a structured representation sequence into haptic events. The method comprises calculating an event score for each event of the sequence in one or more channels. The method also comprises calculating a cumulative score based on the event scores in the one or more channels. The method includes selectively designating haptic events to the events based on the event scores in one or more selected channels, wherein the haptic events are output by a haptic actuator. This may be done by the system by calculating properties of the sound or by taking already existing values associated with those properties to efficiently produce haptic events. | 09-04-2014 |
20140232534 | MOBILE DEVICE WITH INSTINCTIVE ALERTS - A haptically enabled system receives information and determines that a user of the system should be notified of the information. The system further receives and analyzes inputs to determine a context of the user. The system then generates an instinctive alert based on the context, where the instinctive alert is configured to impart a desired emotion on the user. The system then displays the instinctive alert based on the context. | 08-21-2014 |
20140218185 | OVERDRIVE VOLTAGE FOR AN ACTUATOR TO GENERATE HAPTIC EFFECTS - A system in which haptic effects are generated using an actuator receives a frequency response for the actuator at a standard voltage and generates a lookup table for an overdrive voltage based on the frequency response. The system then receives a haptic signal for the haptic effect and extracts one or more frequencies for the haptic signal. The system then determines the corresponding overdrive voltage from the lookup table for each of the frequencies and, for each of the frequencies, applies the corresponding overdrive voltage to the actuator. The overdrive voltage is greater than or equal to the standard voltage. | 08-07-2014 |
20140218184 | WEARABLE DEVICE MANAGER - A system for managing a plurality of wearable devices on a user receives information to be conveyed using haptic effects and determines an intent of the information. The system then determines, for each of the plurality of wearable haptic devices, a location of the wearable haptic device on the user and a haptic capability. The system then maps the information as a haptic effect to one or more of the wearable haptic devices based at least on the determined locations on the user and the haptic capabilities. | 08-07-2014 |
20140208204 | FRICTION MODULATION FOR THREE DIMENSIONAL RELIEF IN A HAPTIC DEVICE - A haptic device includes a display configured to display an image, a haptic output device configured to generate a haptic effect to a user when the user interacts with the display, and a processor configured to receive information related to the image displayed on the display. The processor is also configured to create a friction based haptic effect map associated with the image displayed on the display, and generate a signal to the haptic output device to output the haptic effect when the user interacts with the display when the image is displayed on the display, the haptic effect being configured to simulate a feel of the image in three dimensions. | 07-24-2014 |
20140205260 | HAPTIC SENSATION RECORDING AND PLAYBACK - A system includes a video recorder configured to record video data, a sensor configured to sense movement of an object and output sensor data representative of the movement of the object, a transformer configured to transform the sensor data into a haptic output signal, a haptic output device configured to generate a haptic effect to a user based on the haptic output signal, a display configured to display a video, and a processor configured to synchronize the video data and the haptic output signal, and output the video data to the display and the haptic output signal to the haptic output device so that the haptic effect is synchronized with the video displayed on the display. | 07-24-2014 |
20140198130 | AUGMENTED REALITY USER INTERFACE WITH HAPTIC FEEDBACK - A device may be configured to provide feedback based on an augmented reality environment. The device may comprise, for example, a processor configured to receive a control signal from an augmented reality device and a feedback device configured to provide a feedback based on the received control signal. The augmented reality device may generate an augmented reality environment and may be remote from the device. The control signal received by the device may be representative of an event occurring in the augmented reality environment. The augmented reality environment may include a physical space in which at least one physical object exists and an augmented reality space in which one or more virtual objects that augment the physical object are displayed. | 07-17-2014 |
20140195906 | CUSTOMIZING HAPTIC EFFECTS ON AN END USER DEVICE - Systems, methods, and associated software are described herein for enabling a regular user of an end user device, such as a cellular telephone, to customize parameters associated with haptic effects applied to the user by the end user device. In one implementation, among several, a method described herein includes enabling a user of an end user device to access software adapted to design or modify haptic effects of the end user device. The method further includes enabling the user to open a haptic track file and enter or modify parameters associated with the haptic effects of the opened haptic track file. | 07-10-2014 |
20140189506 | Systems And Methods For Interpreting Physical Interactions With A Graphical User Interface - Embodiments of systems and methods for interpreting physical interactions with a graphical user interface are disclosed. For example, one system for interpreting physical interactions with a graphical user interface is a device having a housing configured to be grasped by a user, a display disposed in the housing, the display configured to display a graphical user interface, and a sensor disposed in the housing, the sensor configured to detect a movement of the housing in a degree of freedom. The device also includes a processor disposed in the housing and in communication with the display and the sensor, the processor configured to receive a sensor signal from the sensor, the sensor signal comprising a parameter associated with the movement, to determine a command associated with the graphical user interface based on the parameter, to determine a function to be executed based on the command, and to execute the function. | 07-03-2014 |
20140184497 | INTERACTIVITY MODEL FOR SHARED FEEDBACK ON MOBILE DEVICES - A system that produces a dynamic haptic effect and generates a drive signal that includes a gesture signal and a real or virtual device sensor signal. The haptic effect is modified dynamically based on both the gesture signal and the real or virtual device sensor signal such as from an accelerometer or gyroscope, or by a signal created from processing data such as still images, video or sound. The haptic effect may optionally be modified dynamically by using the gesture signal and the real or virtual device sensor signal and a physical model, or may optionally be applied concurrently to multiple devices which are connected via a communication link. The haptic effect may optionally be encoded into a data file on a first device. The data file is then communicated to a second device and the haptic effect is read from the data file and applied to the second device. | 07-03-2014 |
20140168091 | SYSTEM AND METHOD FOR IDENTIFYING USERS AND SELECTING A HAPTIC RESPONSE - A touchscreen generates two or more displays that are visible at different viewing angles, e.g., one is visible only from the driver's seat of a car and the other is visible only from the passenger seat of the car. The displays occupy overlapping areas on the display surface such that input controls for the first display may overlap with input controls for the second display. If one of the users engages the display, the user is identified, it is determined which display the user is viewing and then which input he may be supplying, and a haptic stimulus for that display may be generated. | 06-19-2014 |
20140167941 | HAPTIC SYSTEM WITH INCREASED LRA BANDWIDTH - A method of generating a haptic effect on a linear resonance actuator (“LRA”) having a resonant frequency includes receiving a haptic effect signal for the haptic effect, where the haptic effect comprises a desired frequency that is off-resonant from the LRA. The method further includes generating a first sine wave at the desired frequency and generating a second sine wave at or near the resonant frequency. The method further includes combining the first sine wave and the second sine wave to generate a drive signal. | 06-19-2014 |
20140160050 | Method And System For Providing Haptic Effects Based On Haptic Context Information - The present disclosure is generally directed to a method for providing haptic effects based on haptic context data including receiving haptic context information associated with a user interface, receiving an input signal associated with a user interaction with the user interface; and determining a haptic effect based in part on the haptic context information and input signal; and outputting a haptic signal associated with the haptic effect. | 06-12-2014 |
20140160034 | ENHANCED DYNAMIC HAPTIC EFFECTS - A system is provided that generates a dynamic haptic effect that includes one or more key frames, where each key frame includes a first interpolant value and a first haptic effect. The system further receives an interpolant value, where the interpolant value is between at least two interpolant values of at least two key frames. The system further determines the dynamic haptic effect from the interpolant value. The system further distributes the dynamic haptic effect among a plurality of actuators. | 06-12-2014 |
20140152429 | SOUND TO HAPTIC EFFECT CONVERSION SYSTEM USING WAVEFORM - A haptic conversion system is provided that intercepts frames of audio data, such as a digital audio signal, converts the frames into a haptic signal, and plays the created haptic signal through an actuator to produce haptic effects. The haptic signal is based on a maximum value of each audio data frame, which defines a magnitude of the haptic signal. The haptic signal is applied to the actuator configured to receive the haptic signal, where the actuator utilizes the haptic signal to generate the one or more haptic effects. | 06-05-2014 |
20140139452 | System and Method For Feedforward and Feedback With Haptic Effects - Systems and methods for feedforward and feedback with haptic effects are disclosed. One such system may include a sensor configured to detect an interaction with a touch surface and transmit a sensor signal associated with the interaction; a processor in communication with the sensor, the processor configured to: determine an operation available on a device, the operation associated with a first user interaction; determine a simulated texture associated with the operation; output a haptic signal associated with the simulated texture; determine whether to perform the operation based on a second user interaction; and a haptic output device in communication with the processor and coupled to the touch surface, the haptic output device configured to receive a haptic signal and simulate a texture on the touch surface based in part on the haptic signal. | 05-22-2014 |
20140139450 | System and Method for Simulated Physical Interactions With Haptic Effects - A system of the present disclosure may include a sensor configured to detect user interaction with a touch surface and transmit a sensor signal associated with the user interaction; a processor in communication with the sensor, the processor configured to: determine a position of the user interaction based on the sensor signal, determine a feature associated with the position of the user interaction, control a device associated with the feature, modify a display signal based in part on the user interaction, select a haptic effect to generate based at least in part on user interaction and the position, the haptic effect selected to simulate the feature, and transmit a haptic signal to generate the haptic effect, and a haptic output device in communication with the processor and coupled to the touch surface, the haptic output device configured to receive a haptic signal and output a haptic effect. | 05-22-2014 |
20140139448 | METHOD AND APPARATUS FOR PROVIDING HAPTIC CUES FOR GUIDANCE AND ALIGNMENT WITH ELECTROSTATIC FRICTION - A haptic effect enabled device for producing a haptic effect. In some cases, the haptic effect may represent a component of a spatial pattern represented on a surface of the haptic effect enabled device. In some cases, the haptic effect enabled device may comprise a haptic output device, a drive module, and a drive circuit. The drive module may receive information indicative of a location of a touch input at the surface and determine whether the touch input's location corresponds with a location of one of multiple components of the spatial pattern. The drive module may generate a drive signal that the drive circuit then applies to the haptic output device to generate the haptic effect. | 05-22-2014 |
20140125470 | Devices Using Tactile Feedback To Deliver Silent Status Information - Handheld weapons using tactile feedback to deliver silent status information are described. One embodiment comprises a handheld weapon comprising: a housing comprising a user contactable region, a tactile element coupled to the user contactable region, and an actuator coupled to the tactile element and capable of outputting a haptic sensation localized to the tactile element. | 05-08-2014 |
20140125467 | ENCODING DYNAMIC HAPTIC EFFECTS - A system is provided that encodes one or more dynamic haptic effects. The system defines a dynamic haptic effect as including a plurality of key frames, where each key frame includes an interpolant value and a corresponding haptic effect. An interpolant value is a value that specifies where an interpolation occurs. The system generates a haptic effect file, and stores the dynamic haptic effect within the haptic effect file. | 05-08-2014 |
20140118127 | METHOD AND APPARATUS FOR SIMULATING SURFACE FEATURES ON A USER INTERFACE WITH HAPTIC EFFECTS - A haptic effect enabled device for simulating a tactile sensation on a surface. In some cases, the haptic effect enabled device may be a user interface device, and the tactile sensation may be simulated on a surface of the user interface device. The interface device may include a haptic output device configured to generate a haptic effect, such as a periodic haptic effect, at the surface. The interface device may include a drive module configured to generate a periodic drive signal based on a touch input at the surface of the interface device and based on the tactile sensation to be simulated at the surface. The interface device may include a drive circuit operatively coupled to the drive module and the haptic output device and configured to apply the periodic drive signal to the haptic output device. In some cases, the surface may be separate from the device. | 05-01-2014 |
20140118125 | STREAM-INDEPENDENT SOUND TO HAPTIC EFFECT CONVERSION SYSTEM - A haptic conversion system is provided that receives a plurality of audio streams of an audio signal. The haptic conversion system further determines, for each stream of the plurality of streams, whether at least one parameter of the one or more parameters indicates that the corresponding stream is to be converted into a haptic effect, and thus, identifies one or more streams that include at least one parameter that indicates the corresponding stream is to be converted into the haptic effect. The haptic conversion system further generates, for the identified streams, a haptic signal based on each corresponding stream. The haptic conversion system further sends, for the identified streams, each haptic signal to an actuator to generate a haptic effect. | 05-01-2014 |
20140117887 | HAPTICALLY-ENABLED SYSTEM WITH BRAKING - A haptically-enabled system includes an actuator that has a first terminal and a second terminal. The second terminal is coupled to a voltage source, and a first switch is coupled to the first terminal and to ground. A second switch is coupled to the actuator. The second switch is parallel to the actuator. | 05-01-2014 |
20140104165 | SYSTEM AND METHOD FOR DISPLAY OF MULTIPLE DATA CHANNELS ON A SINGLE HAPTIC DISPLAY - A system that produces a haptic effect and generates a drive signal that includes at least two haptic effect signals each having a priority level. The haptic effect is a combination of the haptic effect signals and priority levels. The haptic effect may optionally be a combination of the two haptic effect signals if the priority levels are the same, otherwise only the haptic effect signal with the highest priority is used. The frequency of haptic notifications may also be used to generate a drive signal using foreground and background haptic effect channels depending on whether the frequency ratio exceeds a foreground haptic effect threshold. | 04-17-2014 |
20140104162 | Systems And Methods For Transmitting Haptic Messages - Systems and methods for transmitting haptic messages are disclosed. For example, one disclosed method includes the steps of: receiving at least one sensor signal from at least one sensor of a mobile device, the at least one sensor signal associated with a movement of the mobile device, determining a message to be displayed in a user interface based at least in part on the at least one sensor signal, and causing the message to be displayed. | 04-17-2014 |
20140098043 | Systems and Methods for Providing Haptic Feedback to Touch-Sensitive Input Devices - Systems and methods for providing haptic feedback to touch-sensitive input devices are disclosed. For example, one disclosed system includes an input device having a housing having an exterior surface; a touch-sensitive surface configured to transmit a contact signal indicating a contact with the touch-sensitive surface; a sensor disposed within the housing, the sensor configured to sense movement of the input device and to transmit a sensor signal indicating movement of the input device; an actuator disposed within the housing, the actuator configured to output a haptic effect based on an actuator signal, the actuator signal based at least in part on the contact signal. | 04-10-2014 |
20140091914 | Systems And Methods For Mapping Message Contents To Virtual Physical Properties For Vibrotactile Messaging - Systems and methods for mapping message contents to virtual physical properties for vibrotactile messaging are disclosed. For example, one disclosed method includes the steps of receiving a sensor signal from a sensor, the sensor configured to detect an interaction with a messaging device, determining a virtual physical property of a virtual message object based at least in part on the sensor signal, determining a haptic effect based at least in part on the virtual physical parameter; and generating a haptic signal configured to cause an actuator to output the haptic effect. | 04-03-2014 |
20140089792 | CUSTOMIZING HAPTIC EFFECTS ON AN END USER DEVICE - Systems, methods, and associated software are described herein for enabling a regular user of an end user device, such as a cellular telephone, to customize parameters associated with haptic effects applied to the user by the end user device. In one implementation, among several, a method described herein includes enabling a user of an end user device to access software adapted to design or modify haptic effects of the end user device. The method further includes enabling the user to open a haptic track file and enter or modify parameters associated with the haptic effects of the opened haptic track file. | 03-27-2014 |
20140071079 | METHOD AND APPARATUS FOR PROVIDING HAPTIC FEEDBACK UTILIZING MULTI-ACTUATED WAVEFORM PHASING - A method and device for generating haptic feedback over a touch surface using multi-actuated waveform phasing are disclosed. A haptic device, in one embodiment, includes a touch surface and a group of haptic actuators. The touch surface is capable of sensing an event, wherein the event can be a contact on the touch surface or a movement nearby the surface. A portion of the haptic actuators, which are coupled to the touch surface, is configured to provide haptic feedback on the touch surface in response to the event. Another portion of the haptic actuators is used to minimize unwanted haptic effect on the touch surface. | 03-13-2014 |
20140068110 | SYSTEM AND METHOD FOR ORDERING HAPTIC EFFECTS - A signal associated with multiple haptic effects is received, each haptic effect from the multiple haptic effects being associated with a time slot from multiple time slots. Each haptic effect from the multiple haptic effects is associated with an effect slot from multiple effect slots at least partially based on the time slot associated with that haptic effect. An output signal is sent for each effect slot from the multiple effect slots, when the associated haptic effect is scheduled for its time slot. | 03-06-2014 |
20140064516 | SOUND TO HAPTIC EFFECT CONVERSION SYSTEM USING MAPPING - A haptic conversion system is provided that intercepts audio data, such as a digital audio signal, analyzes the audio data in frequency, and divides the analyzed audio data into one or more audio frequency regions, where each audio frequency region includes one or more audio sub-signals. The haptic conversion system further maps the one or more audio frequency regions to one or more haptic frequency regions, where each haptic frequency region includes one or more haptic signals. The haptic conversion system further maps the one or more haptic effects to one or more actuators. The haptic conversion system further sends the one or more haptic signals to one or more actuators, in order to generate one or more haptic effects. | 03-06-2014 |
20140062682 | SYSTEM FOR HAPTICALLY REPRESENTING SENSOR INPUT - A haptic representation system is provided that generates a haptic effect in response to sensor input. The sensor input is mapped to a haptic signal. The haptic signal is sent to an actuator configured to receive the haptic signal. The actuator utilizes the haptic signal to generate the haptic effect. | 03-06-2014 |
20140055358 | CONTEXT-DEPENDENT HAPTIC CONFIRMATION SYSTEM - A haptic confirmation system is provided that produces a confirmation haptic effect in response to a user interaction with a user interface element, where the confirmation haptic effect is based on context metadata. The context metadata is mapped to one or more haptic parameters. A haptic signal is generated based on the one or more haptic parameters. The haptic signal is sent to an actuator configured to receive the haptic signal. The actuator utilized the haptic signal to generate the confirmation haptic effect. | 02-27-2014 |
20140047333 | FORCE FEEDBACK SYSTEM INCLUDING MULTI-TASKING GRAPHICAL HOST ENVIRONMENT AND INTERFACE DEVICE - A force feedback system provides components for use in a force feedback system including a host computer and a force feedback interface device. An architecture for a host computer allows multi-tasking application programs to interface with the force feedback device without conflicts, where a single active application may output forces. A background application also provides force effects to be output and allows a user to assign force effects to graphical objects in a graphical user interface. Force feedback effects and structures are further described, such as events and enclosures. | 02-13-2014 |
20140043228 | System and method for providing haptic stimulus based on position - A method of producing a haptic effect includes receiving a sensory content signal from a user interface device, receiving a sensor signal of a body position of a first body part of a user with respect to a second body part of the user, generating the haptic effect using the sensory content signal and the sensor signal, and applying a drive signal to a haptic actuator to produce the haptic effect. | 02-13-2014 |
20140039900 | Systems and Methods For Haptic Confirmation Of Commands - Systems and methods for haptic confirmation of commands are disclosed. For example a system for generating haptic effects to confirm receipt of a voice command includes a microphone; a housing configured to be contacted by a user, and an actuator in communication with the housing, the actuator configured to output a haptic effect to the housing. The system also includes a processor in communication with the microphone and the actuator, the processor configured to receive speech information from the microphone; recognize the speech information and determine a command associated with the speech information. If the speech information is recognized and the command is determined, the processor is configured to generate a first actuator signal configured to cause the actuator to output a first haptic effect, and transmit the first actuator signal to the actuator. Otherwise, the processor is configured generate a second actuator signal configured to cause the actuator to output a second haptic effect; and transmit the second actuator signal to the actuator. | 02-06-2014 |
20140028573 | SUSPENSION ELEMENT HAVING INTEGRATED PIEZO MATERIAL FOR PROVIDING HAPTIC EFFECTS TO A TOUCH SCREEN - A compliant suspension element is disclosed for use in mounting an electronic touch screen or touch surface. At least one compliant suspension element couples a touch screen and a housing component together such that the touch screen component is movable relative to the housing component. A segment of piezo material is coupled to opposing surfaces of the at least one suspension element for producing a force that moves the touch screen component relative to the housing component and thereby provide a haptic effect to a user of the touch screen component. In reaction to the force produced by the segments of piezo material, the at least one suspension element is configured to allow movement of the touch screen component relative to the housing component in a first direction and to limit movement between the touch screen component and the housing component in at least a second direction. | 01-30-2014 |
20140022065 | HANDHELD COMPUTER INTERFACE WITH HAPTIC FEEDBACK - Various systems, devices, and methods are provided for generating an impact and/or surface haptic effect for a handheld computer interface such as a video game controller. For example, the handheld computer interface may include a handle coupled to an impact actuator. The impact actuator includes a movable mass and an end stop. The impact actuator may receive a haptic effect signal and in response cause the mass to contact the end stop to generate a haptic effect. A smart material that outputs a surface haptic effect may be coupled to a surface of the handle such that the surface haptic effect is output substantially from the smart material rather than the handle. The handle may be coupled to an end piece having a shape that simulates an object such as a tennis racket, golf club, or other object. | 01-23-2014 |
20140015862 | Systems And Methods For Compensating For Visual Distortion Caused By Surface Features On A Display - Systems and methods for compensating for visual distortion caused by surface features on a display are disclosed. For example, one disclosed system includes: a display including one ore more surface features; a processor configured to: receive a display signal including graphical data; determine a location of the surface feature; transform the display signal based at least in part on the location of the surface feature; and cause the transformed display signal to be displayed. | 01-16-2014 |
20140015761 | GENERATING HAPTIC EFFECTS FOR DYNAMIC EVENTS - A system that generates a dynamic haptic effect for a dynamic event receives a first endpoint and a second endpoint for dynamic events. The first endpoint includes a first endpoint value and a corresponding first haptic effect, and the second endpoint includes a second endpoint value and a corresponding second haptic effect. The system receives a dynamic value for the dynamic event. The dynamic value is between the first endpoint value and the second endpoint value. The system then determines the dynamic haptic effect from the dynamic value by interpolating the dynamic haptic effect from the first haptic effect and the second haptic effect. | 01-16-2014 |
20140002386 | HAPTIC FEEDBACK FOR TOUCHPADS AND OTHER TOUCH CONTROLS | 01-02-2014 |
20140002376 | METHOD AND APPARATUS FOR PROVIDING SHORTCUT TOUCH GESTURES WITH HAPTIC FEEDBACK | 01-02-2014 |
20140002346 | HAPTIC FEEDBACK CONTROL SYSTEM | 01-02-2014 |
20140002251 | CONTROL WHEEL WITH HAPTIC FEEDBACK | 01-02-2014 |
20130335454 | METHOD AND APPARATUS FOR REPRESENTING USER INTERFACE METAPHORS AS PHYSICAL CHANGES ON A SHAPE-CHANGING DEVICE - An electronic device having a user interface device that has a flexible surface, a haptic output device operatively coupled to the flexible surface and configured to cause a deformation of the flexible surface, and a controller in signal communication with the haptic output device. The controller is configured to trigger the haptic output device to cause the deformation of the flexible surface based on a simulated physical behavior of a virtual element represented on the user interface. | 12-19-2013 |
20130335209 | HAPTIC EFFECT CONVERSION SYSTEM USING GRANULAR SYNTHESIS - A system is provided that converts an input, such as audio data, into one or more haptic effects. The system applies a granular synthesis algorithm to the input in order to generate a haptic signal. The system subsequently outputs the one or more haptic effects based on the generated haptic signal. The system can also shift a frequency of the input, and also filter the input, before the system applies the granular synthesis algorithm to the input. | 12-19-2013 |
20130331157 | PROGRAMMABLE GAME-BASED HAPTIC ENABLED GUN CONTROLLER - Various systems, game controllers, and methods for simulating various objects such as weapons are provided. For example, a game controller may include a trigger, a processor within the body that receives a trigger signal when the trigger is activated by the user. The processor may communicate with a computer running a software program such as a gaming application, and an actuator coupled to the trigger, the actuator configured to output a haptic effect to the trigger in response to receiving a control signal from the processor. The game controller may simulate a gun and generate a recoil effect. In some embodiments, the recoil effect may be generated by impacting a moving mass from a discharge end of the gun to a handle end of the gun. In some embodiments, the recoil effect may be generated by using a body part of a user as a tether. | 12-12-2013 |
20130328814 | INTERACTIVE TOUCH SCREEN METAPHORS WITH HAPTIC FEEDBACK - A system and computer-implemented method of providing haptic effects to a first user of a multi-user application. The method includes executing a first instance of the multi-user application on a first computing platform associated with the first user. The multi-user application is configured to interface with an object based on control inputs received from the first user and based on control inputs received from a second user via a second computing platform executing a second instance of the multi-user application, and responsive to performance of a first control input by the second user on the second computing platform, the method includes generating a first haptic effect for the first user on the first computing platform, the first haptic effect conveying information to the first user about the effect of the first control input. | 12-12-2013 |
20130314354 | MULTI-TOUCH DEVICE HAVING DYNAMIC HAPTIC EFFECTS - A system for generating haptic effects senses at least two generally simultaneous touches on a touchscreen and, in response, generates a dynamic haptic effect. | 11-28-2013 |
20130311881 | Systems and Methods for Haptically Enabled Metadata - Systems and methods for haptically enabled metadata are disclosed. One disclosed embodiment of a method comprises receiving, by an electronic device, an electronic list corresponding to a plurality of data items. The method further comprises analyzing, by the electronic device, metadata within the electronic list to determine a haptic effect associated with a first data item in the plurality of data items. The method further comprises generating a signal, the signal being generated when information corresponding to the first data item is initially displayed on a display associated with the electronic device, the signal configured to cause the haptic effect. The method further comprises outputting the signal. | 11-21-2013 |
20130307786 | Systems and Methods for Content- and Context Specific Haptic Effects Using Predefined Haptic Effects - Systems and methods for content- and/or context-specific haptic effects are disclosed. In one embodiment electronic content is received by an electronic device. A plurality of predefined effects are received. The plurality of predefined effects may be a database of predefined haptic effects, a library of predefined haptic effects, or a list of predefined haptic effects. An association between at least one predefined haptic effect from the plurality of predefined haptic effects and a predefined event is received. An occurrence of the predefined event is identified wherein the occurrence of the predefined event is associated with a portion of the electronic content. In response to identifying the occurrence of the event, the predefined haptic effect can be generated. | 11-21-2013 |
20130300683 | INTERACTIVITY MODEL FOR SHARED FEEDBACK ON MOBILE DEVICES - A system that produces a dynamic haptic effect and generates a drive signal that includes a gesture signal and a real or virtual device sensor signal. The haptic effect is modified dynamically based on both the gesture signal and the real or virtual device sensor signal such as from an accelerometer or gyroscope, or by a signal created from processing data such as still images, video or sound. The haptic effect may optionally be modified dynamically by using the gesture signal and the real or virtual device sensor signal and a physical model, or may optionally be applied concurrently to multiple devices which are connected via a communication link. The haptic effect may optionally be encoded into a data file on a first device. The data file is then communicated to a second device and the haptic effect is read from the data file and applied to the second device. | 11-14-2013 |
20130265286 | SOUND TO HAPTIC EFFECT CONVERSION SYSTEM USING MULTIPLE ACTUATORS - A haptic conversion system is provided that analyzes an audio signal, generates a plurality of haptic signals based on the analysis of the audio signal, and plays the generated plurality of haptic signals through a plurality of actuators to produce one or more haptic effects. The haptic conversion system maps the generated plurality of haptic signals to the plurality of actuators based on one or more audio characteristics of the audio signal. Each generated haptic signal includes one or more haptic parameters, and is played at its mapped actuator to generate the one or more haptic effects. | 10-10-2013 |
20130253483 | Tool Having Multiple Feedback Devices - Disclosed herein are systems and methods for managing how signals, which are sensed on a tool, are presented to an operator of the tool. According to one example of a method for managing signals, the method comprises allowing an operator to manipulate a tool having a plurality of output mechanisms mounted thereon. The method also includes sensing a property of an object located near or adjacent to a distal portion of the tool and processing the sensed property to obtain one or more output signals. Furthermore, the method includes applying the one or more output signals to one or more of the output mechanisms. | 09-26-2013 |
20130225261 | METHOD AND APPARATUS FOR GENERATING MOOD-BASED HAPTIC FEEDBACK - A method and apparatus for generating mood-based haptic feedback are disclosed. A haptic system includes a sensing device, a digital processing unit, and a haptic generator. The sensing device, in one embodiment, is configured to detect user's modalities in accordance with mood information collected by one or more sensors and capable of issuing a sensing signal in response to the user's modalities. The digital processing unit is capable of identifying a user's condition in accordance with the sensing signal and providing a haptic signal in response to the user's condition. The user's condition, in one aspect, indicates user's mood and/or user's psychological conditions. The haptic generator generates haptic feedback in accordance with the haptic signal. | 08-29-2013 |
20130222310 | SYSTEM AND METHOD FOR DISPLAY OF MULTIPLE DATA CHANNELS ON A SINGLE HAPTIC DISPLAY - A system that produces a haptic effect and generates a drive signal that includes at least two haptic effect signals each having a priority level. The haptic effect is a combination of the haptic effect signals and priority levels. The haptic effect may optionally be a combination of the two haptic effect signals if the priority levels are the same, otherwise only the haptic effect signal with the highest priority is used. The frequency of haptic notifications may also be used to generate a drive signal using foreground and background haptic effect channels depending on whether the frequency ratio exceeds a foreground haptic effect threshold. | 08-29-2013 |
20130214914 | SYSTEM AND METHOD FOR CONTROLLING HAPTIC DEVICES HAVING MULTIPLE OPERATIONAL MODES - A haptic device having a plurality of operational modes, including a first operational mode and a second operational mode is provided. The first operational mode is associated with a frequency range. The second operational mode is associated with a frequency range that is different from the frequency range of the first operational mode. A controller is coupled to the haptic device, and is configured to send the haptic device a plurality of control schemes. Each control scheme is uniquely associated with an operational mode from the plurality of operational modes. | 08-22-2013 |
20130207917 | HIGH DEFINITION HAPTIC EFFECTS GENERATION USING PRIMITIVES - A haptically enabled system receives a haptic effect primitive comprising a plurality of input parameters and receives an input from a sensor. The system generates a haptic effect signal from the haptic effect primitive, the haptic effect signal comprising a plurality of output parameters where at least one of the output parameters is varied based on the sensor input. The system then applies the haptic effect signal to an actuator. | 08-15-2013 |
20130207904 | INTERACTIVITY MODEL FOR SHARED FEEDBACK ON MOBILE DEVICES - A system that produces a dynamic haptic effect and generates a drive signal that includes a gesture signal and a real or virtual device sensor signal. The haptic effect is modified dynamically based on both the gesture signal and the real or virtual device sensor signal such as from an accelerometer or gyroscope, or by a signal created from processing data such as still images, video or sound. The haptic effect may optionally be modified dynamically by using the gesture signal and the real or virtual device sensor signal and a physical model, or may optionally be applied concurrently to multiple devices which are connected via a communication link. The haptic effect may optionally be encoded into a data file on a first device. The data file is then communicated to a second device and the haptic effect is read from the data file and applied to the second device. | 08-15-2013 |
20130201141 | Systems and Methods For Shifting Haptic Feedback Function Between Passive And Active Modes - Systems and methods for shifting haptic feedback function between passive and active modes are disclosed. For example, one disclosed method includes receiving a first signal from a sensor, the first signal associated with a mode of interaction with a graphical user interface; receiving a second signal associated with an interaction with the graphical user interface; determining a haptic feedback effect based at least in part on the mode of interaction with the graphical user interface and the interaction with the graphical user interface; and generating a haptic signal configured to output the haptic feedback effect. | 08-08-2013 |
20130201115 | METHOD AND APPARATUS FOR HAPTIC FLEX GESTURING - An electronic interactive device having a user interface with a flexible surface, a sensor configured to sense a flex gesture applied to the flexible surface, a haptic device configured to generate a haptic effect in response to the flex gesture, and a controller in signal communication with the sensor and the haptic device. The controller is configured to trigger the haptic device to provide haptic confirmation of the flex gesture and to trigger an application action associated with the flex gesture. | 08-08-2013 |
20130194219 | Systems and Methods for Providing Haptic Feedback At Multiple Resonance Frequencies - Systems and methods for providing haptic feedback at multiple resonance frequencies are disclosed. For example, one disclosed apparatus includes a resonator with a base and a plurality of projections, a first projection of the plurality of projections having a first resonance frequency and a second projection of the plurality of projections having a second resonance frequency, and a piezoelectric actuator coupled to the resonator and operable to output a haptic feedback effect at the first resonance frequency and at the second resonance frequency. | 08-01-2013 |
20130194084 | ECCENTRIC ROTATING MASS ACTUATOR OPTIMIZATION FOR HAPTIC EFFECTS - A system that generates a haptic effect using an Eccentric Rotating Mass (“ERM”) actuator determines a back electromotive force (“EMF”) of the ERM actuator and receives a haptic effect signal comprising one or more parameters, where one of the parameters is a voltage amplitude level as a function of time. The system varies the voltage amplitude level based at least on the back EMF, and applies the varied haptic effect signal to the ERM actuator. | 08-01-2013 |
20130162579 | HAPTIC FEEDBACK USING COMPOSITE PIEZOELECTRIC ACTUATOR - An input/output device includes a touch sensitive layer configured to sense if an object touches the touch sensitive layer and to sense where the touch sensitive layer is contacted, a first electrode layer and second electrode layer, at least a portion of one of the first electrode layer and second electrode layer connected to at least a portion of the touch sensitive layer, and a composite piezoelectric layer connected between the first electrode layer and second electrode layer. The composite piezoelectric layer has a plurality of piezoelectric rods arranged in a polymer matrix. The polymer matrix provides the composite piezoelectric layer with a predetermined property. A drive circuit is configured to apply an alternating voltage to the first electrode layer and second electrode layer in response to the sensed object. | 06-27-2013 |
20130155020 | SYSTEM AND METHOD FOR PROVIDING HAPTIC FEEDBACK FROM HAPTIC TEXTILE - A system includes a haptic textile comprising a plurality of haptic threads configured to provide haptic feedback, and an ancillary electronic device configured to transfer data to or from the haptic textile. | 06-20-2013 |
20130154813 | Virtual Simulator Having an Eddy Current Brake for Providing Haptic Feedback - A virtual simulator includes a movable user object, an eddy current brake actuator, and a controller. The eddy current brake actuator includes an elongated conductor that is slidingly positioned within at least one magnet. The elongated conductor is coupled to the user object and movement of the user object causes the conductor to move through the at least one magnet which imparts a transient drag force on the conductor. The controller is electrically coupled to the user interface and to the at least one magnet. The controller monitors the velocity of the user object and controls a magnetic field of the at least one magnet to vary the drag force on the conductor in order to provide haptic feedback to a user that relates to force applied to the user object. The virtual simulator may include a display and be configured to perform a medical simulation procedure. | 06-20-2013 |
20130131851 | SYSTEM AND METHOD FOR AUTOMATICALLY PRODUCING HAPTIC EVENTS FROM A DIGITAL AUDIO SIGNAL - In an embodiment, a system and method for automatically converting a plurality of events in a plurality of channels in a structured representation sequence into haptic events. The method comprises calculating an event score for each event of the sequence in one or more channels. The method also comprises calculating a cumulative score based on the event scores in the one or more channels. The method includes selectively designating haptic events to the events based on the event scores in one or more selected channels, wherein the haptic events are output by a haptic actuator. | 05-23-2013 |
20130127607 | PIEZOELECTRIC ACTUATOR FOR HAPTIC DEVICE - A haptic device includes a flexible holder; an elongated piezo bender supported at one end thereof by the holder; a mass supported by the elongated piezo bender and positioned at an end of the elongated piezo bender opposite the end supported by the holder; and an electrical driving signal generator configured to generate a signal to create a vibration in the elongated piezo bender. | 05-23-2013 |
20130120153 | Apparatus for Providing Condition-Based Vibrotactile Feedback - Systems and methods for monitoring motion parameters of an object are described in the present disclosure. In an embodiment, a sensor, coupled to a housing, senses motion associated with the housing and provides a sensor output based on the sensed motion. A processing device receives the sensor output, accumulates counts associated with the sensor output, and provides an output once a threshold associated with the accumulated counts is reached. A vibrotactile device, that receives the output from the processing device, provides a haptic output in response to the output from the processing device. | 05-16-2013 |
20130113715 | Systems and Methods for Multi-Pressure Interaction on Touch-Sensitive Surfaces - Systems and methods for multi-pressure interaction on touch-sensitive surfaces are disclosed. One disclosed embodiment of a method comprises receiving a first sensor signal from a touch-sensitive input device in response to a first contact of a first object on the touch-sensitive input device, the first sensor signal comprising a first location and a first pressure of the first contact, receiving a second sensor signal from the touch-sensitive input device in response to a second contact of a second object on the touch-sensitive input device substantially simultaneously with the first contact, the second sensor signal comprising a second location of the second contact and a second pressure of the second contact, generating a signal based at least in part on the first sensor signal and the second sensor signal, the signal configured to cause a haptic effect, and outputting the signal. | 05-09-2013 |
20130106691 | HAPTIC FEEDBACK SENSATIONS BASED ON AUDIO OUTPUT FROM COMPUTER DEVICES | 05-02-2013 |
20130104040 | HAPTICALLY ENHANCED INTERACTIVITY WITH INTERACTIVE CONTENT - Interactive content may be presented to a user that is manipulating a peripheral. One or more state parameters that are related to the position of the peripheral may be determined. The peripheral may be identified from a plurality of possible peripherals. The interactive content may be adjusted based at least in part on the one or more position parameters and/or the identification of the peripheral. Haptic feedback to be provided to the user may be determined based at least in part on the one or more position parameters and/or the identification of the peripheral. | 04-25-2013 |
20130088340 | Systems And Methods For Haptic Confirmation Of Commands - Systems and methods for haptic confirmation of commands are disclosed. For example, one system includes a microphone; a housing configured to be contacted by a user, and an actuator in communication with the housing, the actuator configured to output a haptic effect to the housing. The system also includes a processor in communication with the microphone and the actuator, the processor configured to receive speech information from the microphone; recognize the speech information and determine a command associated with the speech information. If the speech information is recognized and the command is determined, the processor is configured to generate an actuator signal configured to cause the actuator to output a haptic effect, and transmit the actuator signal to the actuator. Otherwise, the processor is configured generate a second actuator signal configured to cause the actuator to output a second haptic effect; and transmit the second actuator signal to the actuator. | 04-11-2013 |
20130057509 | HAPTIC OUTPUT DEVICE AND METHOD OF GENERATING A HAPTIC EFFECT IN A HAPTIC OUTPUT DEVICE - A haptic output device includes a touch surface, a sensor configured to sense an input at the touch surface, and a controller configured to read the sensor, identify a location of the input, switch from a read mode to a write mode, and write a voltage based on the location of the input to generate an electrostatic output. | 03-07-2013 |
20130038431 | Control Wheel With Haptic Feedback - A control wheel for controlling at least one function of a system by a user includes a moveable engagement wheel for engagement by the user and an actuator coupled to the engagement wheel for providing force or haptic feedback to the engagement wheel in response to movement of the engagement wheel. A sensor for sensing movement of the engagement wheel is provided and a control system is coupled to the sensor for receiving information about positioning and movement of the engagement wheel, and is also coupled to the actuator for controlling force to the engagement wheel. The control system also provides control of the at least one function of the system. | 02-14-2013 |
20130027324 | Method And Apparatus For Providing Tactile Sensations - Systems and methods for providing tactile sensations are disclosed. For example, one disclosed method includes the steps of outputting a display signal configured to display a graphical object on a touch-sensitive input device; receiving a sensor signal from the touch-sensitive input device, the sensor signal indicating an object contacting the touch-sensitive input device; determining an interaction between the object contacting the touch-sensitive input device and the graphical object; and generating an actuator signal based at least in part on the interaction. | 01-31-2013 |
20130023917 | Surgical Tool Having A Programmable Rotary Module For Providing Haptic Feedback - A surgical tool such as a grasper or a pair of surgical scissors includes a hinge portion that spans between a handle proximal portion and a distal working portion to communicate mechanical actions of the handle proximal portion to the distal working portion. A programmable rotary module is coupled to the hinge portion and includes a sensor, an actuator, and a controller. The sensor, actuator, and controller may be enclosed in a common housing. The sensor measures rotation of the distal working portion and the actuator generates haptic effects to the proximal handle portion. A controller is electrically connected to the sensor and to the actuator. The controller receives the rotation measurements from the sensor and, based upon the rotation measurements, outputs a control signal to the actuator relating to the generation of haptic effects. The haptic effects may include force sensations such as detents and barriers. | 01-24-2013 |
20120326977 | Hybrid Control Of Haptic Feedback For Host Computer And Interface Device - A hybrid haptic feedback system in which a host computer and haptic feedback device share processing loads to various degrees in the output of haptic sensations, and features for efficient output of haptic sensations in such a system. A haptic feedback interface device in communication with a host computer includes a device microcontroller outputting force values to the actuator to control output forces. In various embodiments, the microcontroller can determine force values for one type of force effect while receiving force values computed by the host computer for a different type of force effect. For example, the microcontroller can determine closed loop effect values and receive computed open loop effect values from the host; or the microcontroller can determine high frequency open loop effect values and receive low frequency open loop effect values from the host. Various features allow the host to efficiently stream computed force values to the device. | 12-27-2012 |
20120319938 | HAPTIC THEME FRAMEWORK - A haptic theme system is provided that can create a haptic theme, where a haptic theme is an installable package that includes one or more haptic effects, and a mapping of the one or more haptic effects to one or more user interface (“UI”) events of a device. The haptic theme can be installed on the device, and the device can then dynamically load and play a haptic theme in real-time. The haptic theme system can display one or more haptic themes within a user interface. Upon receiving a selection, the haptic theme system can generate haptic feedback based on the haptic effect that is mapped to a received user interface event within the mapping. | 12-20-2012 |
20120299857 | Haptic Feedback for Button and Scrolling Action Simulation in Touch Input Devices - A planar touch control is used to provide input to a computer and haptic feedback is provided thereto. A touch control includes a touch input device with a planar touch surface that inputs a position signal to a processor associated with the computer based on a location of user implemented contact on the touch surface. The computer can position or modify a cursor or image in a displayed graphical environment based at least in part on the position signal, or perform a different function. At least one actuator is also coupled to the touch input device and outputs a force to provide a haptic sensation to the user via the touch surface. | 11-29-2012 |
20120268412 | ELECTRO-VIBROTACTILE DISPLAY - A system for generating a haptic effect with an electrostatic device, alone or in combination with actuators or other devices configured to generate a haptic effect. The system may generate the haptic effect to simulate a coefficient of friction or texture on the surface of a user interface, such as a display screen or touchpad. The simulated coefficient of friction may be adjusted to convey other properties on the user interface surface. The system may also include sensors that measure the simulated coefficient of friction and the impedance at the surface. | 10-25-2012 |
20120249464 | SYSTEM AND METHOD FOR ORDERING HAPTIC EFFECTS - A signal associated with multiple haptic effects is received, each haptic effect from the multiple haptic effects being associated with a time slot from multiple time slots. Each haptic effect from the multiple haptic effects is associated with an effect slot from multiple effect slots at least partially based on the time slot associated with that haptic effect. An output signal is sent for each effect slot from the multiple effect slots, when the associated haptic effect is scheduled for its time slot. | 10-04-2012 |
20120235942 | HAPTIC INTERFACE FOR TOUCH SCREEN EMBODIMENTS - A haptic feedback touch control used to provide input to a computer. A touch input device includes a planar touch surface that provides position information to a computer based on a location of user contact. The computer can position a cursor in a displayed graphical environment based at least in part on the position information, or perform a different function. At least one actuator is also coupled to the touch input device and outputs a force to provide a haptic sensation to the user. The actuator can move the touchpad laterally, or a separate surface member can be actuated. A flat E-core actuator, piezoelectric actuator, or other types of actuators can be used to provide forces. The touch input device can include multiple different regions to control different computer functions. | 09-20-2012 |
20120229402 | Multiple Actuation Handheld Device - A device includes a housing, a processor that is coupled to the housing, the processor is configured to process a software program stored in a memory. A touch screen is coupled to the housing and configured to display graphical objects, wherein a sensor signal associated with a user's interaction with the touch screen is provided to the processor. A first actuator is coupled to the touch screen and positioned within the housing. The first actuator is configured to output a first haptic effect to the touch screen upon receiving a first activating signal from the processor. A second actuator is coupled to the housing and configured to output a second haptic effect to the housing upon receiving a second activating signal from the processor. The first activating signal is associated with a foreground event and the second activating signal is associated with a background event occurring in the software program. | 09-13-2012 |
20120229401 | SYSTEM AND METHOD FOR DISPLAY OF MULTIPLE DATA CHANNELS ON A SINGLE HAPTIC DISPLAY - A system that produces a haptic effect and generates a drive signal that includes at least two haptic effect signals each having a priority level. The haptic effect is a combination of the haptic effect signals and priority levels. The haptic effect may optionally be a combination of the two haptic effect signals if the priority levels are the same, otherwise only the haptic effect signal with the highest priority is used. The frequency of haptic notifications may also be used to generate a drive signal using foreground and background haptic effect channels depending on whether the frequency ratio exceeds a foreground haptic effect threshold. | 09-13-2012 |
20120229400 | INTERACTIVITY MODEL FOR SHARED FEEDBACK ON MOBILE DEVICES - A system that produces a dynamic haptic effect and generates a drive signal that includes a gesture signal and a real or virtual device sensor signal. The haptic effect is modified dynamically based on both the gesture signal and the real or virtual device sensor signal such as from an accelerometer or gyroscope, or by a signal created from processing data such as still images, video or sound. The haptic effect may optionally be modified dynamically by using the gesture signal and the real or virtual device sensor signal and a physical model, or may optionally be applied concurrently to multiple devices which are connected via a communication link. The haptic effect may optionally be encoded into a data file on a first device. The data file is then communicated to a second device and the haptic effect is read from the data file and applied to the second device. | 09-13-2012 |
20120223880 | METHOD AND APPARATUS FOR PRODUCING A DYNAMIC HAPTIC EFFECT - A system that produces a dynamic haptic effect and generates a drive signal that includes two or more gesture signals. The haptic effect is modified dynamically based on the gesture signals. The haptic effect may optionally be modified dynamically by using the gesture signals and two or more real or virtual device sensor signals such as from an accelerometer or gyroscope, or by signals created from processing data such as still images, video or sound. | 09-06-2012 |
20120206247 | SOUND TO HAPTIC EFFECT CONVERSION SYSTEM USING WAVEFORM - A haptic conversion system is provided that intercepts frames of audio data, such as a digital audio signal, converts the frames into a haptic signal, and plays the created haptic signal through an actuator to produce haptic effects. The haptic signal is based on a maximum value of each audio data frame, which defines a magnitude of the haptic signal. The haptic signal is applied to the actuator configured to receive the haptic signal, where the actuator utilizes the haptic signal to generate the one or more haptic effects. | 08-16-2012 |
20120206246 | SOUND TO HAPTIC EFFECT CONVERSION SYSTEM USING AMPLITUDE VALUE - A haptic conversion system is provided that intercepts frames of audio data, such as a digital audio signal, converts the frames into a haptic signal, and plays the created haptic signal through an actuator to produce haptic effects. The haptic signal is based on a maximum value of each audio data frame, which defines a magnitude of the haptic signal. The haptic signal is applied to the actuator configured to receive the haptic signal, where the actuator utilizes the haptic signal to generate the one or more haptic effects. | 08-16-2012 |
20120194472 | Systems and Methods for Adaptive Interpretation of Input From a Touch-Sensitive Input Device - Systems and methods for adaptively interpreting a user's intent based on parameters supplied by a touch-sensitive input device are described. In one of the methods described, a processor is programmed for receiving contact data from an input device; determining whether to output a haptic effect based on the contact data; and outputting the haptic effect based on the contact data. | 08-02-2012 |
20120194463 | Systems And Methods For Resonance Detection - Systems and methods for resonance detection are disclosed. For example, one method for resonance detection includes the step of transmitting an actuator signal to an actuator coupled to a surface of a device. The actuator signal is configured to cause the actuator to output a force to the surface. The method further includes the steps of receiving a response of the surface to the force; determining a resonant frequency of the surface based at least in part on the response; and outputting a signal indicative of the resonant frequency. | 08-02-2012 |
20120143182 | ELECTROSURGICAL SEALING TOOL HAVING HAPTIC FEEDBACK - A surgical tool system includes an electrosurgical tool for sealing and transecting tissue and a tactile feedback system integrated onto a handle of the tool that generates relevant feedback in at least the form of haptic effects to the user. The tactile feedback alerts the user of tissue properties, i.e., when tissue located within jaws of the tool is completely sealed, when the tissue is ready to be cut, the cutting rate or speed, the quantity of tissue located within jaws of the tool, and whether a blood vessel is fully located within jaws of tool. In addition, the tactile feedback alerts the user to the operating status of energy application during the procedure. | 06-07-2012 |
20120139844 | HAPTIC FEEDBACK ASSISTED TEXT MANIPULATION - A system with a touchscreen generates haptic effects in response to a manipulation of text displayed on the touchscreen. The system senses a touch within the text, and determines if the touch is a manipulation of the text, and determines the type of the manipulation. The system then generates a type of haptic event that is based at least in part on the type of the manipulation that was determined. | 06-07-2012 |
20120138658 | SURGICAL STAPLER HAVING HAPTIC FEEDBACK - A surgical tool system includes a surgical tool for cutting and stapling tissue and a tactile feedback system integrated onto a handle of the tool that generates relevant feedback in at least the form of haptic effects to the user. The tactile feedback alerts the user of tissue properties, i.e., the type of tissue or other structures located within the jaws of the stapler, whether the quantity or thickness of tissue located within the jaws of the stapler is appropriate for the selected stapler cartridge, whether the proper length of staples has been fired based on the length of tissue located in the jaws, whether a blood vessel is located within the jaws of the stapler, whether the stapling process has successfully sealed the tissue located within the jaws of the stapler, the position of the cutting element, and/or when the stapling procedure or firing cycle is completed. | 06-07-2012 |
20120133494 | Systems and Methods for Providing Programmable Deformable Surfaces - Programmable deformable surfaces can use smartgels that respond to external stimuli by changing in stiffness, volume, and/or transparency or color. A device can include a smartgel in one or more cells of a tactile layer, such as a layer of material positioned over a display device visible through the layer. Portions of the tactile layer can be subjected to one or more stimuli, such a change in temperature that causes areas of smartgel to deform, to provide haptic feedback. For example, wires can be embedded in the tactile layer and/or between the tactile layer and the display and by controlling current passing through the wires, portions of the tactile layer can be subjected to changes in temperature, such as to raise/lower portions of the tactile layer at a location corresponding to an object in a graphical user interface when a touch occurs at or near the location. | 05-31-2012 |
20120112999 | Force Feedback System Including Multi-Tasking Graphical Host Environment - A force feedback system provides components for use in a force feedback system including a host computer and a force feedback interface device. An architecture for a host computer allows multi-tasking application programs to interface with the force feedback device without conflicts. One embodiment of a force feedback device provides both relative position reporting and absolute position reporting to allow great flexibility. A different device embodiment provides relative position reporting device allowing maximum compatibility with existing software. Information such as ballistic parameters and screen size sent from the host to the force feedback device allow accurate mouse positions and graphical object positions to be determined in the force feedback environment. Force feedback effects and structures are further described, such as events and enclosures. | 05-10-2012 |
20120104901 | PIEZO BASED INERTIA ACTUATOR FOR HIGH DEFINITION HAPTIC FEEDBACK - A haptic device includes an elongated piezo bender supported by a first holder and a second holder. The first holder and the second holder being spaced apart from each other and located at or near opposite ends of the elongated piezo bender. A mass is supported by the elongated piezo bender and positioned in between the first holder and the second holder. The mass has a non-uniform thickness in a direction along a major axis of the elongated piezo bender. An electrical driving signal generator is configured to generate a signal to create a vibration in the elongated piezo bender. | 05-03-2012 |
20120096351 | System and Method For Providing Rotational Haptic Feedback - Systems and methods for providing haptic cues to a touch-sensitive input device having a rotary degree of freedom are described. One described method includes the steps of receiving data from at least one packet, determining navigation within at least one list based at least in part on the data, and determining whether to output a haptic effect, the haptic effect based at least in part on the data. | 04-19-2012 |
20120084467 | HAPTICALLY ENHANCED INTERACTIVITY WITH INTERACTIVE CONTENT - Interactive content may be presented to a user that is manipulating a peripheral. One or more state parameters that are related to the position of the peripheral may be determined. The peripheral may be identified from a plurality of possible peripherals. The interactive content may be adjusted based at least in part on the one or more position parameters and/or, the identification of the peripheral. Haptic feedback to be provided to the user may be determined based at least in part on the one or more position parameters and/or the identification of the peripheral. | 04-05-2012 |
20120081327 | MULTI-TOUCH DEVICE HAVING DYNAMIC HAPTIC EFFECTS - A system for generating haptic effects senses at least two generally simultaneous touches on a touchscreen and, in response, generates a dynamic haptic effect. | 04-05-2012 |
20120081326 | MULTI-TOUCH DEVICE HAVING DYNAMIC HAPTIC EFFECTS - A system for generating haptic effects senses at least two generally simultaneous touches on a touchscreen and, in response, generates a dynamic haptic effect. | 04-05-2012 |
20120081276 | PHYSICAL MODEL BASED GESTURE RECOGNITION - A gesture recognition system for recognizing gestures on a mobile device receives sensor data in response to a sensed gesture on the mobile device. The sensor data includes a force or impulse. The force or impulse is applied to the simulated physical object and the state of the simulated physical object is then observed. Input is provided to an application based at least on the observed state of the simulated physical object. | 04-05-2012 |
20120056825 | Systems And Methods For Pre-Touch And True Touch - Systems and methods for pre-touch and true touch are disclosed. For example, in one described system for pre-touch and true touch includes a touch-sensitive interface configured to detect a user interaction and transmit a first interface signal based at least in part on the user interaction. The system also includes a processor in communication with the touch-sensitive interface and configured to receive the first interface signal and determine a haptic effect based at least in part on the first interface signal. The processor is further configured to preload a haptic signal associated with the haptic effect. The system also includes a cache in communication with the processor and configured to store the preloaded haptic signal for a time period and then transmit the haptic signal and a haptic effect generator in communication with the cache and configured to receive the haptic signal from the cache and, in response, output a haptic effect based at least in part on the haptic signal. | 03-08-2012 |
20120056733 | Systems And Methods For Haptic Information Preview - Systems and methods for haptic information preview are disclosed. For example, in one embodiment a method for haptic information preview includes: receiving a message including data; receiving a data quality metric associated with the data; determining a quality of the data based at least in part on the data quality metric; determining a haptic effect based at least in part on the data quality; and transmitting a signal corresponding to the haptic effect to a haptic effect generator configured to output the haptic effect. Another embodiment includes a computer-readable medium comprising processor-executable code for executing such a method. | 03-08-2012 |
20120041436 | Electrosurgical Tool Having Tactile Feedback - A surgical tool system including a laparoscopic surgical tool for heating, ablating, sealing, and/or dissecting tissue, a control system for monitoring impedance of the tissue during treatment thereof, and a tactile feedback system integrated onto a handle of the tool that generates relevant feedback from the control system in at least the form of haptic effects to the user. The tactile feedback alerts the tool user of changes in tissue properties, i.e., when the impedance of the tissue indicates that the treatment procedure is complete. In addition, the tactile feedback provided may supply information relating to the operating status of the control system to the user. | 02-16-2012 |
20120038582 | Systems and Methods for Providing Haptic Feedback to Touch-Sensitive Input Devices - Systems and methods for providing haptic feedback to touch-sensitive input devices are disclosed. For example, one disclosed system includes an input device having a housing having an exterior surface; a touch-sensitive surface configured to transmit a contact signal indicating a contact with the touch-sensitive surface; a sensor disposed within the housing, the sensor configured to sense movement of the input device and to transmit a sensor signal indicating movement of the input device; an actuator disposed within the housing, the actuator configured to output a haptic effect based on an actuator signal, the actuator signal based at least in part on the contact signal. | 02-16-2012 |
20120010506 | MULTIMODAL LAPAROSCOPIC ULTRASOUND DEVICE WITH FEEDBACK SYSTEM - A laparoscopic tool or minimally invasive device is augmented with a forward looking ultrasonic transducer that is processed to extract information regarding subsurface structures and to generate haptic, audio, or visual effects to provide relevant feedback to a user that is operating the tool. In one embodiment, the ultrasonic transducer detects the distance or depth of subsurface structures such as a luminal hollow structure or a tumor mass. In another embodiment, the ultrasonic transducer extracts tissue identification information, tissue stiffness, velocity, or other pertinent information regarding subsurface structures that is subsequently communicated to the operator as haptic, audio, and/or visual feedback. The ultrasonic transducer may be operable in one or more modes, including A-mode or Doppler mode. | 01-12-2012 |
20120001749 | Method and Apparatus for Generating Mood-Based Haptic Feedback - A method and apparatus of generating mood-based haptic feedback are disclosed. A haptic system includes a sensing device, a digital processing unit, and a haptic generator. The sensing device, in one embodiment, is configured to detect user's modalities in accordance with mood information collected by one or more sensors and capable of issuing a sensing signal in response to the user's modalities. The digital processing unit is capable of identifying a user's condition in accordance with the sensing signal and providing a haptic signal in response to the user's condition. The user's condition, in one aspect, indicates user's mood and/or user's psychological conditions. The haptic generator generates haptic feedback in accordance with the haptic signal. | 01-05-2012 |
20110310043 | HAPTIC FEEDBACK SYSTEM WITH STORED EFFECTS - A haptic feedback system that includes a controller, a memory coupled to the controller, an actuator drive circuit coupled to the controller, and an actuator coupled to the actuator drive circuit. The memory stores at least one haptic effect that is executed by the controller in order to create a haptic effect. | 12-22-2011 |
20110264491 | Systems and Methods for Providing Haptic Effects - Systems and methods for providing haptic effects are disclosed. For example, one disclosed system includes a computer-readable medium having program code, the program code including program code defining a haptic widget. The haptic widget includes program code defining a haptic effect; program code defining an interface for the haptic widget; program code for receiving, via the interface, a configuration of at least one parameter of the haptic widget; program code for receiving, via the interface, a play command for the haptic effect; and program code for outputting, via the interface, a signal configured to cause the haptic effect, the signal based on the at least one parameter and in response to the play command. | 10-27-2011 |
20110261021 | TRANSPARENT COMPOSITE PIEZOELECTRIC COMBINED TOUCH SENSOR AND HAPTIC ACTUATOR - A haptic device includes a substantially transparent composite piezoelectric cell configured to measure a deformation of a surface of the cell and to provide a haptic feedback effect as a result of the deformation. | 10-27-2011 |
20110244963 | SYSTEM AND METHOD FOR PROVIDING HAPTIC STIMULUS BASED ON POSITION - Haptic stimulus associated with other sensory content is generated for conveyance to one or more users with the other sensory content. This may enhance the experience provided to the one or more users by the content. The sensory content may include video content, video game content, audio content, and/or other content. The haptic stimulus may be varied based on position information. Such position information may include information related to the position of the one or more users, the position of a controller (e.g., a game controller), the position of an actuator delivering the haptic stimulus, and/or other position information. | 10-06-2011 |
20110241852 | Hybrid Control Of Haptic Feedback For Host Computer And Interface Device - A hybrid haptic feedback system in which a host computer and haptic feedback device share processing loads to various degrees in the output of haptic sensations, and features for efficient output of haptic sensations in such a system. A haptic feedback interface device in communication with a host computer includes a device microcontroller outputting force values to the actuator to control output forces. In various embodiments, the microcontroller can determine force values for one type of force effect while receiving force values computed by the host computer for a different type of force effect. For example, the microcontroller can determine closed loop effect values and receive computed open loop effect values from the host; or the microcontroller can determine high frequency open loop effect values and receive low frequency open loop effect values from the host. Various features allow the host to efficiently stream computed force values to the device. | 10-06-2011 |
20110227849 | Grommet Suspension Component and System - A compliant grommet-based suspension system is disclosed for use in mounting an electronic touch screen or touch surface. The grommets may be designed to provide more or less movement in any direction, i.e., along the x-axis, the y-axis, and/or the z-axis, depending on the suspension application in which they are implemented. | 09-22-2011 |
20110215913 | SYSTEM AND METHOD FOR AUTOMATICALLY PRODUCING HAPTIC EVENTS FROM A DIGITAL AUDIO FILE - In an embodiment, a system and method for automatically converting a plurality of events in a plurality of channels in a structured representation sequence into haptic events. The method comprises calculating an event score for each event of the sequence in one or more channels. The method also comprises calculating a cumulative score based on the event scores in the one or more channels. The method includes selectively designating haptic events to the events based on the event scores in one or more selected channels, wherein the haptic events are output by a haptic actuator. This may be done by the system by calculating properties of the sound or by taking already existing values associated with those properties to efficiently produce haptic events. | 09-08-2011 |
20110202155 | System and Method for Automatically Producing Haptic Events From a Digital Audio Signal - The system and method described is directed to receiving digital audio files and automatically converting the received files into haptic events. In an embodiment, the received files are of sampled digital or digitized analog audio files. The system and method separates the audio signal into a plurality of sub-band signals and segments the sub-band signals into a plurality of events. The system and method then assigns haptic effects to the events to produce haptic event signals which are to be output by an actuator. The system and method utilizes clipping and minimum time separation parameters along with physical parameters of the actuator and frequency characteristics in the audio signal to analyze and provide discrete haptic events which correspond with the audio. | 08-18-2011 |
20110193824 | Systems And Methods For Haptic Feedback Using Laterally Driven Piezoelectric Actuators - Systems and methods for haptic feedback using laterally driven piezoelectric actuators are disclosed. For example, one described apparatus for haptic feedback using laterally driven piezoelectric actuators includes: a base; a touch-sensitive interface comprising an interface surface, the touch-sensitive interface affixed to the base and configured to move in a direction lateral to the interface surface; and a piezoelectric actuator mounted to the base and to the touch-sensitive interface and configured to receive a haptic signal and output a force in a direction lateral to the interface surface. | 08-11-2011 |
20110181403 | GENERATION OF CONSISTENT HAPTIC EFFECTS - A system generates a consistent haptic effect in a handset that includes an actuator. The system determines performance data for the actuator, and generates haptic effect controller parameters from the performance data by comparing the performance data with reference performance data derived from a reference actuator. The system then stores the haptic effect controller parameters on the handset. | 07-28-2011 |
20110148794 | Haptic Interface for Palpation Simulation - A method for interfacing a user with a computer running an application program, the computer generating a graphical environment comprising a graphical object and a graphical representation of at least a portion of a living body, comprises providing an object in communication with the computer, controlling the graphical object in relation to manipulation of at least a portion of the object by the user, and outputting a haptic sensation to the user when the graphical object interacts with a region within the graphical representation to provide the user with haptic feedback related to a simulated palpation of the region. | 06-23-2011 |
20110138277 | HAPTIC EFFECTS WITH PROXIMITY SENSING - A method of generating haptic effects on a device includes detecting the presence of an object near an input area of the device and generating a haptic effect on the device in response to the presence detection. | 06-09-2011 |
20110128133 | ACTUATING A TACTILE SENSATION IN RESPONSE TO A SENSED EVENT - Systems and methods for actuating a tactile stimulation in response to detecting a specific event associated with exposure to a particular environmental or physiological condition are described herein. A tactile stimulation device, according to one of several implementations, comprises a sensing layer, an actuating layer, and an adhesive layer. The sensing layer, which is sensitive to exposure to a particular condition, is configured to sense when a specific event associated with exposure to the particular condition occurs. The actuating layer is configured to provide a tactile stimulation to a human subject when the specific event occurs. The adhesive layer is configured to affix the sensing layer and actuating layer with respect to a surface portion of the skin of the human subject such that the human subject can sense the tactile stimulation provided by the actuating layer. The sensing layer, actuating layer, and adhesive layer can be bonded together to form a relatively flat structure. | 06-02-2011 |
20110128132 | System and method for automatically producing haptic events from a digital audio signal - In an embodiment, a system and method for automatically converting a plurality of events in a plurality of channels in a structured representation sequence into haptic events. The method comprises calculating an event score for each event of the sequence in one or more channels. The method also comprises calculating a cumulative score based on the event scores in the one or more channels. The method includes selectively designating haptic events to the events based on the event scores in one or more selected channels, wherein the haptic events are output by a haptic actuator. | 06-02-2011 |
20110118779 | Surgical Instrument Providing Haptic Feedback - A surgical instrument is disclosed having a distal end connected to a handle via an elongated mechanical linkage. The handle includes a first grip portion and a second grip portion pivotably coupled such that the distal end is controllable by manipulation of the handle. At least one sensor is coupled to the distal end of the surgical instrument, wherein the sensor detects a condition at the distal end. An actuator is coupled to one of the first and second grip portions is configured to provide haptic effects to the one of the first and second grip portions. A controller is electrically coupled to the sensor and electrically coupled to the actuator, wherein the controller controls operation of the actuator such that the haptic effects are feedback relating to the sensed condition. | 05-19-2011 |
20110115754 | Systems and Methods For A Friction Rotary Device For Haptic Feedback - Systems and methods for a friction rotary device for haptic feedback are disclosed. For example, one disclosed system includes: a haptic device including: a passive actuator including: a rotatable plate; a fixed plate configured to apply friction to the rotatable plate; a piezoelectric material mounted to one of the fixed plate or the rotatable plate, the piezoelectric material configured to receive a first haptic signal and vibrate; and a rotatable object configured to be connected to the rotatable plate. | 05-19-2011 |
20110115709 | Systems And Methods For Increasing Haptic Bandwidth In An Electronic Device - Systems and methods for increasing the haptic bandwidth of an electronic device are disclosed. One disclosed embodiment of a system is an apparatus having a first actuator; a second actuator; and a processor coupled to the first and second actuators, the processor configured to apply a first command signal to the first actuator to output a first haptic effect from a first start time to a first stop time, the processor configured to apply a second command signal to the second actuator to output a second haptic effect from a second start time to a second stop time. | 05-19-2011 |
20110109423 | Systems and Methods for Minimal Haptic Implementation - Systems and methods for minimal haptic implementation are disclosed. For example, one disclosed system includes: an actuator; and a control-circuit in communication with the actuator, the control circuit configured to: receive a 2-bit signal including a first bit indicating a power state and a second bit indicating an actuation state; and transmit a power signal based on the two bit signal, the power signal configured to cause the actuator to operate at the actuation state at a fixed power. | 05-12-2011 |
20110102462 | Systems and Methods For Compensating For Visual Distortion Caused By Surface Features On A Display - Systems and methods for compensating for visual distortion caused by surface features on a display are disclosed. For example, one disclosed system includes: a display including one ore more surface features; a processor configured to: receive a display signal including graphical data; determine a location of the surface feature; transform the display signal based at least in part on the location of the surface feature; and cause the transformed display signal to be displayed. | 05-05-2011 |
20110102340 | Method And Apparatus For Providing Tactile Sensations - Products and processes for providing tactile sensations to input devices or electronic devices are provided. Input devices include mechanical input devices (such as, for example, mechanical switches) and non-mechanical input devices (such as, for example, touchpads). Tactile feedback is provided by using an actuator or other means in communication with the input device or electronic device. A controller may be employed to receive signals from the input devices and control the actuator. Tactile feedback to an input device or electronic device may be provided in response to one or more events or situations. Such an event or situation may be any one designated. Examples of such events and situations include the level of pressure placed on an input device; the availability or lack of availability of a function associated with an input device; and the function, menu, or mode of operation associated with an input device's activation. A variety of feedback types and combinations may be selected. | 05-05-2011 |
20110102162 | HAPTIC FEEDBACK GENERATION BASED ON RESONANT FREQUENCY - A system that generates a haptic effect generates a drive cycle signal that includes a drive period and a monitoring period. The drive period includes a plurality of drive pulses that are based on the haptic effect. The system applies the drive pulses to a resonant actuator during the drive period and receives a signal from the resonant actuator that corresponds to the position of a mass in the actuator during the monitoring period. | 05-05-2011 |
20110102161 | Systems And Methods For Haptic Confirmation Of Commands - Systems and methods for haptic confirmation of commands are disclosed. For example a system for generating haptic effects to confirm receipt of a voice command includes a microphone; a housing configured to be contacted by a user, and an actuator in communication with the housing, the actuator configured to output a haptic effect to the housing. The system also includes a processor in communication with the microphone and the actuator, the processor configured to receive speech information from the microphone; recognize the speech information and determine a command associated with the speech information. If the speech information is recognized and the command is determined, the processor is configured to generate a first actuator signal configured to cause the actuator to output a first haptic effect, and transmit the first actuator signal to the actuator. Otherwise, the processor is configured generate a second actuator signal configured to cause the actuator to output a second haptic effect; and transmit the second actuator signal to the actuator. | 05-05-2011 |
20110102160 | Systems And Methods For Haptic Augmentation Of Voice-To-Text Conversion - Systems and methods for providing voice-to-text haptic augmentation in a user interface are disclosed. For example, one disclosed system for converting audible speech information to a haptic effect includes a microphone and a processor in communication with the microphone, the processor configured to receive an audio signal associated with a voice from the microphone, determine a characteristic of the audio signal, and generate an actuator signal based at least in part on the characteristic, the actuator signal configured to cause an actuator to output a haptic effect. | 05-05-2011 |
20110095994 | Systems And Methods For Using Static Surface Features On A Touch-Screen For Tactile Feedback - Systems and methods for using static surface features on a touch-screen for tactile feedback are disclosed. For example, one disclosed system includes a processor configured to transmit a display signal, the display signal comprising a plurality of display elements; and a display configured to output a visual representation of the display signal, the display including: touch-sensitive input device; and one or more static surface features covering at least a portion of the display. | 04-28-2011 |
20110093100 | Systems and Methods for Output of Content Based on Sensing an Environmental Factor - An audio playback device may be capable of operating in a “shuffle” mode in which audio or other content items are randomly selected. Environmental factor(s) such as ambient conditions or forces applied to the device or a peripheral can be used to identify one or more subsets of available content items from which content items are selected to thereby provide an “ambient shuffle” mode. By including or excluding items from the subset, the randomly-selected content items may more likely match the conditions under which the playback device is operating and/or match input provided by a user via tapping on, shaking, or otherwise applying force to the device or components in communication with the device. | 04-21-2011 |
20110090070 | Systems And Methods For Providing Haptic Feedback At Multiple Resonance Frequencies - Systems and methods for providing haptic feedback at multiple resonance frequencies are disclosed. For example, one disclosed apparatus includes a resonator with a base and a plurality of projections, a first projection of the plurality of projections having a first resonance frequency and a second projection of the plurality of projections having a second resonance frequency, and a piezoelectric actuator coupled to the resonator and operable to output a haptic feedback effect at the first resonance frequency and at the second resonance frequency. | 04-21-2011 |
20110046659 | Minimally Invasive Surgical Tools With Haptic Feedback - A minimally invasive surgical tool includes a sensor that generates a signal in response to an interaction with the tool. The tool further includes a haptic feedback system that generates a haptic effect in response to the signal. | 02-24-2011 |
20110043474 | Method And Apparatus For Providing Haptic Effects To A Touch Panel - A touch panel assembly includes a touch-sensitive panel oriented along a plane. An actuator includes a frame having a first portion and a second portion at least partially oriented parallel to the plane. The first portion and the second portion are coupled together with a biasing element. A first magnetic device is coupled to the first portion. A second magnetic device is coupled to the second portion and positioned adjacent to the first magnetic device. The first magnetic device configured to move the first portion in a first direction parallel to the plane when energized by a current to cause a haptic effect to be felt on the touch sensitive panel. The biasing element applies a biasing force which causes the first portion to move in a second direction opposite to the first direction. | 02-24-2011 |