Patent application number | Description | Published |
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 |
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 |
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 |
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 |
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 |
20140253302 | Systems And Methods For Haptics In Vibrating Environments And Devices - Systems and methods for haptics in vibrating environments and devices are disclosed. For example, one described system includes: a haptic output device; a processor coupled to the haptic output device, the processor configured to: determine that a haptic effect should be generated; receive a signal associated with a parasitic vibration; determine a haptic effect based in part on the parasitic vibration; and output a haptic signal associated with the haptic effect to the haptic output device. | 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 |
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 |
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 |
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 |
20140267911 | Systems and Methods for Enhanced Television Interaction - Systems and methods for enhanced television interaction are disclosed. For example, one disclosed method includes receiving notification information, the notification information indicating an event associated with video content displayed by a television device; determining a haptic effect associated with the notification information; generating and transmitting a haptic signal to a haptic output device, the haptic signal configured to cause the haptic output device to output the haptic effect. | 09-18-2014 |
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 |
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 |
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 |
20150022466 | USABLE HIDDEN CONTROLS WITH HAPTIC FEEDBACK - A system configured to activate a hidden control includes a sensor configured to sense an input by a user. The input includes a gesture. The system includes a haptic output device configured to output a haptic feedback as the input is being sensed, and a processor configured to determine if the sensed input corresponds to a predetermined gesture associated with activation of a control, and if the sensed input corresponds to the predetermined gesture to activate the control. | 01-22-2015 |
20150042573 | Systems and Methods for Haptic Fiddling - Systems and methods for haptic fiddling are disclosed. In one embodiment, a sensor signal indicating an interaction with an electronic device is received by the electronic device. In response to receiving the sensor signal, the electronic device may output an output signal. The output signal may be output to a display, a haptic output device, an audio device, and/or another output device. The output signal can correspond to a modality. After outputting the output signal, another sensor signal indicating another interaction with the electronic device may be received by the electronic device. This interaction may be associated with the previously-received interaction. In response to receiving this interaction, the electronic device may output another output signal to the same output device(s) and/or different output device(s). The second output signal may correspond to one or more different modalities than the previous output signal. | 02-12-2015 |
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 |
20150070150 | Method and System For Providing Haptic Effects Based on Information Complementary to Multimedia Content - The present disclosure is generally directed to systems and methods for providing haptic effects based on information complementary to multimedia content. For example, one disclosed method includes the steps of receiving multimedia data comprising multimedia content and complementary data, wherein the complementary data describes the multimedia content, determining a haptic effect based at least in part on the complementary data, and outputting the haptic effect while playing the multimedia content. | 03-12-2015 |
20150070154 | METHOD AND APPARATUS OF CONVERTING CONTROL TRACKS FOR PROVIDING HAPTIC FEEDBACK - Disclosed are systems and methods for converting a control track designed for use with a number and/or type of haptic output devices to be used with other numbers and/or types of haptic output devices. For example, a computing device may convert the control track into another control track that can be applied to other types and/or numbers of haptic output devices. The converted control track may be compatible for use with a smartphone or other system that includes a different number and/or type of haptic feedback devices than the system for which the haptic track was originally designed. In this manner, the user of the smartphone or other system may experience haptic feedback using a device that is different from another haptic feedback system for which the control track was originally designed for use. The conversion may occur locally at the smartphone or other system and/or remotely at another device. | 03-12-2015 |