Patent application number | Description | Published |
20100013653 | 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. | 01-21-2010 |
20100013761 | 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. | 01-21-2010 |
20100017489 | Systems and Methods For Haptic Message Transmission - Systems and methods for haptic message transmission are disclosed. For example, one disclosed method includes the steps of receiving a sensor signal from a sensor configured to sense a physical interaction with a messaging device, determining a virtual force based at least in part on the sensor signal, and applying the virtual force to a virtual message object within a virtual message environment. | 01-21-2010 |
20100017759 | Systems and Methods For Physics-Based Tactile Messaging - Systems and methods for physics-based tactile messaging are disclosed. For example, one disclosed method includes the steps of receiving a sensor signal from a sensor configured to sense a physical interaction with a messaging device; determining an interaction between one or more virtual message objects and a virtual message environment, the interaction based at least in part on the sensor signal and a virtual physical parameter of at least one of the one or more virtual message objects; and determining a haptic effect based at least in part on the interaction. The method additionally includes the step of generating a haptic signal configured to cause an actuator to output the haptic effect. | 01-21-2010 |
20100045619 | 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. | 02-25-2010 |
20100214243 | 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. | 08-26-2010 |
20110061017 | Systems and Methods for Haptically-Enhanced Text Interfaces - When units of serialized input are analyzed by an engine or algorithm that provides a plurality of entry suggestions for competing or replacing a unit of the serialized input, one or more haptic effects can be identified and provided in conjunction with display, selection, or use of one or more of the entry suggestions to aid in the use of the engine or algorithm. The haptic effects can represent a confidence level with respect to one or more of the entry suggestions or may otherwise indicate the relative success of the engine/algorithm. For example, the serialized input may comprise characters input to a mobile or other device. The engine or algorithm may suggest words or phrases with varying degrees of confidence, with the confidence with respect to some or all of the suggestions communicated by use of haptic effects. Additional embodiments include dynamic text input interfaces, haptically-enhanced serial presentation of content, and interfaces that provide haptic effects at a first device based on remote text entry, display, reading, or other activity at a different device. | 03-10-2011 |
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 |
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 |
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 |
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 |
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 |
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 |
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 |
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 |
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 |
Patent application number | Description | Published |
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 |
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 |
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 |
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 |
Patent application number | Description | Published |
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 |
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 |
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 |
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 |