| Patent application number | Description | Published |
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| 20090189746 | 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. | 07-30-2009 |
| 20090202972 | Bi-Directional Communication of Simulation Information - Systems, methods, and associated software for providing a virtual reality experience for a user, particularly a virtual training experience, are described herein. A server associated with a virtual training system according to one embodiment, among others, comprises memory and a network interface. The memory is configured to store virtual training software and a simulation variations database. The virtual training software comprises training simulation logic adapted to provide a virtual training experience. The simulation variations database comprises data associated with preset variations to the virtual training experience. The network interface is configured to communicate with a remote client device within a network and is further configured to receive a first set of information from the client device associated with the virtual training software. Also, the network interface is further configured to transmit a second set of information to the client device associated with the virtual training software. | 08-13-2009 |
| 20090207129 | Providing Haptic Feedback To User-Operated Switch - Systems and methods are disclosed herein for generating haptic feedback, tactile feedback, or force feedback to an electromechanical switch that is toggled by a user. In one specific example among many possible embodiments, a switch feedback system is disclosed. The switch feedback system comprises a user-operated switch, which is operable to toggle between one of an open state and a closed state. The switch feedback system also includes electrical circuitry in electrical communication with the user-operated switch, wherein the electrical circuitry is configured to react to a change of state of the user-operated switch. The system also includes a haptic feedback device in electrical communication with the user-operated switch and in physical communication with the user-operated switch. The haptic feedback device is configured to detect the change of state of the user-operated switch and provide a haptic feedback to the user-operated switch in response to the detected change of state. | 08-20-2009 |
| 20090231276 | 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. | 09-17-2009 |
| 20090263775 | Systems and Methods for Surgical Simulation and Training - A surgical simulation and training platform can mimic human physiology to the extent possible, while enabling dynamic pathology and complication introduction to facilitate training and evaluation needs. The platform can include a subject body having an outer surface and defining at least one cavity, with a capture mechanism configured to receive an instrument and mounted to a robotic positioning assembly within the cavity. The system can further include one or more sensors configured to determine the position of at least one instrument or provide data for determining the position, and a processor. The processor can receive data indicating a position of at least one instrument relative to the cavity in a subject body and provide a command to the robotic positioning assembly to adjust the position of the capture mechanism to encounter and engage the instrument during surgical simulation. | 10-22-2009 |
| 20090305744 | Developing A Notification Framework For Electronic Device Events - Systems and methods are described herein for developing a notification framework for presenting notification information to a user of an electronic device. One embodiment of a method, among others, includes receiving input from physical sensors located in proximity to an electronic device and receiving input from one or more other electronic devices in proximity to the electronic device. The method further comprises assessing a context of the electronic device from the received input. A notification framework is then determined from the assessed context. The method also includes notifying a user of the electronic device of a detected event associated with the electronic device. Notifying the user includes notifying the user within the notification framework. | 12-10-2009 |
| 20100016855 | Modular Tool With Signal Feedback - Implementations of modular tools and methods of operating modular tools are described in the present disclosure. A modular tool according to one of several possible embodiments comprises a handle portion and a distal portion. The handle portion is configured to be manipulated by a user. The distal portion is configured to be attached to the handle portion, but is further configured to be removable from the handle portion by the user. Manipulation of the handle portion causes movement of one or more components of the distal portion. The distal portion is further configured to sense one or more parameters and transmit the sensed parameters to the handle portion. | 01-21-2010 |
| 20100160041 | INTERACTIVE PAINTING GAME AND ASSOCIATED CONTROLLER - A gaming concept in which each user in a single-player or a multi-player game is enabled to create artwork or graffiti work virtually or on actual surfaces using haptic-enhanced controllers. The controllers can emulate the experience of using a marker, a paint brush, a paint spray-can or the like. The components of various controllers may be modularized for easily interchanging components to extend the art or graffiti creation experience. The real life experience of using ink or paint on a surface is simulated by haptic feedback. When a paint spray-can controller is used, the experience of paint consumption is recreated by various peripheral enhancements including audio and haptic sensations communicated to the user. | 06-24-2010 |
| 20100283727 | SYSTEM AND METHOD FOR SHAPE DEFORMATION AND FORCE DISPLAY OF DEVICES - Various systems, devices, and methods for shape deformation of a haptic deformation display device are provided. For example, the haptic deformation display device may receive an input signal when the shape of the haptic deformation display device is in a first shape configuration. In response to the input signal, the haptic deformation display device may activate an actuator of the haptic deformation display device. The actuator may move a deformation component of the haptic deformation display device. The deformation component may at least partially defining a shape of the haptic deformation display device, thereby causing the shape of the haptic deformation display device to deform into a second shape configuration different from the first shape configuration. The second shape configuration may be substantially maintained. | 11-11-2010 |
| 20100283731 | METHOD AND APPARATUS FOR PROVIDING A HAPTIC FEEDBACK SHAPE-CHANGING DISPLAY - A haptic device includes a processor, a communication module coupled to the processor for receiving a shape input, and a housing for housing the communication module and including a deformable portion. The deformable portion includes a deformation actuator, and the processor provides a signal to the deformation actuator in response to the shape input to deform the housing. The shape of other areas of the device may also change in response to the signal. The shape changes may provide haptic effects, provide information, provide ergonomic changes, provide additional functionality, etc., to a user of the device. | 11-11-2010 |
| 20110102332 | Method for Haptic Display of Data Features - A method is disclosed for transferring digital information from a first electronic device to a second electronic device. In one example, the first device is a computer having a touch screen and the second device is a personal memory device carried or worn by an individual. The method includes selecting information on the first electronic device to be transferred, which can be done by touching the touch screen and performing a predefined finger gesture on the screen. Next, communication is established between the first electronic device and the second electronic device, preferably through a wireless connection such as Bluetooth. The selected information from the first electronic device then begins to upload to the second electronic device. As the information is transferred, vibrotactile sensations are imparted to the body of an individual with the vibrotactile sensations being indicative of the upload of information. For instance, sensations might be sequentially imparted in a line along an individual's arm to convey the progress of information upload to the individual. | 05-05-2011 |
| 20110105103 | Interfacing a Mobile Device with a Computer - Systems and methods for interfacing a mobile device and a host computer are described in the present disclosure. In one embodiment, among several, an interfacing system comprises a mobile device, which has a sensor, and a host computer. The sensor of the mobile device detects gestures that are translated to cursor control commands for a display of the host computer. | 05-05-2011 |
| 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 |
| 20110140870 | Haptic Feedback Device Using Standing Waves - Haptic output devices and related systems and methods are described in the present disclosure. In various implementations, a haptic output device includes a reservoir filled with a liquid. At least one side of the reservoir includes a flexible membrane. The haptic output device also includes a first actuator in physical contact with the reservoir and configured to impart pressure waves to the liquid. The pressure waves interact with the flexible membrane to supply a haptic effect to a user. | 06-16-2011 |
