Systems and methods for facilitating secret communication between players are described. One of the methods includes receiving image data of a first player to identify one or more gestures and receiving input data indicating a response of a second player to the one or more gestures. The method further includes training a model using the image data and the input data to generate an inference of communication between the first user and the second user. The method also includes generating additional inferences of communication between the first user and the second user. The method includes generating a recommendation to the second user based on the inference of communication and the additional inferences of communication.

A user-input device includes a user-actuatable trigger, a trigger axle about which the user-actuatable trigger pivots, a motor including a worm gear, and a reduction gear operatively intermediate the user-actuatable trigger and the worm gear of the motor.

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.

Systems and methods for providing feedback to a user are described. One of the methods includes sending interactive data for rendering on a head mounted display (HMD). The HMD is configured for attachment to a head of a user for playing a game. The method further includes receiving image data associated with a body part of the user while the HMD is worn by the user and the HMD renders interactive content. The method includes tracking a spatial position associated with the body part of the user from the image data of the user. In the method, physical placement of a remote-controlled device at the spatial position associated with the body part of the user is rendered in the HMD as virtual contact with an object in the interactive content.

A system for generating haptic effects receives haptic permissions settings and associates the haptic permissions settings with a range of permitted haptic parameters. The system receives haptic parameters and modifies/filters the haptic parameters based on the range of permitted haptic parameters. The system then generates a haptic signal based on the modified haptic parameters and outputs the haptic signal to a haptic output device to generate the haptic effects.

A haptic feedback planar touch control used to provide input to a computer. A touch input device includes a planar touch notice that inputs a position signal to a processor of the computer based on a location of user contact on the touch surface. The computer can position a cursor in a displayed graphic 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 contacting the touch surface. The touch input device can be a touchpad separate from the computer's display screen, or can be a touch screen. Output haptic sensations on the touch input device can include pulses vibrations, and spatial textures. The touch input device can include multiple different regions to control different computer functions.

Game client, game server, Web application server, and database server including database with data representative of a virtual world. Game client or server, or both, includes motifs, motif manager, character manager, scenes-a-faire manager, and display manager coupled to display, all in communication with game manager, and pseudorandomizer, which can instigate changing of a motif. Motifs are representative of a game character or environment. A user interface has mass sensor, accelerometer, haptic device, first device for visual input, output, or both, second device for audio input, output, or both, and tactile sensor, effector or both. Included may be automatic translator, or TTS/STT module. The online game can be virtual world representative of at least two of a northern continent, a western continent, a southern continent, a central continent, and an eastern continent. Methods provide game client, game server, and a database that manipulate character or environment motifs and scenes-a-faire.

In order to generate force feedback data for a haptic device for providing simulated six degrees of freedom movement, a three dimensional acceleration component corresponding to the movement to be simulated is determined, a three dimensional velocity component corresponding to the movement to be simulated is determined and control signals for controlling at least three force feedback devices are determined, wherein each of the three force feedback devices provides three dimensional force effects to a fixation point associated to each of it, the three force feedback devices being arranged at defined positions with regard to each other, and the three fixation points define a geometric plane.

A system and method for analyzing and improving the performance of a body motion of an animal or human subject requires instrumenting a subject with inertial sensors, monitoring a body motion of interest, converting sensor data into motion data and animation, comparing the motion data with existing data for motion related performance parameters, providing a real-time, information rich, animation and data display of the results in color coded displays; and based on the results prescribing a training regime with exercises selected from a library of standardized exercises using standardized tools and training aids.

An apparatus, a processor-readable medium, and a method are provided that are configured to cause a haptic effect and an audio effect to be output substantially concurrently. The haptic effect has a frequency and the audio effect has a frequency different from the frequency of the haptic effect. At least one of the frequency of the haptic effect and the frequency of the audio effect is varied while maintaining substantially constant an average energy of the haptic effect. Varying the frequency of the audio effect can cause a perceived frequency of the haptic effect to change.