Disclosed herein are methods and systems for providing haptic output and audio output on computing devices using the same haptic device and methods for calibrating the same. To produce the haptic and audio output, the computing device receives a profile of a desired output waveform that is to be provided by the haptic device. Using the desired output waveform, an input waveform is generated. Once the input waveform that will produce the desired output waveform is generated, the input waveform may be calibrated to account for various structural components of the haptic device and may also be combined with an audio waveform. The input waveform is then provided to the haptic device.

An example remote control device includes an inertial sensor; one or more manipulable input devices; wireless communication circuitry; and control circuitry for controlling the wireless communication circuitry to communicate information about the inertial sensor and the input devices to an electronic device. The information is communicated at one or more communication intervals using a data format which permits a value associated with the inertial sensor and sampled at a given sampling time to be communicated in at least first and second different communications.

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.

A gyroscopic motion feedback device utilizes one or more pairs of masses mounted on a common axis but independently rotatable to allow rapid variation of the gyroscopic force produced thereby. A sensor detects motion of the mount and a controller uses the detected motion to vary the relative rotational speed of the masses. The device provides haptic feedback where the mount is used to the control the interaction of an objection in a virtual environment, with the controller further varying the relatively rotational speed based on virtual interactions experienced by the object.

There is provided an information processing apparatus including a delay amount decision unit configured to decide a delay amount of a haptic output from occurrence of an event on the basis of an event occurring position in a virtual space, and a haptic output control unit configured to delay the haptic output according to the delay amount decided by the delay amount decision unit.

Broadcasting select haptic metadata includes broadcasting a broadcast signal to haptic-enabled devices. In response, haptic playback capability information is received at a host source from a haptic-enabled device when original haptic metadata in the broadcast signal encodes haptic information incompatible with the haptic playback capability information. The select haptic metadata, which is customized for the haptic playback capability information, is generated and sent from the host source to the haptic-enabled device.

A modular peripheral device assembly is disclosed. The assembly includes a handheld controller and an assembly base. The handheld controller includes a first haptic actuator configured to generate a haptic effect at the handheld controller. The assembly base includes an attachment component that is configured to be attachable to and detachable from the handheld controller, and a second haptic actuator configured to generate haptic a effect at the assembly base or at the handheld controller when it is attached to the attachment component. The assembly further includes a control unit configured to select, based on whether the handheld controller is attached to or detached from the assembly base, at least one of the first and second haptic actuators to generate a haptic effect.

A touch sensitive method for simulating a stylus as a joystick, comprises: maintaining a mode parameter for recording an operating mode of the stylus; detecting, by a touch panel, a position, an axial direction and a tilt angle of the stylus with respect to the touch panel; and when the mode parameter indicates a joystick mode, converting the axial direction and the tilt angle into a first-axis tilt angle and a second-axis tilt angle and transmitting the first-axis tilt angle and the second-axis tilt angle to an application via a joystick driver, when the mode parameter indicates a stylus mode, transmitting the position to a touch sensitive driver, wherein the joystick driver, the touch sensitive driver and the application are executed under an operating system environment run by a central processing unit of a host.

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.

Embodiments hereof relate a system that includes a processor and a haptic peripheral with a haptic output device. The processor is configured to receive an audio file, or a haptic file generated from the audio file, that includes a first channel having a first set of control parameters to generate a first haptic effect and a second channel having a second set of control parameters to generate a second haptic effect and to output a control signal that includes the first and second sets of control parameters for the haptic effect. The haptic output device is configured to receive the control signal from the processor and to output the haptic effect to the haptic peripheral. In an embodiment, the haptic output device is coupled to a bi-directional trigger and the control parameters move the trigger in opposing directions. In another embodiment, the control parameters generate different timelines of haptic effects to a user input element.