Abstract: A system is provided that converts an input, such as audio data, into one or more haptic effects. The system applies a granular synthesis algorithm to the input in order to generate a haptic signal. The system subsequently outputs the one or more haptic effects based on the generated haptic signal. The system can also shift a frequency of the input, and also filter the input, before the system applies the granular synthesis algorithm to the input.

Abstract: Systems and methods are described herein for authenticating a user device that uses a wireless local area network. The user device may generate an encrypted authentication block and/or digitally signed block that includes a variety of information associated with the user device. The user device may attach the encrypted authentication block to periodic messages that are being monitored by the network. The messages may include an unencrypted portion in addition to the encrypted authentication block. A network server may extract the authentication block and decrypt the user device information to verify the identity or the digital signature of the user device. If the network server verifies the identity of the user device, the network server may continue to communicate and provide services with the user device. If the user device identity is not verified, the network server may cease communicating with or providing the user device.

Abstract: 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.

Abstract: 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.

Abstract: Systems and methods for parameter modification of one or more haptic effects are disclosed. In one embodiment an electronic device determines a haptic effect. The electronic device can receive an input signal indicating an environmental condition. The input signal may be generated by an environmental sensor. The environmental condition may be a temperature, vibration, noise, movement, trait of a user such as a user's weight, gender, age, height, another suitable trait of a user, another suitable environmental condition, or a combination thereof. The electronic device may modify the haptic effect based at least in part on the input signal. The electronic device can generate a haptic output signal based at least in part on the modified haptic effect. The haptic output signal may be configured to cause a haptic output device to output the modified haptic effect. The electronic device may output the haptic output signal.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: A haptic representation system is provided that generates a haptic effect in response to sensor input. The sensor input is mapped to a haptic signal. The haptic signal is sent to an actuator configured to receive the haptic signal. The actuator utilizes the haptic signal to generate the haptic effect.

Abstract: A haptic confirmation system is provided that produces a confirmation haptic effect in response to a user interaction with a user interface element, where the confirmation haptic effect is based on context metadata. The context metadata is mapped to one or more haptic parameters. A haptic signal is generated based on the one or more haptic parameters. The haptic signal is sent to an actuator configured to receive the haptic signal. The actuator utilized the haptic signal to generate the confirmation haptic effect.

Abstract: 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.

Abstract: Systems and methods for haptic remote control gaming are disclosed. In one embodiment a portable multifunction device receives information from a remotely controllable device. The portable multifunction device can be operable as a remote control for the remotely controllable device. The portable multifunction device may be a smartphone, a tablet computer, or another suitable electronic device. The portable multifunction device can determine a haptic effect based at least in part on the information received from the remotely controllable device. The portable multifunction device may generate a signal configured to cause an actuator to output the determined haptic effect. The portable multifunction device can output the signal.

Abstract: 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.

Abstract: A platform including a security system is described. The security system comprises, in one embodiment, a multi-state system having a plurality of modes, available whenever the platform has a source of power. The modes comprise an unarmed mode, in which the security system is not protecting the platform, an armed mode, in which the platform is protected, the armed mode reached from the unarmed mode, after an arming command, and a suspecting mode, in which the platform is suspecting theft, the suspecting mode reached from the armed mode, when a risk behavior is detected.

Abstract: 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.

Abstract: Systems and methods are described herein for authenticating a user device that uses a wireless local area network. The user device may generate an encrypted authentication block and/or digitally signed block that includes a variety of information associated with the user device. The user device may attach the encrypted authentication block to periodic messages that are being monitored by the network. The messages may include an unencrypted portion in addition to the encrypted authentication block. A network server may extract the authentication block and decrypt the user device information to verify the identity or the digital signature of the user device. If the network server verifies the identity of the user device, the network server may continue to communicate and provide services with the user device. If the user device identity is not verified, the network server may cease communicating with or providing the user device.

Abstract: Systems and methods are described herein for authenticating a user device that uses a wireless local area network, determining the location of the device, and complying with wireless guidelines based at least in part on the location. The user device may communicate with a location server to determine the user device's location. The user device will determine which wireless guidelines are applicable to that location and configure the wireless system or any device feature to comply with the guidelines. For example, some locations prohibit the operation of wireless devices with a frequency of greater than 5 GHz. If the location of the user device dictates compliance with that guideline, the user device will not transmit wireless signals with a frequency of greater than 5 GHz.