Abstract: The various embodiments set forth a headphone apparatus that includes a first earcup, a sensor included in the first earcup, and a controller. The first earcup is coupled to a headband, and includes a loudspeaker system and a thermal control subsystem. The controller is configured to detect an output generated by the sensor, and, based on the output, transmit a signal to the thermal control subsystem included in the first earcup to modify a temperature associated with at least the first earcup.

Abstract: A system for modifying a stiffness of at least a portion of a vehicle component includes one or more devices coupled to the vehicle component and a processor coupled to the one or more devices. The processor is configured to determine that a software application has switched from a first mode to a second mode and cause the one or more devices to modify the stiffness of the at least a portion of the vehicle component from a first stiffness associated with the first mode to a second stiffness associated with the second mode.

Abstract: In one embodiment, a cognitive load driving assistant increases driving safety based on cognitive loads. In operation, the cognitive load driving assistant computes a current cognitive load of a driver based on sensor data. If the current cognitive load exceeds a threshold cognitive load, then the cognitive load driving assistant modifies the driving environment to reduce the cognitive load required to perform the primary driving task and/secondary task(s), such as texting via a cellular phone. The cognitive load driving assistant may modify the driving environment indirectly via sensory feedback to the driver or directly through reducing the complexity of the primary driving task and/or secondary tasks.

Abstract: The various embodiments set forth a method for displaying information on one or more surfaces of a vehicle, the method comprising acquiring position data associated with a driver of the vehicle, calculating a current field-of-view of the driver based on the position data, determining a suitable surface for displaying visual information within the vehicle based on the current field-of-view of the driver, and projecting an element of visual information on the suitable surface.

Abstract: A system for exerting forces on a user. The system includes a user-mounted device having one or more masses disposed along one or more tracks. The system further includes a processor configured to generate a first actuator control signal to configure a first actuator to move a first mass included in the one or more masses at a first acceleration in a first direction along a first track included in the one or more tracks. The processor is further configured to generate a second actuator control signal to configure at least one of the first actuator and a second actuator to move the first mass at a second acceleration in the first direction along the first track. A magnitude of the first acceleration is above a threshold acceleration, and a magnitude of the second acceleration is below the threshold acceleration.

Abstract: In one embodiment of the present invention, a haptic engine dynamically configures a haptic controller to provide information regarding the state of an interactive system via sensations of texture. In operation, as the state of the interactive system changes, the haptic engine dynamically updates a haptic state that includes texture characteristics, such as texture patterns, that are designed to reflect the state of the interactive system in an intuitive fashion. The haptic engine then generates signals that configure touch surfaces included in the haptic controller to convey these texture characteristics. Advantageously, providing information regarding the correct state and/or operation of the interactive system based on sensations of texture reduces distractions attributable to many conventional audio and/or visual interactive systems.

Abstract: One or more embodiments set forth techniques for identifying and locating wireless light emitting elements within a lighting system. An identification and location module executing on calibration system transmits a message to instruct a first light emitting element included in a plurality of light emitting elements within the lighting system to emit light having a first characteristic. The identification and location module detects, via a photosensitive device, a first location of the first light emitting element within the lighting system based on the first characteristic. The identification and location module stores a data entry in a memory that associates the first location with the first light emitting element. At least one advantage of the approach described herein is that wireless light emitting elements are automatically identified and located during post assembly testing, thereby reducing labor costs associated with manually presorting or recording IDs of the light emitting elements.

Abstract: One embodiment of the present invention sets forth a technique for identifying a characteristic of an object. The technique includes determining that the object is a target of a directional gesture and detecting a trigger event that occurs while the object is the target of the directional gesture. The technique further includes, in response to the trigger event, acquiring sensor data associated with the object via one or more sensors and analyzing the sensor data to identify at least one characteristic of the object.

Abstract: A technique for modifying an affect of a voice. The technique includes determining an emotional state associated with a person, and modifying one or more acoustic characteristics of a voice sample acquired from the person based on the emotional state to alter an affect associated with the voice sample. The technique further includes generating a second voice sample based on the one or more acoustic characteristics that have been modified, and transmitting the second voice sample.

Abstract: A system for exerting forces on a user. The system includes a user-mounted device including one or more force exerting devices, one or more sensors configured to acquire sensor data, and a processor coupled to the one or more force exerting devices and to the one or more sensors. The processor is configured to determine, based on the sensor data, at least one of an orientation and a position associated with the user-mounted device. The processor is further configured to compute a force to be exerted on the user via the one or more force exerting devices based on a force direction associated with a force event and at least one of the orientation and the position, and generate a control signal for the one or more force exerting devices based on the force.

Abstract: A system for exerting forces on a user. The system includes a user-mounted device including one or more masses, one or more sensors configured to acquire sensor data, and a processor coupled to the one or more sensors. The processor is configured to determine at least one of an orientation and a position associated with the user-mounted device based on the sensor data. The processor is further configured to compute a force to be exerted on the user via the one or more masses based on a force direction associated with a force event and at least one of the orientation and the position. The processor is further configured to generate, based on the force, a control signal to change a position of the one or more masses relative to the user-mounted device.

Abstract: A notification system is configured to determine a set of parking restrictions associated with a parking space where a driver parks a vehicle. The set of parking restrictions indicate a particular allotment of time that the vehicle may be parked in the parking space. The notification system then sets a timer that reflects the allotment of time. The notification system also determines a set of contextual constraints associated with the driver that limit the ability of the driver to return to the vehicle. The notification system computes an amount of buffer needed for the driver to return to the vehicle, based on the set of contextual constraints. When the amount of time remaining on the timer is equal to the buffer, the notification system notifies the driver that a parking violation is imminent, providing the driver with sufficient time to return to the vehicle and address the situation.

Abstract: The various embodiments set forth a headphone apparatus that includes a first earcup, a sensor included in the first earcup, and a controller. The first earcup is coupled to a headband, and includes a loudspeaker system and a thermal control subsystem. The controller is configured to detect an output generated by the sensor, and, based on the output, transmit a signal to the thermal control subsystem included in the first earcup to modify a temperature associated with least the first earcup.

Abstract: One or more embodiments set forth techniques for identifying and locating wireless light emitting elements within a lighting system. An identification and location module executing on calibration system transmits a message to instruct a first light emitting element included in a plurality of light emitting elements within the lighting system to emit light having a first characteristic. The identification and location module detects, via a photosensitive device, a first location of the first light emitting element within the lighting system based on the first characteristic. The identification and location module stores a data entry in a memory that associates the first location with the first light emitting element. At least one advantage of the approach described herein is that wireless light emitting elements are automatically identified and located during post assembly testing, thereby reducing labor costs associated with manually presorting or recording IDs of the light emitting elements.

Abstract: One embodiment of the present invention sets forth a technique for calibrating an audio system. The technique includes transmitting information to a robotic vehicle for positioning a microphone at a plurality of different listening locations within a listening environment and, for each different listening location, acquiring a sound measurement via the microphone. The technique further includes calibrating at least one audio characteristic of the audio system based on the sound measurements acquired at the different listening locations.

Abstract: A system for modifying a stiffness of at least a portion of a vehicle component includes one or more devices coupled to the vehicle component and a processor coupled to the one or more devices. The processor is configured to determine that a software application has switched from a first mode to a second mode and cause the one or more devices to modify the stiffness of the at least a portion of the vehicle component from a first stiffness associated with the first mode to a second stiffness associated with the second mode.

Abstract: A system for changing the shape of a vehicle component includes one or more actuators coupled to the vehicle component and a processor coupled to the one or more actuators. The processor is configured to determine that a software application has switched from a first mode to a second mode and cause the one or more actuators to transition a surface of the vehicle component from a first shape associated with the first mode to a second shape associated with the second mode.

Abstract: In one embodiment of the present invention, a haptic engine dynamically configures a haptic controller to provide information regarding the state of an interactive system via sensations of texture. In operation, as the state of the interactive system changes, the haptic engine dynamically updates a haptic state that includes texture characteristics, such as texture patterns, that are designed to reflect the state of the interactive system in an intuitive fashion. The haptic engine then generates signals that configure touch surfaces included in the haptic controller to convey these texture characteristics. Advantageously, providing information regarding the correct state and/or operation of the interactive system based on sensations of texture reduces distractions attributable to many conventional audio and/or visual interactive systems.

Abstract: One embodiment of the present invention sets forth a technique for identifying a characteristic of an object. The technique includes determining that the object is a target of a directional gesture and detecting a trigger event that occurs while the object is the target of the directional gesture. The technique further includes, in response to the trigger event, acquiring sensor data associated with the object via one or more sensors and analyzing the sensor data to identify at least one characteristic of the object.