The invention relates to electronic technologies in automobile, and in particular, to an apparatus and method for processing vehicle emergency conditions. The apparatus for processing vehicle emergency conditions according to an aspect of the invention comprises: a first sound sensor disposed inside the vehicle; and a processing unit coupled with the first sound sensor, which is configured to determine whether an individual inside the vehicle is in an emergency condition according to signals collected by the first sound sensor and an internal environmental state of the vehicle, and to generate a command or instruction signal for executing emergency processing operation when the individual inside the vehicle is in an emergency condition.

A sound of a second vehicle engine is detected. Upon predicting a pollution event by comparing the detected sound to a stored sound model, a countermeasure is actuated in a first vehicle.

Method and apparatus are disclosed for detecting ASR errors. An example vehicle includes a microphone for automatic speech recognition (ASR), a climate control system, and a processor. The processor is configured to receive data captured by the microphone, determine, based on the received data, that a level of buffeting detected by the microphone exceeds a threshold level corresponding to buffeting caused by the climate control system, and responsively provide an alert indicating that a climate control vent is aimed at the microphone.

A handsfree voice system has a microphone mounted in a fixed location in a passenger cabin. An audio signal from the microphone can be used by a voice recognition system to detect spoken commands of a driver or can be used by a cellular telephone transceiver to transmit sounds for a spoken conversation over a phone call. A pair of speakers is mounted at a periphery of the microphone. A plurality of noise sensors are configured to characterize intrusive noises into the cabin. An active noise cancellation controller is responsive to the noise sensors for generating anti-noise to be output by the speakers establishing a quiet zone centered on the microphone.

Aspects of the disclosure relate to apparatus and methods for unattended occupant protection system (UOPS) safety systems for passenger vehicles. The UOPS safety system may include a UOPS module. The module may be integrated with a vehicle data bus of the passenger vehicle. The module may be in communication with a plurality of UOPS sensors. The module may launch an equalization mode in response to determining, via the UOPS sensors, the presence of an unattended occupant in the passenger vehicle with a high or rising ambient temperature. The equalization mode may stabilize the ambient temperature of the passenger vehicle.

Method and apparatus are disclosed for detecting ASR errors. An example vehicle includes a microphone for automatic speech recognition (ASR), a climate control system, and a processor. The processor is configured to receive data captured by the microphone, determine, based on the received data, that a level of buffeting detected by the microphone exceeds a threshold level corresponding to buffeting caused by the climate control system, and responsively provide an alert indicating that a climate control vent is aimed at the microphone.

In a method for protecting vehicle occupants in the passenger compartment of a vehicle, particularly a motor vehicle. It is provided as essential to the invention that at least one structure-borne sound signal is captured by at least one structure-borne sound sensor, the captured structure-borne sound signal is evaluated by at least one evaluation device, the structure-borne sound signal can be produced by at least one person located in the passenger compartment of the vehicle, and after the capture and evaluation of the structure-borne sound signal at least one control signal is sent to a triggering device of an air supply device to introduce air into the passenger compartment of the vehicle.

A system, for implementation at a vehicle of transportation, having multiple arrangements of occupant-zone-specific acoustic equipment in the vehicle. Each arrangement is positioned at a respective occupant-specific acoustic zone of the vehicle. Each arrangement is configured to communicate with a hardware-based processing unit that, when executing code of a hardware-based storage device in operation of the system, interacts, via the arrangement, primarily only with a vehicle occupant occupying a corresponding occupant-specific acoustic zone. In some implementations, along with or instead of the acoustic equipment, the system includes multiple arrangements of occupant-zone-specific acoustic equipment in the vehicle. In various embodiments, based on identification of occupants at respective vehicle zones in operation of the vehicle, operations are performed, such as provision of media, vehicle-occupant conversation, and customized HVAC delivery.

A voice recognition device receives requests to control devices installed in a moving body based on instructions voiced by a user. The voice recognition device includes a speech acquisition unit, a speech data conversion unit, a control target device identification unit, a detection mode setting unit and a control request identification unit. The speech acquisition unit acquires speech. The speech data conversion unit converts the acquired speech into speech data. The control target device identification unit that analyzes the speech data to identify the control target device. The detection mode setting unit that sets a detection mode for identifying the control request corresponding to the speech data in accordance with the control target device. The control request identification unit that analyzes the speech data to identify the control request with respect to the control target device, based on the set detection mode.

Provided is an electronic apparatus that perform an appropriate process according to a gesture of a subject person, the electronic apparatus including: a first input unit that inputs a detection result of a biosensor detecting a change in biological information of a subject person; a second input unit that inputs a recognition result of a recognition device recognizing an action of the subject person; and a processing unit that performs a process according to the action of the subject person based on input results of the first and second input units.