In an arrangement which includes: a seat support body slidably supported on a fixed rail fixed to a floor; a power supply device supplying power to an electrical component on a seat side; and a drive device driving the seat support body in a front-and-rear direction and having a motor and a transmission member disposed so as to pass longitudinally through an interior of the fixed rail, the power supply device includes: a housing housing an electric wire for power supply; and a slider linked to the seat support body and slidable within the fixed rail. The electric wire is drawn out from the housing, retained by the slider and slidable within the fixed rail. The slider has an interference-avoiding portion for avoiding interference with the transmission member disposed so as to pass longitudinally through the interior of the fixed rail. Accordingly, the transmission member of the drive device and the slider for retaining the electric wire, which slides within the fixed rail, can be arranged in proximity to each other within the fixed rail while avoiding interference therebetween, thus enabling simplification and a reduction in the size of a rail structure.

Embodiments herein are directed to a vehicle. The vehicle includes a passenger compartment and a master controller. The passenger compartment has a plurality of rear passenger seats disposed on a track. Each seat of the plurality of rear passenger seats is configured to move on the track. The master controller is configured to receive a first data from a wheelchair and to direct a movement of each seat of the plurality of rear passenger seats along the track. In response to receiving the first data, the master controller actuates at least one actuator to move at least one of the plurality of rear passenger seats along the track to provide a transportation space for the wheelchair based on the first data received from the wheelchair.

In a physical state sharable seat, a sensor is configured to acquire a measurement value specific to a physical state of an occupant seated on the seat body; and a controller connected to the sensor and thereby allowed to acquire the measurement value from the sensor is configured to be capable of communicating with other equipment. The controller includes: an evaluation unit configured to compute an evaluation value on the physical state, based on the measurement value; an evaluation value presentation unit configured to present the evaluation value at a terminal to be used by the occupant; a shared data acquisition unit configured to acquire an other-occupant evaluation value that is an evaluation value on a physical state of another person, acquired either by the evaluation unit or from another physical state sharable seat; and a shared data presentation unit configured to present the other-occupant evaluation value at the terminal.

An agent device includes an agent functional controller configured to provide a service including causing an output device to output a response of voice in response to an utterance of an occupant of a vehicle, and a controller configured to permit an operation of a power window of the vehicle when a speed of the vehicle is less than a first threshold value and limit the operation of the power window of the vehicle when the speed of the vehicle is equal to or greater than the first threshold value when the agent functional controller is activated.

An agent device includes an agent functional controller configured to provide a service including causing an output device to output a response of voice in response to an utterance of an occupant of a vehicle, and a controller configured to permit an operation of a power window of the vehicle when a speed of the vehicle is less than a first threshold value and limit the operation of the power window of the vehicle when the speed of the vehicle is equal to or greater than the first threshold value when the agent functional controller is activated.

A system for controlling one or more functions of a vehicle responsive to a cognitive state of a vehicle user comprises one or more controllers configured to receive cognitive state data indicative of a cognitive state of the user of the vehicle and context data indicative of a context of one or both of the user and the vehicle. The one or more controllers are configured to control the one or more functions of the vehicle in dependence on the received indication of the cognitive state of the user and the context data. The controllers are configured to output control data for controlling the one of more functions of the vehicle.

A system for controlling one or more functions of a vehicle responsive to a cognitive state of a vehicle user comprises one or more controllers configured to receive cognitive state data indicative of a cognitive state of the user of the vehicle and context data indicative of a context of one or both of the user and the vehicle. The one or more controllers are configured to control the one or more functions of the vehicle in dependence on the received indication of the cognitive state of the user and the context data. The controllers are configured to output control data for controlling the one of more functions of the vehicle.

An apparatus for a vehicle includes processing circuitry configured to obtain identification information on a future passenger of the vehicle, the identification information comprising an ultra-wideband communication identification of a mobile device of the future passenger. The processing circuitry is also configured to locate the future passenger outside the vehicle using ultra-wideband communication, the ultra-wideband communication being performed between an ultra-wideband transceiver of the vehicle and the mobile device of the future passenger and being based on the ultra-wideband communication identification of the mobile device. The processing circuitry is further configured to compute guidance information based on the location of the future passenger of the vehicle, and provide the guidance information via an interface.

A voice recognition apparatus in a motor vehicle is configured to recognize at least one voice command, which is linked to at least one condition and which is related to the actuation of at least two functional units of the motor vehicle by a control device to provide voice-based operation of the motor vehicle by a vehicle occupant. The control apparatus is configured to generate, in accordance with the voice command, which is recognized by the voice recognition apparatus, a rule for actuating the at least two functional units according to the generated rule.

At least one vehicle and at least one key element, each associated with a corresponding vehicle, are configured to exchange data with one another via a system that determines the vehicle position and the position of the key element. The system places the vehicle in a driving operating mode when the vehicle position and the key element position are essentially the same, in particular when the key element is located inside the vehicle. At least one vehicle function that can be activated when the vehicle is stationary is automatically switched on depending on a current key element position. This may occur when a key element position is changing relative to the vehicle position, but the vehicle and the associated key element are remote from one another, such as separated by at least ten meters.