A tether system for providing power from a vehicle to a garment is presented. The system includes a tether having a first end and a second end, at least one electrical conductor operatively between the first and second ends, and an electrical contact at the second end, the tether being adapted for connecting to the garment at the first end; and a base adapted for mounting to the vehicle, the second end of the tether being selectively connected to the base, the base being adapted for selectively receiving the electrical contact and for providing power to the at least one electrical conductor of the tether via the electrical contact, the base, when mounted to the vehicle, being operative to stop propulsion of the vehicle when the tether is disconnected from the base.

A gripping state detection device includes a steering state determination ECU that determines the gripping state of a driver with respect to the steering wheel of a vehicle. The steering state determination ECU determines which of a first steering state, a second steering state, and a hands-off state has occurred based on the electrostatic capacitance. The steering state determination ECU outputs a first determination result indicating that the steering wheel is gripped by the driver in a case where the determined state is the first steering state or the second steering state, and outputs a second determination result indicating that the steering wheel is not gripped by the driver in a case where the determined state is the hands-off state.

A ship includes a controller that performs wireless communications with a portable machine possessed by a passenger and a lanyard stop switch. When a lanyard code coupled to the passenger is pulled out, the lanyard stop switch operates to stop an engine of an outboard motor and stop the ship. When the controller detects that the lanyard stop switch operates, that is, detects a possibility that the passenger has fallen overboard, the controller starts wireless communications with the portable machine. The controller determines whether or not a rescue signal needs to be transmitted in accordance with conditions regarding a power density and a frequency of a radio wave of the wireless communications as predetermined conditions for estimating a situation of the passenger.

A ship includes a controller that performs wireless communications with a portable machine possessed by a passenger and a lanyard stop switch. When a lanyard code coupled to the passenger is pulled out, the lanyard stop switch operates to stop an engine of an outboard motor and stop the ship. When the controller detects that the lanyard stop switch operates, that is, detects a possibility that the passenger has fallen overboard, the controller starts wireless communications with the portable machine. The controller determines whether or not a rescue signal needs to be transmitted in accordance with conditions regarding a power density and a frequency of a radio wave of the wireless communications as predetermined conditions for estimating a situation of the passenger.

A vehicle ignition override system which may be designed for emergency situations, such as a child being left in the vehicle unattended during elevated temperature weather conditions. The system may include a temperature sensor to detect elevated heat conditions, an automatic ignition override switch which may start the vehicle and activate an air-conditioning system. The system may also include a warning alarm which may produce a sound notifying nearby pedestrians that a child was left in the car. The system may even further include a remote notification signal which may be sent to the driver via a smart device or vehicle dongle.

A vehicle ignition override system which may be designed for emergency situations, such as a child being left in the vehicle unattended during elevated temperature weather conditions. The system may include a temperature sensor to detect elevated heat conditions, an automatic ignition override switch which may start the vehicle and activate an air-conditioning system. The system may also include a warning alarm which may produce a sound notifying nearby pedestrians that a child was left in the car. The system may even further include a remote notification signal which may be sent to the driver via a smart device or vehicle dongle.

A working vehicle includes a prime mover, a driver's seat selectively set in either a first posture where a driver can sit thereon or a second posture where the driver cannot sit thereon, a speed controller to receive power from the prime mover and perform a speed-changing of the power, a PTO shaft to receive the speed-changed power from the speed controller, a posture switch to detect whether the driver's seat is set in the first or second posture, a parking switch to detect parking of a vehicle body, and a first actuator. During driving of the prime mover, the first actuator maintains the driving of the prime mover when both the parking and the driver's seat set in the second posture are detected, and stops the driving of the prime mover when neither the parking nor the driver's seat set in the second posture is detected.

A working vehicle includes a prime mover, a driver's seat selectively set in either a first posture where a driver can sit thereon or a second posture where the driver cannot sit thereon, a speed controller to receive power from the prime mover and perform a speed-changing of the power, a PTO shaft to receive the speed-changed power from the speed controller, a posture switch to detect whether the driver's seat is set in the first or second posture, a parking switch to detect parking of a vehicle body, and a first actuator. During driving of the prime mover, the first actuator maintains the driving of the prime mover when both the parking and the driver's seat set in the second posture are detected, and stops the driving of the prime mover when neither the parking nor the driver's seat set in the second posture is detected.

The techniques of this disclosure relate to a vehicle occupancy-monitoring system. The system includes a controller circuit that receives occupant data from an occupancy-monitoring sensor of a vehicle. The controller circuit determines an occupancy status of respective seats in a cabin of the vehicle based on the occupancy-monitoring sensor. The controller circuit indicates the occupancy status of the respective seats on a display located in a field of view of occupants of the vehicle. The display is integral to one of a roof light module, a door panel, or a headliner of the cabin. The system can improve passenger safety by alerting the operator and other occupants about the occupancy status of the passengers.

An authentication system includes: an electronic key that transmits a signal including authority information indicating authority given to an owner and an authentication key; a plurality of on-board stations installed on a train to receive the signal from the electronic key; and an authentication device that determines a position of the electronic key from a reception status of the signal including the same authentication key in the plurality of on-board stations, and determines, on the basis of the position of the electronic key and the authority information, whether to permit departure of the train and whether to permit operation of a control console of the train.