An autonomous vehicle including a vehicle propulsion system, a braking system, a steering system, and a computing system that is in communication with the vehicle propulsion system, the brake system, and the steering system. The computing system can receive an indication an account associated with a passenger of the autonomous vehicle for a trip of the autonomous vehicle includes a predefined parent-child link with a second account. The predefined parent-child link indicates the account associated with the passenger is subordinate to the second account and a parent-child relationship exists between the passenger and a person associated with the second account. Responsive to receiving the indication of the parent-child link and the passenger being the child in the parent-child relationship, the computing system can control the autonomous vehicle to enable a linked account feature that would otherwise be disabled.

A detection system for vehicle includes a reader and a first detector. The reader is provided in a vehicle, transmits and receives radio signals, and transmits transmission signals including at least radio signals for supplying electric power. The first detector is driven by the radio signals for supplying electric power included in the transmission signals when receiving the transmission signals and can transmit first response signals output in response to the transmission signals to the reader. The first detector is disposed in a sitting area on a seat where the first response signals transmitted to the reader are blocked. The reader determines a sitting state of a passenger based on whether the first response signals are received in response to the transmission signals.

An assembly system warning device includes a first assembly member, a second assembly member, a main circuit, a power supply, an alarm device, a first circuit, a first switch, a second circuit and a second switch. When the first assembly member is located at an assembly position and the second assembly member is located at an idle position, the main circuit and the second circuit are connected in series to form a closed circuit. When the second assembly member is located at an assembly position and the first assembly member is located at an idle position, the main circuit and the first circuit are connected in series to form a closed circuit.

A wheelchair securing structure includes: a securing device provided in a wheelchair securing space inside a vehicle cabin, the securing device being configured to secure a wheelchair; a securing detection portion configured to detect that the wheelchair is secured by the securing device; and a display portion provided at a position where the display portion is visually recognizable by an occupant of the wheelchair from the wheelchair securing space inside the vehicle cabin, the display portion being configured to display a secured state of the wheelchair, the secured state being detected by the securing detection portion.

Example illustrations herein are directed to systems and methods for determining whether a vehicle driver meets a seat belt criteria based upon a detection of each of a set of seat belt conditions. In an example, the set of conditions includes at least the vehicle driver occupying a driver seat of the vehicle, expiration of a minimum delay time after the vehicle driver is occupying the driver seat, and an engagement of a driver's seat belt latch with a corresponding buckle after the expiration of the minimum delay time, and a positioning of a driver's seat belt on a shoulder of the vehicle driver. The method may also include enabling a first vehicle feature if the vehicle driver meets the seat belt criteria. The first vehicle feature may be disabled if the vehicle driver does not meet the seat belt criteria.

Systems and methods are provided for monitoring seatbelt usage by an occupant of a vehicle. The method includes, by a processor: receiving sensor data generated by at least one sensing device of the vehicle, determining a seatbelt gaming activity has occurred based on the sensor data, wherein the seatbelt gaming activity occurs when a seatbelt of the vehicle is latched while the occupant is not secured to a corresponding seat with the seatbelt, performing a persistence check to compare a frequency of the seatbelt gaming activity over a period of time to a minimum seatbelt gaming activity threshold, determining a classification of seatbelt gaming activity attributed to the occupant based on the persistence check, and generating record data that includes the classification of seatbelt gaming activity attributed to the occupant.

A child car seat system includes a car seat having a strap with a restraining device to secure over a body of a child; a sensing system to be incorporated into the restraining device, the sensing system having a first sensor associated with a first half of the restraining device; a second sensor associated with a second half of the restraining device; a third sensor secured positioned within a body of the restraining device; a control system in electrical communication with the first, second, and third sensors; and an alarm in communication with the control system; the alarm is activated via the control system when the first sensor and the second sensor are separated from one another, such as when the restraining device is unsecure; and the third sensor is to alert the control system when the car seat is occupied.

A computer implemented method for detecting whether a seat belt is used in a vehicle comprises the following steps carried out by computer hardware components: acquiring an image of an interior of the vehicle; determining a plurality of sub-images based on the image; detecting, for at least one of the sub-images, whether a portion of the seat belt is present in the respective sub-image; and determining whether the seat belt is used based on the detecting.

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 automotive vehicle includes a body having a passenger compartment, an anchorage system for securing a child restraint disposed in the passenger compartment, the anchorage system including a latchable bar member, a child restraint installation system coupled to the anchorage system, the child restraint installation system including a trigger member, a sensor contact member, a compression member, a retaining member, and a sensor, and at least one controller in communication with the sensor, the at least one controller being configured to, in response to satisfaction of a first operating condition, generate a first notification signal and, in response to satisfaction of a second operating condition, generate a second notification signal.