A seating system for a vehicle includes a vehicle seat, individually selectable and controllable electromagnetic coils individually positioned at respective locations within the seat corresponding to anatomical locations of a person sitting in the vehicle seat, and a controller. The electromagnetic coils to generate electromagnetic fields when activated. The controller to individually activate a subset of the electromagnetic coils to deliver electromagnetic energy to the anatomical locations of the person corresponding to the respective locations within the vehicle seat of the activated electromagnetic coils.

The systems and methods disclosed herein are directed to providing a notification of a presence of an occupant in a vehicle before arriving at a destination. In an illustrative embodiment, the vehicle may include a location system for tracking routes taken or traveled by the vehicle. The vehicle may include a detection system for determining whether the occupant is in the vehicle along those routes traveled by the vehicle. The vehicle may also include a notification system. The notification system may store the routes traveled by the vehicle with and without the occupant in the vehicle. The notification system may provide a notification when a route is taken with the occupant and the route is not associated with the occupant based on the historical patterns of the routes traveled by vehicle with and without the occupant.

A parking device mountable on a vehicle and capable of parking autonomously includes an autonomous-parking-command receiver, a vehicle-occupant detector, and a determination unit. The autonomous-parking-command receiver receives a parking command given by a user to park the vehicle. The vehicle-occupant detector detects whether a vehicle occupant is in the vehicle. The determination unit determines whether to permit the vehicle to park. In a case where the autonomous-parking-command receiver receives the parking command and the vehicle-occupant detector does not detect the vehicle occupant, the determination unit determines permits parking and allows the vehicle to park autonomously. In a case where the autonomous-parking-command receiver receives the parking command and the vehicle-occupant detector detects the vehicle occupant, the determination unit does not permit parking and forbids the vehicle to park autonomously by commanding the autonomous-parking-command receiver to cancel the reception of the parking command.

A seating posture is stabilized for the shoulders of a passenger seated on a vehicle seat. A vehicle seat is provided with a seat back configured to support the seated person from the rear. A shoulder support portion of the seat back configured to support a corresponding one of the shoulders of the seated passenger includes an air cell configured to expand when air is supplied. When the air cell expands, one end portion of the shoulder support portion on the outside in the width direction of the vehicle seat moves more forward than the other end portion of the shoulder support portion on the inside in the width direction.

A load detection sensor unit includes: a load detection sensor which includes a pair of electrodes facing each other with a predetermined gap interposed therebetween and a metal plate covering at least a part of one electrode; and a pressing member that includes a pressing portion pressed against a sheet cushion of a seat device and harder than the sheet cushion, and the pair of electrodes contacts each other when the metal plate is bent in a case in which the pressing portion presses a part of the metal plate.

Provided is a vehicle seat fastening structure that enables a reduced length of a bolt for fastening a movable rail and a cushion frame in a spaced-apart manner. The cushion frame includes a bottom wall extending in a seat-width direction and a seat front-rear direction. The nut includes a body having a cylindrical shape and configured to penetrate the bottom wall, a thread groove, and a flange portion projecting radially from the body. A length of the nut along a central axis thereof is greater than a separation distance between an upper surface of the movable rail and an upper surface of the bottom wall of the cushion frame in a state in which no impact is applied to the cushion frame. The flange portion is provided in an area of the nut at a distance from an insertion opening for the bolt greater than the separation distance.

A car seat includes a first heater, a second heater, and a control unit which controls an output to the first heater and an output to the second heater. The control unit executes a temperature-difference adjustment control, in which the output of the second heater is controlled such that the temperature of the bulging portion heated by the second heater with respect to the temperature of the seating surface portion heated by the first heater is made lower when an ambient temperature is a first temperature than when the ambient temperature is a second temperature which is higher than the first temperature.

An object detection device is applied to an object detection system which includes an object detection sensor installed in a vehicle so as to be oriented outward to detect an object around the vehicle. The object detection device includes: an error-handling control section that notifies a user of a detection error, if any, occurring in the object detection sensor, and brings the object detection system into an error-handling state; an action determination section that determines whether an error correction action has been performed by a user to correct the detection error, under conditions where the user has been notified of the detection error occurring in the object detection sensor; and a cancellation control section that relaxes predetermined cancellation conditions for cancelling the error-handling state when the error correction action is determined to have been performed, compared to when not performed.

A method, system, and device for controlling internal systems within a vehicle based on user preferences is disclosed. The method includes detecting, by a floor mat, presence of a user seated on a seat within the vehicle. The method further includes capturing, by the floor mat, at least one user characteristic associated with the user in response to detecting presence of the user. The method includes controlling, by the floor mat, at least one internal system within the vehicle based on the at least one user characteristic, wherein the floor mat communicates with a central controller in the vehicle to control the at least one internal system.

Method and apparatus are disclosed for mobile device tethering for a remote parking assist system of a vehicle. An example vehicle includes an active safety module and a body control module. The active safety module to, when active, autonomously parks the vehicle. The body control module determines an initial location of the mobile device and determines a current location of the mobile device using a current position received from the mobile device. The current position received from the mobile device is defined relative to the initial location. Additionally, the body control module, when the mobile device is within a virtual boundary, enables an autonomous parking system of the active safety module.