A sensing system determines movement and position of passengers and objects within a vehicle. In particular, the determination of the position and movement of body parts can be enhanced by providing features that provide a source of ground for the system. The sensing system is able to transmit a plurality of signals during a transmission period and use the sensed signals during a frame in order to create different heat maps that represent movement and position of person during an integration period. By taking advantage of grounding sources, the system is able to better determine the position and movement of a person or object.

The present disclosure relates to a mat for detecting the occupancy of a motor vehicle seat, comprising a flexible support, an interdigitated capacitive sensor borne by the flexible support, a first conductive track borne by the flexible support, the first conductive track having a first end connected to the interdigitated capacitive sensor and a second end intended to be connected to a computing unit, a second conductive track borne by the support, the second conductive track having a first free end and a second end intended to be connected to the computing unit. The present disclosure also relates to a system for determining a capacitance, a method for determining a capacitance or a state of occupancy of a seat and a method for detecting a rotation of a part of the trunk of an occupant seated on a seat

Methods include functionalizing, into a compressible pressure varying electrical conductance device, a portion of a compressible nonwoven material (CNM) cushion. A process includes forming within a three-dimensional (3D) target region of the CNM cushion a columnar distribution of non-solidified conductive polymer, and converting the columnar distribution of non-solidified conductive polymer into a columnar compressible pressure varying electrical conductance structure. The columnar distribution of non-solidified conductive polymer extends along a column axis. Forming the columnar distribution includes injecting into at least a portion of the 3D target region a liquid carrying conductive polymer in suspension. The columnar compressible pressure varying electrical conductance structure includes mutually separated masses of solidified conductive polymer respectively supported by mutually separated flexible fibers of the compressible nonwoven material. Optionally, forming the columnar distribution of non-solidified conductive polymer includes a first injection followed by partial drying, and a second injection.

A detection system includes a first electrode provided at a seat of a vehicle; a second electrode provided at an operation unit which is operated by being contacted, the second electrode being connected to a reference potential portion; and a detection device that measures combined capacitance between the reference potential portion and the first electrode and detects a presence of a person on the seat, and a contact between the person and the operation unit based on a measurement value of the combined capacitance.

Systems of a vehicle for sharing vehicle controls are provided. One example system includes an on-board computer that is part of the vehicle and communications circuitry of the vehicle usable by the on-board computer. The communications circuitry is configured to make connections with a wireless network for accessing a server. The on-board computer is configured to execute instructions for enabling portable devices that enter the vehicle to make a wireless connection with the vehicle. Vehicle electronics are interfaced with one or more vehicle systems and the on-board computer. The on-board computer is configured to provide access to at least one graphical user interface viewable via the portable device using the wireless connection. The at least one graphical user interface includes input options that enable control for features of said vehicle systems of the vehicle. A location for the portable device within the vehicle is identified. The location is associated with select ones of the vehicle systems for an environment zone of the location, and vehicles systems that are not for the environment zone are not provided as input options via the graphical user interface provided for the portable device. The graphical user interface provides preferences associated with a user account when the portable device transfers credentials to the vehicle when making the wireless connection with the vehicle.

A radio wave transmitting/receiving device is placed in a vehicle in such a way that the device is near the back of the seated person, and no discomfort is caused to the back of the seated person. The vehicle seat includes a seat cushion and a seatback connected to a rear part of the seat cushion. The seatback comprises a seatback frame including a left and a right side frame portion extending vertically, and an upper frame portion extending laterally between upper ends of the side frame portions, a pressure receiving member consisting of a plate member configured to support a back of a seated person and provided with a radio wave transmissive property, and supported by the seatback frame via an elastic member, and a radio wave transmitting/receiving device supported on a back surface of the pressure receiving member to irradiate radio wave to a seated person and receive radio wave reflected by the seated person.

A seat load detection method includes a process in which a control unit records a transition of a load detection signal and a transition of a seat load, a process in which the control unit specifies a timing when a load sensor detects a collision of a vehicle based on a transition record of the load detection signal, and a process in which the control unit calculates a correction value of the seat load based on a difference value between a stable seat load provided after the control unit detects the collision of the vehicle and a stable seat load provided before the load sensor detects the collision of the vehicle.

The present disclosure provides a wakefulness determination method for accurately determining wakefulness. The wakefulness determination method uses a respiration sensor that obtains respiratory data about respiration of a seated occupant, a calculation unit that calculates the respiratory data obtained from the respiration sensor, and a controller including a determination unit that determines a state of the seated occupant. The wakefulness determination method includes: obtaining, by the respiration sensor, respiratory data of the seated occupant; calculating, by the calculation unit, a degree of change in respiration from the obtained respiratory data; and determining, by the determination unit, wakefulness of the seated occupant by using a Bayesian filter where a probability of occurrence of drowsiness in the seated occupant for the degree of change in respiration is taken as a likelihood and the likelihood is multiplied by a prior probability of occurrence of drowsiness.

A system for detecting the presence of an occupant of a seat. The system includes a sensing mat that includes an upper conducting layer and a lower conducting layer. At least one of the conducting layers comprises a printed electronic circuit separated into conductive zones by at least one resistive zone. The mat also includes a plurality of sensing zones and each of the sensing zones include a conductive zone from the upper conducting layer and a conductive zone from the lower conducting layer. Each of the conducting layers are connected to a controller configured to detect a change in capacitance of each of the sensing zones resulting from a change in distance between the upper conducting layer and the lower conducting layer. The controller is connected to a vehicle network and is configured to provide data to the network that indicates the absence or presence of the occupant.

A vehicle seat may include a seat body having a seat base and a backrest arranged to extend upward from the base. The seat body may include an exterior covering. The vehicle seat may further include a comfort system disposed within the seat body and including a heating track configured to emit heat.