A variable resistance conductive rubber sensor and method of detecting an object/human touch therewith is provided. The sensor has a sensor body constructed from electrically conductive rubber. The sensor body extends between opposite first and second ends. A first wire is operably connected to the first end and a second wire may be operably connected to the second end, with the first and second wires being brought into electrical communication with one another by the intermediately extending electrically conductive rubber of the sensor body. A microcontroller is operably connected to the sensor body to detect the presence of an applied force or human touch on the sensor body.

There is provided a system for detecting presence or absence of a heat emitting object, comprising a platform for receiving the object, and the platform defining an area in which a temperature gradient with the object may exist, a thermoelectric device for generating an electrical voltage indicative of the presence or absence of temperature gradient and/or the magnitude of the temperature gradient, and an indicator for indication of the presence or absence of the object to be detected.

The present invention discloses a mm-wave radar sensor to be deployed in the vehicles for seat occupation detection applications. The key system relevant components are utilization of mm-wave integrated radar, specific planar high-gain antenna radiation pattern, and analyzing of the heartbeat and optionally also respiratory dynamics. The method of operation calculates probability of the seat occupation event regarding: detection of the passenger on the seat, detection of a baby or a child on the seat, detection of the presence of a baby or a child in the vehicle after the driver has left the vehicle, detection of the human or animal presence of intrusion in specific vehicle environment. In case that probability is above a predefined threshold, typically the interaction with vehicle control system is initiated using arbitrary automotive interfaces. Corresponding predefined actions are taken in that case. The predefined actions could be one or combination of the following: audio signal alerts to driver, inside cabin light condition change, engine operation condition change, opening of the windows or corresponding communication using arbitrary wireless means to outside vehicle environment. Optionally, the system is utilizing additional parameters like vehicle cabin temperature and/or timing information about engine stop and driver leaving the car. Preferably, the system is using 60 GHz or 77-79 GHz integrated radar front end working in Doppler operation mode, with 44 Tx and Rx planar radiation elements, with physical size typically in the range 421 cm, or smaller.

A seat occupancy determination apparatus includes a seat belt attachment detection portion, a first and a second load detection sensors, a front-rear load sum computing portion, a front-rear load difference computing portion, a memory portion, an adult possibility determination portion, and a child safety seat determination portion determining a vehicle seat determined as possibly occupied by an adult is occupied by a child safety seat in a case where a first predetermined amount increase condition satisfies by a front-rear load difference value within a time range between a time of engagement and a first time point increases by a first predetermined amount or more from the value at the first time point or earlier and a second predetermined amount decrease condition satisfies by the front-rear load difference value decreases by a second predetermined amount or more within a time range between the time of engagement and a second time point.

A child seat-vehicle safety system for a passenger vehicle, including at least one child seat buckle signaling device with a buckling detector for signaling the buckle status, and a portable controller device that attaches to the On-Board Diagnostic II (OBD-II) port of the vehicle, for detecting the status of the vehicle ignition system, receiving the buckle status signal, and generating an alarm signal in response to a predetermined condition of the ignition status and the buckle status signal. The system provides a method of warning a vehicle operator that a child has been left buckled in a vehicle after the vehicle's ignition system has been turned off, by generating an alarm signal when the ignition status is off and the buckle status signal is buckled beyond a predetermined grace or timeout period.

A sensor arrangement comprises a first sensor element for converting a physical quantity into a first electrical signal and at least a second sensor element for converting said physical quantity into a second electrical signal. The first sensor element has a first sensitivity while said second sensor element has a second sensitivity different from said first sensitivity. The first sensor element is operatively coupled between terminals of said sensor arrangement and said second sensor element is operatively connected between said terminals of said sensor arrangement via a temperature controlled switching element so that in a first state of said temperature controlled switching element, said second electrical signal combines with said first electrical signal to form a sensor output signal, and in a second state of said temperature controlled switching element, the contribution of said second electrical signal to said sensor output signal is substantially reduced with respect to a respective contribution in said first state of said temperature controlled switching element.

One variation of a method for renting a vehicle includes: receiving a signal from a fleet manager, the signal specifying a current availability of the vehicle for rent; updating a visual indicator arranged on the vehicle according to the signal, the visual indicator visually detectable from outside the vehicle; receiving identification information of a user proximal the vehicle; enabling access to the vehicle for the user in response to verification of the user as a driver of the vehicle; determining, through a sensor arranged within the vehicle, that the user is seated in a driver's seat within the vehicle; and enabling ignition of the vehicle for the user in response to determination that the user is seated in the driver's seat.

Systems, devices, and techniques are provided for occupancy assessment of a vehicle. For one or more occupants of the vehicle, the occupancy assessment establishes position and/or identity for some or all of the occupant(s).

A seat includes a seat body and a sensor configured to acquired information on an occupant seated on the seat body. The seat includes a coating as a location marker that marks a location of the sensor to render the location visually recognizable from outside the seat body.

Systems and methods are provided for determining, by processing circuitry, a vehicle occupant has left a seat of a vehicle (or the seat is unoccupied), and in response to determining the vehicle occupant has left the seat (or the seat is unoccupied), causing a heating, ventilation, and air conditioning (HVAC) system of the vehicle to thermally store energy in the seat.