A door assist system for a vehicle is disclosed. The system comprises an actuator configured to control a position of the door about a hinge assembly. An interference sensor forms a portion of a door opening seal and is configured to detect an obstruction in a plurality of detection regions. The system further comprises a controller configured to control the actuator in response to a detection signal from the interference sensor.

A deformable sensor may detect changes in capacitance due to relative motion of electrodes in the deformable sensor, or due to a proximate object. In some cases, a controller circuit may communicate with a motion interface system to alter motion of system components when a deformation or proximate object is sensed.

A deformable sensor may detect changes in capacitance due to relative motion of electrodes in the deformable sensor, or due to a proximate object. In some cases, a controller circuit may communicate with a motion interface system to alter motion of system components when a deformation or proximate object is sensed.

An obstacle detection sensor system for a movable panel of a motor vehicle includes an obstacle detection sensor disposed on an articulating mount, the obstacle detection sensor and articulating mount being hidden from view by an exterior surface of the motor vehicle in a first position, and the articulating mount providing the obstacle detection sensor with a sensor detection range including an exterior surface of the movable panel in a second position. Movement of the articulating mount from the first position to the second position and from the second position to the first position is coupled to movement of the movable panel.

An obstacle detection sensor system for a movable panel of a motor vehicle includes an obstacle detection sensor disposed on an articulating mount, the obstacle detection sensor and articulating mount being hidden from view by an exterior surface of the motor vehicle in a first position, and the articulating mount providing the obstacle detection sensor with a sensor detection range including an exterior surface of the movable panel in a second position. Movement of the articulating mount from the first position to the second position and from the second position to the first position is coupled to movement of the movable panel.

The present invention relates to methods for controlling a capacitive anti-trap system of a vehicle. At least two transmission electrodes and one reception electrode of the capacitive anti-trap system are used for detecting an obstacle, and an electrical field is generated by a pair comprising transmission electrode and reception electrode by actuation of the respective transmission electrode by alternating electric current, said electrical field being influenced by an obstacle such that an electrical capacitance is measurably changed. A changing electrical capacitance is determinable on the basis of a signal received via the reception electrode and this signal is evaluated by means of an electronic evaluation unit at least during closing of the vehicle closing element in order to determine the presence of an obstacle in the displacement path of the vehicle closing element.

The present invention relates to methods for controlling a capacitive anti-trap system of a vehicle. At least two transmission electrodes and one reception electrode of the capacitive anti-trap system are used for detecting an obstacle, and an electrical field is generated by a pair comprising transmission electrode and reception electrode by actuation of the respective transmission electrode by alternating electric current, said electrical field being influenced by an obstacle such that an electrical capacitance is measurably changed. A changing electrical capacitance is determinable on the basis of a signal received via the reception electrode and this signal is evaluated by means of an electronic evaluation unit at least during closing of the vehicle closing element in order to determine the presence of an obstacle in the displacement path of the vehicle closing element.

A method for adjusting an adjusting part on a vehicle, wherein a possible obstacle in an adjustment path of the adjusting part which is to be adjusted can be detected by means of at least one sensor device, in order to block, stop and/or reverse an adjustment movement of the adjusting part. There is provision that at least one status indicator for the at least one sensor device is generated electronically, by means of which data indicator at least two different first and second operating states of the sensor device can be signaled, and for the adjustment movement of the adjusting part at least one current status information item of at least two different status information items relating to the current operating state of the at least one sensor device is signaled in accordance with the status indicator, in order to be perceived by a user.

An object detection sensor according to an embodiment comprises: a sensing layer including a resin and a carbon micro-coil inside the resin; and a sensing electrode embedded in the sensing layer, wherein the impedance value of the sensing layer changes on the basis of the reference impedance as an object approaches the pre-set sensing area.

An entrapment detection sensor that detects entrapment caused by an opening/closing body includes an anode sensor electrode and a cathode sensor electrode. The anode sensor electrode is set on the opening/closing body at a location where entrapment caused by the opening/closing body occurs. The cathode sensor electrode is set on the opening/closing body at a location spaced apart by a gap from the anode sensor electrode. The entrapment detection sensor detects a charged object that approaches the anode sensor electrode as an entrapment subject and cancels detection of the charged object that approaches the cathode sensor electrode.