The present invention relates to a door operator (1) and to a method performed in a door operator system (100) comprising a door operator (1) connected to and arranged to move at least one door leaf (5) between an open and closed position, the door operator (1) comprising a control unit (3) configured to control the movement of the at least one door leaf (5), the method comprising: obtaining (S100), in a sleep mode of the door operator system (100), a sequence of input data in one or more components of the door operator (1) or the at least one door leaf (5), receiving (S110), in the control unit (3) of the door operator (1), said sequence of input data from the one or more components, and evaluating (S120) said sequence of input data and ranking (S130) the probability of that said sequence of input data corresponds to an intrusion attempt on the door operator system (100).

A control arrangement for an entrance system has one or more movable door members and an automatic door operator for causing movements of the one or more movable door members between closed and open positions. The door members comprise one or more swing doors. The control arrangement comprises a controller and a plurality of sensors. Each sensor is connected to the controller and is configured to monitor a respective zone at the entrance system for presence or activity of a person or object. Each sensor has an active mode and an inactive mode, wherein the sensor consumes no electric power in the inactive mode or substantially less electric power in the inactive mode than in the active mode. The controller is configured to determine a current operational state of the entrance system among a plurality of possible operational states, and selectively cause at least one of the sensors to be in its active mode or in its inactive mode depending on the determined current operational state of the entrance system.

Methods and systems are provided for an automated door system for a vehicle. In one example, the automated door system may include a key fob configured with a transmitter. A set of sensors may be located at a door of the vehicle which may be communicatively linked to a vehicle control unit. A position of the key fob relative to the door may be monitored by the set of sensors to provide hands-free actuation of the door motor.

Methods and systems are provided for an automated door system for a vehicle. In one example, the method for a vehicle may include operating an automated door system to enable hands-free actuation of a set of door vehicles while the height of the vehicle is not changing and when the vehicle height is changing, suspending operation of the automated door system until the floor has stopped changing height.

A power-supply control system includes: a lock control unit that controls a door-lock device; and a travel control unit that controls a travel operating unit related to either driving the power of the vehicle, braking the vehicle, or steering the vehicle. A lock high-level control unit, in a state in which supply of electric power to the lock control unit, the travel operating unit, and the travel control unit is stopped, while the first trigger signal is not outputted from an operation unit, makes electric power not be supplied from a power supply to the lock control unit, the travel operating unit, and the travel control unit, and when the first trigger signal is outputted, starts to supply electric power from the power supply to the lock control unit and the door-lock device and makes the lock control unit execute control to unlock the door-lock device.

A closure system including a curtain configured to seal an opening, a wireless network having a plurality of channels, at least one transmitter coupled to the curtain and configured to communicate over the plurality of channels, and an operator operatively coupled to the curtain and configured to communicate over the plurality of channels, the operator and the at least one transmitter configured to communicate with each other over a selected one of the plurality of channels based upon communication interference detected on one or more channels.

A vehicle exit assist apparatus includes: a right BSM ECU configured to issue a warning when a moving object approaching an own vehicle is detected; and a message uttering device including an amplifier and a speaker configured to operate by electric power supplied from an in-vehicle battery, and being configured to utter a sound message in accordance with control of the right BSM ECU. The right BSM ECU is configured to supply electric power to the message uttering device when a generator configured to charge the in-vehicle battery is operating, and bring the power supply to the message uttering device to an OFF state when a predetermined condition is satisfied after the generator is stopped.

A vehicle door assembly may include a vehicle door pivotally arranged on a vehicle body, a drive motor for electromotively adjusting the vehicle door, a transmission element for producing a flux of force between the vehicle door and the vehicle body to adjust the vehicle door relative to the vehicle body, and a control device for controlling the drive motor. The control device may be configured to provide an anti-pinch protection. An acceleration sensor may be arranged on the vehicle door for measuring the acceleration of the vehicle door.

A drive for a leaf of a door, window, or the like, including a mechanical energy store (16) configured to store energy during an opening movement of the leaf and expend energy during a closing movement of the leaf, an electric motor (18) operatively connected to the leaf via a motor shaft (20), the electric motor (18) operated as a generator to dampen the opening movement and the closing movement. The electric motor including a control unit configured to control the electric motor, wherein a drive behavior of the control unit is repeatedly and variably adaptable to a current need of a user.

A vehicle component has a sensor device that includes a sensor for detecting a characteristic parameter for an obstacle in the vicinity of the vehicle, for example an obstacle in a movement area of the door. The damper device can be actuated in a manner which is dependent on the parameter. A monitoring device is provided which, in order to detect a characteristic parameter for a manipulation of the vehicle, for example damage of a vehicle exterior shell or removal of a vehicle interior compartment, is operatively connected to the sensor device, in order for the latter to be interrogated.