The present application provides a touch-free door driving device initiated upon the affirmative action or command of a user. More specifically, a user a door driving device is provided which can open the door when the user is at a distant location and is approaching the door. This apparatus can be easily installed on either side of the door which is user friendly and easy installation with minimal steps such as anyone can install it at any door of any room. Additionally, in spite of the door thickness, the apparatus can be installed without drilling or using any sort of tool. Preferably, the door driving device is provided with sufficient pull and push torque without any stoppage.

In one aspect, a remote server computer is provided for facilitating operation of movable barrier operator systems having imminent motion notification apparatuses. The remote server computer includes a processor, a memory, and a network interface for communicating state change commands to the movable barrier operator systems via a network. The remote server computer is configured to receive a confirmation indicating that a sensor check has been performed to test sensors of those systems. Upon receiving a state change request from a remote control associated with a movable barrier operator system, the processor may determine whether the confirmation has been received for that system, and if so, causes communication of an attended command signal that inhibits operation of an imminent motion notification apparatus of the movable barrier operator system. Otherwise, the remote server computer may communicate an unattended command signal.

In one aspect, a remote server computer is provided for facilitating operation of movable barrier operator systems having imminent motion notification apparatuses. The remote server computer includes a processor, a memory, and a network interface for communicating state change commands to the movable barrier operator systems via a network. The remote server computer is configured to receive a confirmation indicating that a sensor check has been performed to test sensors of those systems. Upon receiving a state change request from a remote control associated with a movable barrier operator system, the processor may determine whether the confirmation has been received for that system, and if so, causes communication of an attended command signal that inhibits operation of an imminent motion notification apparatus of the movable barrier operator system. Otherwise, the remote server computer may communicate an unattended command signal.

A vehicle door opening/closing device including a drive mechanism for driving the opening/closing of a door of a vehicle; a first detector and second detector for detecting the distance to an item to be detected which is positioned in a first detection range outside the vehicle or a second detection range which is closer than the first detection range; and a controller for controlling the drive mechanism, based on the detection results of the detectors. The controller prepares for the opening/closing of the door by the drive mechanism, by having the first and second detectors detect that an item to be detected has moved from the start area which is an area that overlaps the first detection range, to a trigger area which is an area that overlaps the second detection range, in the range of operation at a predetermined interval in the width direction of the vehicle.

A vehicle door opening/closing device including a drive mechanism for driving the opening/closing of a door of a vehicle; a first detector and second detector for detecting the distance to an item to be detected which is positioned in a first detection range outside the vehicle or a second detection range which is closer than the first detection range; and a controller for controlling the drive mechanism, based on the detection results of the detectors. The controller prepares for the opening/closing of the door by the drive mechanism, by having the first and second detectors detect that an item to be detected has moved from the start area which is an area that overlaps the first detection range, to a trigger area which is an area that overlaps the second detection range, in the range of operation at a predetermined interval in the width direction of the vehicle.

One embodiment relates to an exit device assembly. The exit device assembly includes a center case, a push pad movably mounted on the center case, and a mechanical case coupled to the center case, wherein the exit device includes an opening. The assembly also includes a sensor aligned with the opening, wherein the sensor is structured to detect a user from a distance through the opening and to generate an output signal in response to detecting the user. The assembly also includes a latch and a latch actuator. The assembly also includes a controller in communication with the sensor and the latch actuator, wherein the controller is structured to transmit an actuating signal in response to receiving the output signal from the sensor, wherein the latch actuator is configured to move the latch from the locked position to the unlocked position in response to the actuating signal.

One embodiment relates to an exit device assembly. The exit device assembly includes a center case, a push pad movably mounted on the center case, and a mechanical case coupled to the center case, wherein the exit device includes an opening. The assembly also includes a sensor aligned with the opening, wherein the sensor is structured to detect a user from a distance through the opening and to generate an output signal in response to detecting the user. The assembly also includes a latch and a latch actuator. The assembly also includes a controller in communication with the sensor and the latch actuator, wherein the controller is structured to transmit an actuating signal in response to receiving the output signal from the sensor, wherein the latch actuator is configured to move the latch from the locked position to the unlocked position in response to the actuating signal.

A method performed by an image capture device. The method includes determining whether to send a notification or determining whether to open a door based at least in part on at least one image captured by the image capture device.

The present invention relates to a garage door emergency ventilation system primarily comprised of at least one track, at least one screen assembly, and at least one control module. The system can be attached to a panel of a garage door, wherein the control module has at least one sensor that preferably detects carbon monoxide. Once the sensor has detected carbon monoxide above a threshold value, the control module communicates with a motor to retract a fastener from an inner track within the track that is attached to the screen assembly. At the same time, the control module communicates with a garage door opener of the garage door to open the garage door. The screen assembly falls downward to cover the opening left by the opened garage door. The screen assembly further prevents individuals from getting into the garage while allowing carbon monoxide gas to vent from the garage.

An independent add-on automated vehicle lift gate system utilizing existing key fob authentication circuits in combination with an independent voice control system. The system uses microphones in connection with audio acquisition hardware and voice recognition hardware that actively listen for one or more voiced commands from a user outside of a vehicle. Before activating the mechanical system, which is for example the actuator of the lift gate and lock mechanism for the lift gate, the system will wait for confirmation from a separate vehicle system that monitors and notifies the vehicle lift gate system when an identification code is received from a key fob transponder located in a predetermined proximity of the vehicle, thereby authenticating the one or more voiced commands detected by the microphones.