A vehicle-mounted display device includes a switching mechanism disposed in the slide door and having a support frame on which a display screen is fixed. The support frame is switchable between a display-folded position in which the display screen is folded and a display-unfolded position in which the display screen is unfolded; and a door-open detector that detects whether a door-open command signal indicating that the slide door is going to be opened is received. When the door-open detector receives the door-open command signal, the support frame is switched from the display-unfolded position to the display-folded position, a screen surface or a back surface of the display screen and the inner side of the slide door are facing each other in the left-right direction in the display-folded position, and the display screen is in the display-folded position at least when the slide door is in the door-opened position.

A mobile hearable device for communicating with a vehicle control system is described. The mobile hearable device includes a microphone, and a wireless transceiver configured as one of a near field magnetic induction (NFMI) transceiver and a near field electromagnetic induction (NFEMI) transceiver. The mobile hearable device includes a processor coupled to the transceiver and the microphone. The processor receives a location identifier via the transceiver from a location identification transmitter located in a vehicle, the location identification transmitter is configured as one of a NFMI transmitter and a NFEMI transmitter. If the processor receives a speech signal from a user of the mobile hearable device, it determines whether the speech signal includes an actuator control command and generates a control instruction comprising the actuator control command and the location identifier. The control instruction is transmitted to a vehicle control system and used to control an actuator in a vehicle dependent on the location of the person using the mobile hearable device.

A parcel receptacle includes a bottom member, an exterior wall that extends upward from the bottom member and that defines an interior space, and a top member that is coupled with the exterior wall and configured to cover an opening of the receptacle to enclose the parcel within the interior space. The parcel receptacle also includes a lock mechanism that is operably coupled with the top member and the exterior wall. The lock mechanism is lockable to prevent user access to the interior space and is unlockable to enable the top member to be opened to allow user access to the interior space. A vertical lip of the top member overlaps at least a portion of the exterior wall so that a seam between the top member and the exterior wall is covered by the vertical lip.

A landing gear system controller for controlling a landing gear system of an aircraft. The controller is configured to receive a request to operate a non-landing gear system element of the aircraft, and to cause operation of at least part of the landing gear system of the aircraft during a take-off or landing procedure on the basis of the request.

A movable barrier operator system including a movable barrier operator configured to be connected to a movable barrier and move the movable barrier. The system includes a remote control configured to utilize a first security protocol to wirelessly transmit a communication to the movable barrier operator and cause the movable barrier operator to move the movable barrier. The movable barrier operator is configured to receive information representative of a second security protocol and to eliminate a compatibility of the movable barrier operator with communications from the remote control utilizing the first security protocol.

The embodiments herein provide a secure package delivery and pick-up system. The system comprises a security door with several collapsible storage compartments for accommodating packages meant for delivery or pick-up. The size of the compartments are configured to accommodate packages of different sizes and weights. The system enables secure delivery and return pick-up of packages at unmanned location by using security measures such as electronic key generation, biometric identification, RFID, video cameras. The user is facilitated to monitor the delivery and pick-up activity remotely through a mobile application downloaded on the computing device. The system is easy to install and provides protection of the packages form theft or damages due to weather conditions. The system enables user to share secure electronic keys with other users for a predetermined duration for accessing the building through the secure door and for usage of the storage compartments.

The embodiments herein provide a secure package delivery and pick-up system. The system comprises a security door with several collapsible storage compartments for accommodating packages meant for delivery or pick-up. The size of the compartments are configured to accommodate packages of different sizes and weights. The system enables secure delivery and return pick-up of packages at unmanned location by using security measures such as electronic key generation, biometric identification, RFID, video cameras. The user is facilitated to monitor the delivery and pick-up activity remotely through a mobile application downloaded on the computing device. The system is easy to install and provides protection of the packages form theft or damages due to weather conditions. The system enables user to share secure electronic keys with other users for a predetermined duration for accessing the building through the secure door and for usage of the storage compartments.

A second step of opening a closed openable/closable roof starts before a first step of opening a closed storage compartment cover finishes, so that a distance between portions of the storage compartment cover and the openable/closable roof facing each other is shorter at a point in time when the storage compartment cover is fully opened in the first step than at any other point in time. A fifth step of closing the open openable/closable roof starts before a fourth step of opening the closed storage compartment cover finishes, so that a distance between portions of the storage compartment cover and the openable/closable roof facing each other is shorter at a point in time when the storage compartment cover is fully opened in the fourth step than at any other point in time.

The embodiments herein provide a secure package delivery and pick-up system. The system comprises a security door with several collapsible storage compartments for accommodating packages meant for delivery or pick-up. The size of the compartments are configured to accommodate packages of different sizes and weights. The system enables secure delivery and return pick-up of packages at unmanned location by using security measures such as electronic key generation, biometric identification, RFID, video cameras. The user is facilitated to monitor the delivery and pick-up activity remotely through a mobile application downloaded on the computing device. The system is easy to install and provides protection of the packages form theft or damages due to weather conditions. The system enables user to share secure electronic keys with other users for a predetermined duration for accessing the building through the secure door and for usage of the storage compartments.

A furniture drive system includes: a support for mounting the system on a furniture carcass; an actuating arm device movably mounted on the support and to be connected to the movable furniture part; an electric motor to be connected to the actuating arm device to move sections of the actuating arm device; a drive device separate from the electric motor for exerting a force on the actuating arm device; an adjusting device for adjusting the force to be exerted by the drive device; and a control device for controlling the electric motor. The control device has a determining device for determining the force to be exerted on the actuating arm device, and the drive device has a damping device to dampen a closing movement and/or an opening movement of the actuating arm device. The determining device is designed to perform a damper analysis of the damping device.