Vehicle door unlocking control methods, apparatuses, and systems for vehicles. The vehicle door unlocking control method can be carried out by the apparatuses and systems and includes: obtaining an acquisition trigger signal; controlling, based on the acquisition trigger signal, a first camera assembly disposed on a vehicle to acquire a first face image of a user; performing feature matching between the first face image and a pre-stored second face image; performing living body detection on the first face image; and sending a vehicle door unlocking instruction to at least one vehicle door lock of the vehicle in response to successful feature matching and successful living body detection. This door unlocking solution may be used to provide face-based vehicle door opening in a safe, convenient and reliable manner.

An accessory mounting system for mounting an accessory on a vehicle is provided. The mounting system includes a stacking assembly having a support structure adapted to be coupled to the vehicle and which includes a first support segment and a second support segment respectively provided with interlocking sections adapted to slidably engage one another to selectively define a length of the support structure. The stacking assembly also includes a support segment latch adapted to selectively secure the first support segment and the second support segment together and block movement of the first support segment and of the second support segment along the longitudinal axis. The stacking assembly further includes a pair of mounting fixtures connected at opposite ends of the support structure, and to which the accessory is adapted to be coupled to in order to mount the accessory to the vehicle.

A door latch assembly, includes: a catch support assembly, the catch support assembly including a strike body having a pin receiving aperture therein; a catch arm assembly rotatably mounted to the catch support assembly; a latch pin positioned in the pin receiving aperture and movable between a retracted position and an extended position, the latch pin protruding above the strike body in the extended position to impede rotational movement of the catch arm assembly; and a first roller mounted to the catch arm assembly and configured to engage a first side of the latch pin in the extended position; and a second roller mounted to the catch support assembly and configured to engage a second side of the latch pin in the extended position. The latch pin includes a material having a hardness of 60 Rockwell C or more, the first roller includes a material having a hardness of 33 Rockwell C or less, and the second roller includes a material having a hardness of 60 Rockwell C or more.

A door latch assembly, includes: a catch support assembly, the catch support assembly including a strike body having a pin receiving aperture therein; a catch arm assembly rotatably mounted to the catch support assembly; a latch pin positioned in the pin receiving aperture and movable between a retracted position and an extended position, the latch pin protruding above the strike body in the extended position to impede rotational movement of the catch arm assembly; and a first roller mounted to the catch arm assembly and configured to engage a first side of the latch pin in the extended position; and a second roller mounted to the catch support assembly and configured to engage a second side of the latch pin in the extended position. The latch pin includes a material having a hardness of 60 Rockwell C or more, the first roller includes a material having a hardness of 33 Rockwell C or less, and the second roller includes a material having a hardness of 60 Rockwell C or more.

A latch mechanism is configured to be shifted between a closed state in which a glove door is held on a compartment body at a closed position and an open state in which the glove door is not held on the compartment body. An operation lever is operated to shift the lock mechanism from the closed state to the open state. When the latch mechanism is shifted to the closed state, the first engaging member is engaged with the engagement hole. When the latch mechanism is shifted to the open state, the first engaging member is disengaged from the engagement hole. The compartment body includes an operation restriction wall that restricts operation of the first engaging member from the side surface of an instrument panel or the side surface of the compartment body so that the first engaging member is not disengaged from the engagement hole.

A latch mechanism is configured to be shifted between a closed state in which a glove door is held on a compartment body at a closed position and an open state in which the glove door is not held on the compartment body. An operation lever is operated to shift the lock mechanism from the closed state to the open state. When the latch mechanism is shifted to the closed state, the first engaging member is engaged with the engagement hole. When the latch mechanism is shifted to the open state, the first engaging member is disengaged from the engagement hole. The compartment body includes an operation restriction wall that restricts operation of the first engaging member from the side surface of an instrument panel or the side surface of the compartment body so that the first engaging member is not disengaged from the engagement hole.

A system for passive locking and unlocking a vehicle is described that includes a memory for storing executable instructions and a processor configured to execute the instructions to unlock the vehicle using a time of flight to transmit the trigger request between the vehicle and the first key fob. The processor receives, from a first key fob, a trigger request to unlock the vehicle, and determines, based key fob identifiers that identify the first key fob and a second key fob that is also near the vehicle, that the first and second key fobs are associated with a vehicle. The processor selects the first key fob based on a key fob characteristic. The processor evaluates the time of flight using the first key fob, and unlocks the vehicle based on the time of flight satisfying a threshold for signal transmission flight time.

A system for passive locking and unlocking a vehicle is described that includes a memory for storing executable instructions and a processor configured to execute the instructions to unlock the vehicle using a time of flight to transmit the trigger request between the vehicle and the first key fob. The processor receives, from a first key fob, a trigger request to unlock the vehicle, and determines, based key fob identifiers that identify the first key fob and a second key fob that is also near the vehicle, that the first and second key fobs are associated with a vehicle. The processor selects the first key fob based on a key fob characteristic. The processor evaluates the time of flight using the first key fob, and unlocks the vehicle based on the time of flight satisfying a threshold for signal transmission flight time.

An accessory mounting system for mounting an accessory on a vehicle is provided. The accessory mounting system includes a mounting assembly which has an elongated rail removably connectable to the vehicle. The elongated rail is provided with a slot extending therealong and which opens on a top surface of the elongated rail. The mounting assembly also includes a connector having a head portion slidably mounted within the slot, and a shank portion extending from the head and vertically above the top surface of the elongated rail. The mounting assembly also has a mounting fixture connectable to the connector and adapted to selectively have a portion of the accessory be connected thereto, the mounting fixture is connected to the connector in a manner such that moving the connector along the slot correspondingly displaces the mounting fixture along the elongated rail to adjust the position of the accessory on the vehicle.

An accessory mounting system for mounting an accessory on a vehicle is provided. The mounting system includes a stacking assembly having a support structure adapted to be coupled to the vehicle and which includes a first support segment and a second support segment respectively provided with interlocking sections adapted to slidably engage one another to selectively define a length of the support structure. The stacking assembly also includes a support segment latch adapted to selectively secure the first support segment and the second support segment together and block movement of the first support segment and of the second support segment along the longitudinal axis. The stacking assembly further includes a pair of mounting fixtures connected at opposite ends of the support structure, and to which the accessory is adapted to be coupled to in order to mount the accessory to the vehicle.