A brake controller is applied to a vehicle that includes a tractor and a trailer. The brake controller includes a first braking unit that controls a first brake device, a second braking unit that controls a second brake device, a distance sensor that detects a distance between the vehicle and an object, an execution unit that controls the first braking unit and the second braking unit in accordance with the distance detected by the distance sensor and executes an automatic brake control, and a prohibition unit that prohibits the execution unit from executing the automatic brake control. The brake controller prohibits execution of the automatic brake control under the condition that the tractor and the trailer are coupled to each other and the second braking unit includes a failure.

A coupling access device for a semi-trailer includes: a cover mechanism to cover an air hose coupling for pneumatic brakes of the semi-trailer, the cover mechanism to restrict access to the air hose coupling when in a closed position, and the cover mechanism to provide access to the air hose coupling when in an open position; a lock device to engage the cover mechanism in the closed position; and a controller to actuate the lock device to allow the cover mechanism to transition from the closed position to the open position.

A door access device for a semi-trailer includes: a lock device to control access to the semi-trailer and a controller for the lock device. The lock device includes a door lock at a door of the semi-trailer, the lock device to be electrically actuated to lock and unlock the door. The controller programmed to: determine that a semi-tractor has established an electrical connection with the semi-trailer; determine whether the semi-tractor is authorized to connect to the semi-trailer; and, in response to a determination that the semi-trailer is authorized to connect to the semi-trailer, actuate the lock device to unlock the door.

Methods and systems to assist maneuvering of a trailer being towed by a vehicle. The trailer includes a left wheel, a right wheel, an axle, a left brake device coupled to the left wheel, and a right brake device coupled to the right wheel. The methods and systems receive a driver command for a target path for the trailer, determine a left braking torque for the left wheel and a right braking torque for the right wheel based on the target path so as to provide for differential braking, and apply, via the left brake device and the right brake device, the left braking torque and the right braking torque to assist maneuvering of the trailer along the target path.

An electric trailer with regenerative braking is adaptive to both EV and ICE tractors, extending towing range of such vehicles, coordinating with performance characteristics of a tractor for maximum tractor-trailer efficiency. Differential electrical control of wheel drives provides enhanced performance safety and driving control. Embodiments optimize performance using real-time road conditions and terrain information. The trailer provides fail-safe operation in the event of system malfunction.

A tow bar assembly for use in connecting a towing vehicle to a towed vehicle. The tow bar assembly includes a drawbar and a housing assembly capable of being configured with a supplemental braking system. A connector secures the housing to a tow hitch member, such that two separate, non-planar perpendicular axes of pivotal rotation are created. The tow hitch assembly includes at least one arm with an inner and outer portion, wherein the inner portion rotates about a central axis relative to the inner portion within the outer portion. A fourth pivotal axis is created by a connection of mounting brackets to the tow hitch member.

A trailer braking system having a surge component used in combination with an electric over hydraulic brake system. The surge component includes a sliding member with a magnetic sensor for detecting trailer deceleration, the sliding member providing an initial pressurization of the hydraulic system. A trailer mounted electrical circuit detects when the tow vehicle brakes are applied and includes a microcontroller for detecting the speed of deceleration provided by the magnetic sensor. A trailer mounted electric motor receives a signal from the circuit board to vary pressure to the brakes in accordance with the speed of deceleration.

An electric trailer with regenerative braking is adaptive to both EV and ICE tractors, extending towing range of such vehicles, coordinating with performance characteristics of a tractor for maximum tractor-trailer efficiency. Differential electrical control of wheel drives provides enhanced performance safety and driving control. Embodiments optimize performance using real-time road conditions and terrain information. The trailer provides fail-safe operation in the event of system malfunction.

Systems and methods for coordinating and providing braking assistance between towing vehicles and towed vehicles during towing events, such as bidirectional charging towing events, are provided. The towing braking assistance may be provided by the towed vehicle in the form of an assistive braking torque output to assist the towing vehicle with meeting a target deceleration rate during the towing event. The assistive braking torque output may be provided to account for mutual vehicle deceleration events, brake compensation or brake fade events, and stability events of the coupled vehicles during the towing events, for example.

An intelligent system for controlling driving of an aircraft tow tractor by means of combination of voice and vision includes an audio transmission line, a voice recognition system, a visual recognition system, and a vehicle-mounted motion controller. According to the intelligent system, visual recognition is performed based on a belly-mounted anti-collision light on an aircraft, a taxi light, and the visual recognition system on an aircraft tow tractor, and the aircraft tow tractor is intelligently controlled by means of combination of voice recognition and the visual recognition; furthermore, the aircraft tow tractor is intelligently controlled by voices of flight crew via the audio transmission line, safety in a towing process is guaranteed by the visual recognition, and each step in the towing process is performed by means of a cross validation based on the voice recognition and the visual recognition.