A system includes a switch biased to a neutral position, a camera, and a computer communicatively coupled to the switch and the camera. The computer is programmed to activate a vehicle brake upon receiving data from the switch that the switch is in the neutral position and to activate the vehicle brake upon determining that an operator of the switch is in an inattentive state based on data received from the camera.

A system includes a switch biased to a neutral position, a camera, and a computer communicatively coupled to the switch and the camera. The computer is programmed to activate a vehicle brake upon receiving data from the switch that the switch is in the neutral position and to activate the vehicle brake upon determining that an operator of the switch is in an inattentive state based on data received from the camera.

An electromechanical brake booster for a motor vehicle, at least one support element being fastened on a gear unit housing bottom of the gear unit, which extends along its respective longitudinal axis, a bearing device being situated on the spindle, which supports the spindle on the least one support element in such away that the bearing device is able to guide the spindle, which is set into translatory motion, at a distance from the first support element along the at least one support element. A brake system is also described.

An electromechanical brake booster for a motor vehicle, at least one support element being fastened on a gear unit housing bottom of the gear unit, which extends along its respective longitudinal axis, a bearing device being situated on the spindle, which supports the spindle on the least one support element in such away that the bearing device is able to guide the spindle, which is set into translatory motion, at a distance from the first support element along the at least one support element. A brake system is also described.

A communication system includes wired communication devices onboard vehicles of a vehicle system, wireless communication devices disposed onboard other vehicles, and a controller. The controller remotely controls movement of some vehicles via communication with the wired communication devices and establishes a wireless communication link with other vehicles. The controller remotely controls movement of the other vehicles via wireless communication responsive to these vehicles being connected to the vehicle system for temporarily assisting in vehicle system movement along one or more routes. These vehicles are configured to be disconnected from wired communication with the other vehicles subsequent to being connected to the vehicle system. The wireless communication link is in addition to any wireless communication links established in the vehicle system prior to the one or more second vehicles being connected to the vehicle system.

A communication system includes wired communication devices onboard vehicles of a vehicle system, wireless communication devices disposed onboard other vehicles, and a controller. The controller remotely controls movement of some vehicles via communication with the wired communication devices and establishes a wireless communication link with other vehicles. The controller remotely controls movement of the other vehicles via wireless communication responsive to these vehicles being connected to the vehicle system for temporarily assisting in vehicle system movement along one or more routes. These vehicles are configured to be disconnected from wired communication with the other vehicles subsequent to being connected to the vehicle system. The wireless communication link is in addition to any wireless communication links established in the vehicle system prior to the one or more second vehicles being connected to the vehicle system.

A bearing device for an electromechanical brake booster, it being optionally possible to fasten the first sliding bearing in the first receiving opening when the second sliding bearing is float-mounted in the second receiving opening or to fasten the second sliding bearing in the second receiving opening when the first sliding bearing is float-mounted in the first receiving opening, and, if the first sliding bearing is fastened on a first fastening element, it being possible to situate the bearing device between the two support elements spaced apart by a first interspace, and, if the second sliding bearing is fastened on a second fastening element, it being possible to situate the bearing device between the two support elements spaced apart by a second interspace. An electromechanical brake booster for a motor vehicle is also described.

A bearing device for an electromechanical brake booster, it being optionally possible to fasten the first sliding bearing in the first receiving opening when the second sliding bearing is float-mounted in the second receiving opening or to fasten the second sliding bearing in the second receiving opening when the first sliding bearing is float-mounted in the first receiving opening, and, if the first sliding bearing is fastened on a first fastening element, it being possible to situate the bearing device between the two support elements spaced apart by a first interspace, and, if the second sliding bearing is fastened on a second fastening element, it being possible to situate the bearing device between the two support elements spaced apart by a second interspace. An electromechanical brake booster for a motor vehicle is also described.

There is provided an inexpensive pedal device in a compact and simple configuration of the one-pedal scheme, wherein the pedal device may be attached to an existing brake pedal without remodeling the brake pedal, wherein the pedal device does not cause the pedal stepping surface to project toward a driver, wherein an accelerator and a brake are operable with the driver's right heel in contact with the floor, wherein upon braking the pedal device always operates toward a direction to close the accelerator, and wherein the pedal device allows some deviation of a pedal-stepping position. A pedal device, comprising: a frame consisting of a bracket attachable to an existing brake pedal, and a base projecting rightward from the bracket; an accelerator pad attached to an upper surface of the base so that the accelerator pad is smoothly slidable rightward and leftward through a slide mechanism provided on the upper surface of the base; and a transmission unit for transmitting a position of the accelerator pad to an accelerator device of a vehicle, wherein the base is sloped downward toward the bracket, wherein the accelerator pad is shaped so that its stepping surface is not higher than a stepping surface of the brake pedal when the accelerator pad is at its leftmost position, wherein the accelerator pad comprises a biasing unit for biasing the accelerator pad leftward, and wherein the base is provided on the bracket at an angle so that the right end of the base is closer to a driver.

An electropneumatic control module for an electronically controllable pneumatic brake system for a vehicle combination with a tractor vehicle and a trailer vehicle includes a pneumatic reservoir input, which is connectable to a compressed-air reservoir, and a trailer control unit, which has a trailer control valve unit with one or more electropneumatic valves, a trailer brake pressure port and a trailer supply pressure port. The electropneumatic control module further includes an immobilizing brake unit, which has a spring-type actuator port for at least one spring-type actuator for a tractor vehicle and an immobilizing brake valve unit with one or more electropneumatic valves, and an electronic control unit, wherein the electronic control unit is designed to, based on an electronic immobilizing signal, trigger the immobilizing brake valve unit to switch at least one valve of the immobilizing brake valve unit.