A system is disclosed for controlling operation of a motor-driven brake boost assist system of a vehicle braking system during a loss of battery power to the brake boost assist system. The system makes use of a brake boost assist system including a motor, an electronic control unit (ECU) for controlling operation of the brake boost assist system, and a detection system. The detection system is responsive to a transition edge of a VBATTERY signal powering the motor. The detection system is configured to generate a wakeup pulse in response to detecting the transition edge. The wakeup pulse is applied to the ECU to wake up the ECU in the event of a momentary power loss to the ECU.

A system for detecting if a hitch connecting a trailer and a vehicle is not secure. The system comprises a sensor, an output device, and electronic control unit. The electronic control unit receives information about the hitch connecting the trailer and the vehicle from the sensor. The electronic control unit detects if the hitch connecting the trailer and the vehicle is not secure. If the hitch connecting the trailer and the vehicle is not secure the electronic control unit generates a driver notification and controls the vehicle's motion.

A system for detecting if a hitch connecting a trailer and a vehicle is not secure. The system comprises a sensor, an output device, and electronic control unit. The electronic control unit receives information about the hitch connecting the trailer and the vehicle from the sensor. The electronic control unit detects if the hitch connecting the trailer and the vehicle is not secure. If the hitch connecting the trailer and the vehicle is not secure the electronic control unit generates a driver notification and controls the vehicle's motion.

A method for controlling an actuatable safety device for protecting an occupant of a vehicle includes utilizing an advanced driver assistance system (ADAS) to determine that a vehicle collision is impending. In response to determining the existence of an impending vehicle collision, a mass spring damper model uses sensed vehicle longitudinal acceleration (IMU_X) to estimate the occupant movement that will result from the impending vehicle collision. The estimated occupant movement is used to determine how to control deployment of an actuatable safety device in response to the crash.

A method for controlling an actuatable safety device for protecting an occupant of a vehicle includes utilizing an advanced driver assistance system (ADAS) to determine that a vehicle collision is impending. In response to determining the existence of an impending vehicle collision, a mass spring damper model uses sensed vehicle longitudinal acceleration (IMU_X) to estimate the occupant movement that will result from the impending vehicle collision. The estimated occupant movement is used to determine how to control deployment of an actuatable safety device in response to the crash.

A safety system for a train equipped with an ECP air brake arrangement, in which the train includes at least one locomotive and at least one railcar connected to a trainline network, the system including: at least one power supply; at least one power supply controller to communicate over the trainline network and control the at least one power supply; at least one local controller to: communicate over the trainline network; receive or determine railcar data including a condition or parameter associated with the at least one railcar; and, based at least partially on the railcar data, generate at least one first message to deactivate the at least one power supply. A computer-implemented method for monitoring and responding to at least one railcar's derailment is also disclosed.

A safety system for a train equipped with an ECP air brake arrangement, in which the train includes at least one locomotive and at least one railcar connected to a trainline network, the system including: at least one power supply; at least one power supply controller to communicate over the trainline network and control the at least one power supply; at least one local controller to: communicate over the trainline network; receive or determine railcar data including a condition or parameter associated with the at least one railcar; and, based at least partially on the railcar data, generate at least one first message to deactivate the at least one power supply. A computer-implemented method for monitoring and responding to at least one railcar's derailment is also disclosed.

The electric brake device includes a control device for performing follow-up control such that a braking force estimated value estimated by a braking force estimator follows a given braking force command value. The control device includes an angle-sensorless control function section for determining a phase of phase current of an electric motor irrespective of an actual angle of the electric motor and controlling the electric motor to have a current value that is based on the determined phase of the phase current. The angle-sensorless control function section includes a current phase determination section for determining a current phase that is the phase of the phase current of the electric motor on the basis of a deviation between the braking force command value and the braking force estimated value.

Systems and methods for braking a vehicle. The method includes receiving, with an electronic controller, a signal from a mode activation indicating the vehicle is in a first mode and receiving, with the electronic controller, a signal from an input mechanism. If the vehicle is in the first mode and an operator of the vehicle actuates the input mechanism, the electronic controller sends a signal to a brake of the vehicle to lock up a wheel of the vehicle.

Systems and methods for braking a vehicle. The method includes receiving, with an electronic controller, a signal from a mode activation indicating the vehicle is in a first mode and receiving, with the electronic controller, a signal from an input mechanism. If the vehicle is in the first mode and an operator of the vehicle actuates the input mechanism, the electronic controller sends a signal to a brake of the vehicle to lock up a wheel of the vehicle.