A system for displaying contextually-sensitive braking information on a surface of a vehicle is presented. The system may include a transceiver, one or more memories, an electronic display disposed on the surface, and one or more processors. The one or more processors may be configured to detect a braking event of the vehicle, wherein the braking event has an associated braking force. The one or more processors may compare the braking force to a predetermined threshold braking force to determine whether the braking force exceeds the threshold braking force. The one or more processors may further cause the electronic display to display a braking indication having an intensity that is proportional to the braking force, wherein the braking indication may include a braking rationale corresponding to the braking event in response to determining that the braking force exceeds the threshold braking force.

A method for estimating the temperature of a component being monitored is described herein, comprising: inputting data related to the component being monitored into a brake thermal model; using the brake thermal model to predict a temperature of the component based on the input data; inputting a) actual temperature sensor measurement data of the component and b) the predicted temperature into an estimation algorithm, wherein the estimation algorithm combines the a) actual temperature sensor data and b) predicted temperature and generates an estimated brake temperature of the component based on the combined inputs. A computer-implemented system is also described.

A method for operating a brake system. A brake request signal characterizing a brake request is generated by actuating a positioner system of an actuating circuit, and a setpoint brake pressure required in an active circuit is ascertained based on the brake request signal. An actual brake pressure is set in the active circuit according to the setpoint brake pressure using a pressure generation device by moving a displacement piston using an electric motor to actuate a wheel brake coupled with the active circuit. Under the condition that the brake request signal is constant over a predefined period of time, a pressure modulation is carried out, which includes setting the actual brake pressure in the active circuit to a value that is greater than the setpoint brake pressure, and lowering the actual brake pressure by moving the displacement piston using the electric motor until the setpoint brake pressure is reached.

A component life prediction system configured to predict the remaining life of a consumable component installed on an aircraft. The system includes a processor configured to: receive wear information indicative of a current wear state of the component; receive schedule information indicative of a future flight schedule for the aircraft; and determine the remaining life of the component based on the received wear information and the received schedule information.

A sensor arrangement for a braking system of a vehicle is disclosed comprising a connection interface, a control unit, and a sensor. The sensor has an external interface with electrical contacts via which the sensor is connected to the control unit. The control unit is connected to and supplied with power via the connection interface and exchanges data with a higher-level unit via the connection interface. The sensor is provided power via the electrical contact points and provides electrical output signals via the electrical contact points. A first contact point provides a first electrical output signal and is connected to the connection interface via a first switching element such that the first contact point is connected to the connection interface when the first switching element is in the deenergized state and is disconnected from the connection interface when the first switching element is in the energized state.

A control system for a vehicle having vehicle wheels comprises: brakes, wherein each of the brakes applies individual braking to a respective one of the vehicle wheels; memory storing brake characteristic parameters for controlling each of the brakes; and a processor configured to: calculate anticipated yaw, steering torque, and deceleration of the vehicle, associated with operation of the brakes; compare between the anticipated yaw and actual yaw of the vehicle, between the anticipated steering torque and actual steering torque of the vehicle, and between the anticipated deceleration and actual deceleration of the vehicle; and calibrate the brakes by adjusting the stored brake characteristic parameters of each of the brakes in response to a yaw difference between the anticipated yaw and the actual yaw, a steering torque difference between the anticipated steering torque and the actual steering torque, and a deceleration difference between the anticipated deceleration and the actual deceleration.

The disclosure relates to a method for testing a shuttle valve in a pneumatic system, wherein the shuttle valve has a first shuttle valve port, a second shuttle valve port and a third shuttle valve port, wherein the higher of the pressures prevailing at the first shuttle valve port and second shuttle valve port is modulated at the third shuttle valve port in each case, wherein the method includes the steps: a) modulating a first pressure at the first shuttle valve port; b) ascertaining a value, which is indicative of the first pressure, at the first shuttle valve port; and c) comparing the value indicative of the first pressure with a first predetermined comparison value provided for this, and, in the event of a deviation greater than a first tolerance: ascertaining and/or outputting a fault of the shuttle valve.

The ABS diagnostic tool is an electrical apparatus. The ABS diagnostic tool is configured for use with a vehicle. The vehicle further comprises an anti-skid braking system (ABS). The ABS forms the brake system of the vehicle. The ABS diagnostic tool is an interface device that electrically connects to the ABS. The ABS diagnostic tool provides electrical access to key elements of the ABS that allows for the use of electric tools, such as a multi-meter, in diagnosing maintenance issues associated with the ABS. The ABS diagnostic tool comprises a breakout circuit and the vehicle. The breakout circuit plugs into the ABS. The interface presented by the breakout circuits presents a plurality of terminal sets which are electrically accessible.

A wheel speed sensor for a vehicle may include: a rotating part; an encoder unit mounted on the rotating part, and rotated by the rotating part; a plurality of sensing units configured to sense a signal from the encoder unit; and a compensation unit disposed between the sensing unit and the encoder unit, and configured to compensated or offset the signal from the encoder unit.

A control system is provided that may include a controller for a vehicle system. The controller may include one or more processors configured to obtain at least one first operating parameter related to an operating system of the vehicle system, and determine an operating condition of the operating system based at least in part on the first operating parameter. The one or more processors may also be configured to communicate with an off-board sensor to obtain at least one auxiliary operating parameter related to the operating condition, and verify the operating condition based at least in part on the auxiliary operating parameter.