An object-sensing bumper extension comprises a durable and flexible material. The bumper extension is connected to the bumper of a vehicle such as a lift truck to detect encroachment and/or impact between the vehicle and an operator or other object. A non-contact sensor detects encroachment of an object within an impact danger zone arranged immediately in front of and near the sides of the vehicle. An impact sensor detects impact between the vehicle and an object. A control system receives sensor signals and initiates a reaction operation of the vehicle in response to sensor activity. The reaction operation can include slowing the vehicle down, stopping the vehicle, and/or reversing the vehicle. The bumper extension can include a plurality of outwardly angled, substantially parallel ridges that deform outwardly and downwardly to push an impacted object away from danger and to fill a gap between the vehicle and the ground.

A vehicle accessory includes a body portion. The body portion is made substantially of aluminum composite material. The vehicle accessory further includes at least one connector for selectively attaching the body portion to a portion of an automobile. The body portion includes a front edge and a rear edge. The front edge is curved along at least a portion thereof. The front and rear edges are laterally opposed from each other. The rear edge extends substantially linearly from a first corner to a second corner. The first and second corners are formed at junctions between the front edge and the rear edge.

A vehicle accessory includes a body portion. The body portion is made substantially of aluminum composite material. The vehicle accessory further includes at least one connector for selectively attaching the body portion to a portion of an automobile. The body portion includes a front edge and a rear edge. The front edge is curved along at least a portion thereof. The front and rear edges are laterally opposed from each other. The rear edge extends substantially linearly from a first corner to a second corner. The first and second corners are formed at junctions between the front edge and the rear edge.

A retractable step and side bar assembly that can be used for raised vehicles, such as trucks. The retractable step can be configured to provide for significant reach in a deployed position to allow for a user to enter the raised vehicle. Further, in the stowed position the retractable step can be located within the side bar, thereby providing a low profile as well as an enhanced aesthetic appearance.

A retractable step and side bar assembly that can be used for raised vehicles, such as trucks. The retractable step can be configured to provide for significant reach in a deployed position to allow for a user to enter the raised vehicle. Further, in the stowed position the retractable step can be located within the side bar, thereby providing a low profile as well as an enhanced aesthetic appearance.

A shock absorber for a vehicle, the shock absorber having an absorber body with an outer surface, and a movable piston having a first end configured to couple with the vehicle, and a second end disposed within the absorber body. There is a magnet assembly disposed around and external of the movable piston at the second end. The absorber has a sensor assembly having a sensor body coupled with the outer surface. An inner sensor body has a sensor disposed therein configured to detect a change in a linear position of the magnet assembly.

A shock absorber for a vehicle, the shock absorber having an absorber body with an outer surface, and a movable piston having a first end configured to couple with the vehicle, and a second end disposed within the absorber body. There is a magnet assembly disposed around and external of the movable piston at the second end. The absorber has a sensor assembly having a sensor body coupled with the outer surface. An inner sensor body has a sensor disposed therein configured to detect a change in a linear position of the magnet assembly.

An autonomous dock system for a vehicle, comprises a control system with instructions comprising steps for receiving a request to implement an autonomous dock routine. A vehicle speed and clutch position are calculated. A clutch position controller is commanded to maintain the calculated clutch position. An actual torque amount is iteratively detected as transferred across the clutch. A vehicle speed-control mechanism is commanded to maintain the calculated vehicle speed, and the actual vehicle speed is iteratively detected. When comparing the commanded vehicle speed to the detected actual vehicle speed indicates that the detected actual vehicle speed is below a speed threshold, and when the actual torque amount transferred across the clutch exceeds a torque threshold, the control system commands an increase in vehicle speed.

An autonomous dock system for a vehicle, comprises a control system with instructions comprising steps for receiving a request to implement an autonomous dock routine. A vehicle speed and clutch position are calculated. A clutch position controller is commanded to maintain the calculated clutch position. An actual torque amount is iteratively detected as transferred across the clutch. A vehicle speed-control mechanism is commanded to maintain the calculated vehicle speed, and the actual vehicle speed is iteratively detected. When comparing the commanded vehicle speed to the detected actual vehicle speed indicates that the detected actual vehicle speed is below a speed threshold, and when the actual torque amount transferred across the clutch exceeds a torque threshold, the control system commands an increase in vehicle speed.

A sensor mounting structure includes: a sensor body that detects peripheral information in relation to a vehicle; and a housing that is formed in a box shape, covers the sensor body from an outer side, and is attached to an outer panel of the vehicle, wherein fastening portions extend from wall surfaces of the housing at one end side and another end side in a direction along the outer panel, and the fastening portions are fastened to the outer panel by fastening members.