A transportation vehicle provides a brake autohold function to maintain braking without requiring the driver to continuously apply pressure on a brake pedal. The vehicle comprises an autohold selector, a parking brake selector, a brake pedal, and an accelerator pedal. A braking system is adapted to enter an autohold event according to a pressed brake pedal at vehicle standstill during an active autohold mode toggled by the autohold selector. A controller is configured to terminate the autohold event in response to either a deactivation command using the parking brake selector or accelerator pedal movement, without deactivating the autohold mode. By manually terminating the brake autohold event the vehicle can begin to creep forward using only the torque generated by the engine at idle, thereby avoiding the additional torque that is generated when the accelerator pedal is used to terminate the brake autohold event.

The intent to exit a vehicle when a driver attempts to exit a vehicle is detected by an exit intent detection unit, and regardless of whether or not the shift range other than the parking range is detected by a shift range detection unit, a securing control unit controls a vehicle securing unit and secures the vehicle when an intent to secure is detected by a securing intent detection unit. Thus, unintended vehicle movement after exiting is suppressed by securing the vehicle in a stopped state during exiting.

A vehicle includes an engine and a controller programmed to autostop and autostart the engine. The controller is further programmed to, in response to receiving signals indicative of a driver exiting the vehicle while the engine is auto stopped, autostart the engine, and after expiration of a predetermined duration, autostop the engine and inhibit vehicle propulsion until an ignition cycle is initiated.

A vehicle control device (a control unit 100) includes a neutral control unit (100b), a brake hold control unit (100c), and a switching control unit (100d) configured to switch, when a predetermined switching condition is satisfied during execution of brake hold control by the brake hold control unit (100c), application of braking force to at least a drive wheel by execution of the brake hold control to application of the braking force to at least some vehicle wheels by an electric parking brake device. The neutral control unit (100b) stops execution of neutral control upon switching by the switching control unit (100d).

An emergency vehicle control device, when an emergency vehicle stop switch is operated for an operation time threshold value or longer in a state where automatic vehicle stop control is not executed, determines that the automatic vehicle stop control is intended to be executed. Later, when the interval between the previous operation and the current operation of the emergency vehicle stop switch is within an operation interval threshold value, the determination that the automatic vehicle stop control is intended to be executed is sustained, whereas when the interval exceeds the operation interval threshold value and the emergency vehicle stop switch is operated for the operation time threshold value or longer, it is determined that the execution of the automatic vehicle stop control is intended to be cancelled.

Vehicles, systems, and methods for shifting a manual transmission into neutral during autonomous braking are provided. An exemplary system for shifting a vehicle into neutral during autonomous braking includes a manual transmission for transferring power from an engine to a differential using gears manually selected by a gear selector. Also, the system includes an actuator mounted to the vehicle and to the gear selector. Further, the system includes a controller coupled to the actuator and configured to direct the actuator to force the gear selector into neutral during an autonomous braking event.

Vehicles, systems, and methods for shifting a manual transmission into neutral during autonomous braking are provided. An exemplary system for shifting a vehicle into neutral during autonomous braking includes a manual transmission for transferring power from an engine to a differential using gears manually selected by a gear selector. Also, the system includes an actuator mounted to the vehicle and to the gear selector. Further, the system includes a controller coupled to the actuator and configured to direct the actuator to force the gear selector into neutral during an autonomous braking event.

A method for inspecting a vehicle on a site with a management system, including determining whether at least one vehicle on the site intends to make a departure from a stoppage place, generating a control command by the management system, and transmitting the control command to the inspection vehicle such that the inspection vehicle moves along an inspection path to the stoppage place. The method further includes detecting an environment around the inspection vehicle at the stoppage place by the sensor system while a detection zone of the at least one sensor is oriented at least in some regions at a subregion beneath the vehicle and/or at the vehicle. The method further includes determining, in dependence on the sensor signals generated by the sensor system, whether there is an impediment by which the departure of the vehicle is impeded, in order to carry out a pre-departure check.

The disclosure provides a vehicle control device and method for controlling a vehicle. The vehicle control device includes a gear shift member, having a parking brake keeping a vehicle in a stationary state, a drive gear keeping driving the vehicle, and a park gear keeping the vehicle in a parked state; a control switch configured to be able to control the parking brake and shift to the park gear; a control member performing following controls when the vehicle is in the parked state: when the control switch is operated for a period of time shorter than a prescribed time, the control member shifts to the park gear and executes linked parking that links an operation of the parking brake, and during the execution of the linked parking, when the control switch is operated for a period of time longer than the prescribed time, the control member releases the parking brake.

A method for inspecting a vehicle on a site with a management system, including determining whether at least one vehicle on the site intends to make a departure from a stoppage place, generating a control command by the management system, and transmitting the control command to the inspection vehicle such that the inspection vehicle moves along an inspection path to the stoppage place. The method further includes detecting an environment around the inspection vehicle at the stoppage place by the sensor system while a detection zone of the at least one sensor is oriented at least in some regions at a subregion beneath the vehicle and/or at the vehicle. The method further includes determining, in dependence on the sensor signals generated by the sensor system, whether there is an impediment by which the departure of the vehicle is impeded, in order to carry out a pre-departure check.