A vehicle management system includes a processing circuit. The processing circuit is configured to acquire location information relating to a location of the vehicle, determine if the vehicle has arrived at a destination based on the location information, and provide a signal to switch at least one of a transmission of the vehicle or a braking subsystem of the vehicle from an operational condition to a locked condition in response to at least the vehicle arriving at the destination, thereby preventing undesired operation of the vehicle.

A vehicle management system includes a processing circuit. The processing circuit is configured to acquire location information relating to a location of the vehicle, determine if the vehicle has arrived at a destination based on the location information, and provide a signal to switch at least one of a transmission of the vehicle or a braking subsystem of the vehicle from an operational condition to a locked condition in response to at least the vehicle arriving at the destination, thereby preventing undesired operation of the vehicle.

A vehicle includes a controller. The controller is configured to perform authentication of a portable device by communication with the portable device when startup of a system of the vehicle is instructed, when the system is off, or when the startup of the system of the vehicle is instructed and the system is off. The controller is configured to perform the startup of the system of the vehicle when the startup of the system of the vehicle is instructed, under a condition that the authentication of the portable device is successful. The controller is configured to perform reauthentication of the portable device when predetermined movement of the vehicle is detected after the startup of the system of the vehicle, and perform theft prevention processing when the reauthentication of the portable device fails.

A vehicle includes a controller. The controller is configured to perform authentication of a portable device by communication with the portable device when startup of a system of the vehicle is instructed, when the system is off, or when the startup of the system of the vehicle is instructed and the system is off. The controller is configured to perform the startup of the system of the vehicle when the startup of the system of the vehicle is instructed, under a condition that the authentication of the portable device is successful. The controller is configured to perform reauthentication of the portable device when predetermined movement of the vehicle is detected after the startup of the system of the vehicle, and perform theft prevention processing when the reauthentication of the portable device fails.

The invention relates to a driveshaft lock (10) and to a method (50) of retrofitting the driveshaft lock to a vehicle. The driveshaft lock (10) includes a rotor (17) which defines a star-shaped central aperture (20) which is configured to receive a non-circular, peripheral profile of a drive flange (13) therethrough such that the rotor (17) is configured to piggyback on the drive flange (13). The lock (10) includes a locking member (21) which is configured selectively to engage the rotor (17) in order to lock the rotor in position and prevent angular displacement thereof. Amongst other steps, the method (50) includes aligning the aperture (20) of the rotor with the profile of the drive flange, passing the rotor over the drive flange, rotating the rotor relative to the drive flange, and securing the rotor to the drive flange for rotation together with the drive flange, piggyback-style.

The invention relates to a driveshaft lock (10) and to a method (50) of retrofitting the driveshaft lock to a vehicle. The driveshaft lock (10) includes a rotor (17) which defines a star-shaped central aperture (20) which is configured to receive a non-circular, peripheral profile of a drive flange (13) therethrough such that the rotor (17) is configured to piggyback on the drive flange (13). The lock (10) includes a locking member (21) which is configured selectively to engage the rotor (17) in order to lock the rotor in position and prevent angular displacement thereof. Amongst other steps, the method (50) includes aligning the aperture (20) of the rotor with the profile of the drive flange, passing the rotor over the drive flange, rotating the rotor relative to the drive flange, and securing the rotor to the drive flange for rotation together with the drive flange, piggyback-style.

A response vehicle includes a transmission, a braking subsystem, and a vehicle management system coupled to at least one of the transmission and the braking subsystem. The vehicle management system includes an interlock module configured to provide a signal to switch the at least one of the transmission and the braking subsystem from a locked condition to an operational condition only in response to an authenticated user request thereby preventing undesired operation of the response vehicle.

A response vehicle includes a transmission, a braking subsystem, and a vehicle management system coupled to at least one of the transmission and the braking subsystem. The vehicle management system includes an interlock module configured to provide a signal to switch the at least one of the transmission and the braking subsystem from a locked condition to an operational condition only in response to an authenticated user request thereby preventing undesired operation of the response vehicle.

The invention relates to a driveshaft lock (10) and to a method (50) of retrofitting the driveshaft lock to a vehicle. The driveshaft lock (10) includes a rotor (17) which defines a star-shaped central aperture (20) which is configured to receive a non-circular, peripheral profile of a drive flange (13) therethrough such that the rotor (17) is configured to piggyback on the drive flange (13). The lock (10) includes a locking member (21) which is configured selectively to engage the rotor (17) in order to lock the rotor in position and prevent angular displacement thereof. Amongst other steps, the method (50) includes aligning the aperture (20) of the rotor with the profile of the drive flange, passing the rotor over the drive flange, rotating the rotor relative to the drive flange, and securing the rotor to the drive flange for rotation together with the drive flange, piggyback-style.

The invention relates to a driveshaft lock (10) and to a method (50) of retrofitting the driveshaft lock to a vehicle. The driveshaft lock (10) includes a rotor (17) which defines a star-shaped central aperture (20) which is configured to receive a non-circular, peripheral profile of a drive flange (13) therethrough such that the rotor (17) is configured to piggyback on the drive flange (13). The lock (10) includes a locking member (21) which is configured selectively to engage the rotor (17) in order to lock the rotor in position and prevent angular displacement thereof. Amongst other steps, the method (50) includes aligning the aperture (20) of the rotor with the profile of the drive flange, passing the rotor over the drive flange, rotating the rotor relative to the drive flange, and securing the rotor to the drive flange for rotation together with the drive flange, piggyback-style.