Systems and methods are disclosed for a police vehicle monitor. An example disclosed police vehicle includes first beacons positioned on a chassis of the police vehicle, second beacons position on a lightbar of the police vehicle, and a police assistance unit. The example police assistance unit is to track a distance of wearable nodes associated with a police officer. Additionally, the example police assistance unit is to, in response to the distance satisfying a first threshold, lock doors and roll up windows of the police vehicle.

Systems and methods are disclosed for a police vehicle monitor. An example disclosed police vehicle includes first beacons positioned on a chassis of the police vehicle, second beacons position on a lightbar of the police vehicle, and a police assistance unit. The example police assistance unit is to track a distance of wearable nodes associated with a police officer. Additionally, the example police assistance unit is to, in response to the distance satisfying a first threshold, lock doors and roll up windows of the police vehicle.

A securement technique for a vehicle for vehicle-to-everything (V2X) power generation includes receiving, from a transmission shifter, a requested state for the transmission from the park state where a park pawl is engaged and one or more non-park states where the park pawl is disengaged, detecting for a key fob associated with the vehicle, detecting, via a user interface device, a lock request associated with a power generation mode during which a powertrain of the vehicle is configured to operate in a generator mode and output electrical power, in response to the lock request, commanding an actuator to physically lock the shifter while the transmission is in the park state and the park pawl is engaged and when the key fob is not detected, keep the park pawl engaged without regard to a requested non-park state from the shifter.

A response vehicle system includes a non-transitory computer-readable storage medium having instructions stored thereon that, upon execution by one or more processors, cause the one or more processors to determine whether a response vehicle has arrived at a scene and provide a signal to switch the response vehicle from an operational condition to a locked condition at least in response to the vehicle arriving at the scene, thereby preventing undesired operation of the response vehicle.

A response vehicle system includes a non-transitory computer-readable storage medium having instructions stored thereon that, upon execution by one or more processors, cause the one or more processors to determine whether a response vehicle has arrived at a scene and provide a signal to switch the response vehicle from an operational condition to a locked condition at least in response to the vehicle arriving at the scene, thereby preventing undesired operation of the response vehicle.

Disclosed are a system and method for remotely controlling and monitoring a vehicle based on the IoT. A system for remotely controlling and monitoring a vehicle based on an IoT includes a communication unit configured to receive a remote control signal and an event signal and transmit monitoring information, a gear mode sensing unit configured to sense a gear mode, a control unit configured to generate a start-up control signal for a vehicle in response to the remote control signal or the event signal, output or stop a start-up control signal in response to a gear mode, output a monitoring signal when start-up is performed, perform transmission control through the communication unit by generating the monitoring information, generate and output an associated vehicle control signal in response to an event, and a start-up device configured to be turned on in response to the start-up control signal.

Disclosed are a system and method for remotely controlling and monitoring a vehicle based on the IoT. A system for remotely controlling and monitoring a vehicle based on an IoT includes a communication unit configured to receive a remote control signal and an event signal and transmit monitoring information, a gear mode sensing unit configured to sense a gear mode, a control unit configured to generate a start-up control signal for a vehicle in response to the remote control signal or the event signal, output or stop a start-up control signal in response to a gear mode, output a monitoring signal when start-up is performed, perform transmission control through the communication unit by generating the monitoring information, generate and output an associated vehicle control signal in response to an event, and a start-up device configured to be turned on in response to the start-up control signal.

A vehicle includes an electrical system which has at least one control unit and a first operator input device operably coupled to the at least one control unit. Additionally, the electrical system includes a second operator input device electrically coupled to the at least one control unit. The at least one control unit being operative to power on at least the engine. Also, the electrical system includes a security input device operably coupled to the at least one control unit. The at least one control unit is configured to transmit an actuation signal to the security input device in response to actuation of the first operator input device independent of actuation of the second operator input device and in response to actuation of the second operator input device independent of actuation of the first operator input device.

A rail car hand brake locking system utilizes a connection member and a securing body. The connection member has an aperture near each distal end. The securing body has a head end capable of securing around a portion of an actuating wheel of the hand brake and a connection end capable of securing to the connection member, which is then affixed to the hand brake housing. The system prevents unauthorized usage of the hand brake.

A stealthy transmission shift interlock solenoid kill switch system includes a first stealthy user interface being located within the vehicle and further being configured to be stealthy and hidden from a vehicle driver's line of sight, a vehicle center console transmission gear shift knob configured to operate an automatic transmission gear position of the vehicle, a vehicle power interrupt feature, an automatic transmission shift interlock solenoid switch, a controller being operably coupled to the first stealthy user interface, a brake pedal of the vehicle, and the vehicle power interrupt feature. The controller is configured to manage an operating mode of the vehicle center console transmission gear shift knob and thereby prohibit power from reaching the automatic transmission shift interlock solenoid switch so that the vehicle center console transmission gear shift knob is prohibited from being displaced out of a park position.