A remotely activated vehicle anti-theft device 10 and system 50 for preventing vehicle theft is provided. The device 10 is moved between unlocked, locked and priority locked states using either a wireless vehicle remote 51 or a mobile phone 52. The mobile phone 52 enjoys priority over the remote control 51 and overrides it when the device is in its priority locked state. It includes a pivotal locking member 17 which is movable between an open position (unlocked state) in which the member is spaced away from a gear 12, permitting it to rotate freely, and a locked position (locked and priority locked states), in which the member 17 engages the gear 12 and prevents rotation thereof, thereby immobilising a vehicle. The device 10 includes an ECU 22, wireless communication module 34, actuator 23, GPS 6 and speed sensor 7 housed in a tamper-proof casing 27.

Systems and methods are disclosed for determining, and displaying, the regulatory compliance status of a motorized vehicle, a driver of a motorized vehicle, or a non-vehicle machine. An authorized agent, such as a law enforcement officer, can perform a remotely-initiated safe stop of a motorized vehicle to prevent a high-speed chase. A system management center can receive, store, and transmit regulatory compliance records indicating the regulatory compliance status of drivers, motorized vehicles, and non-vehicle machines. A motorized vehicle can detect, and report, a driver tail-gating the motorized vehicle. The regulatory compliance history of drivers, motorized vehicles, and non-vehicle machines can be queried by authorized users.

A vehicle security system for monitoring a vehicle and notifying a user includes at least two image capture devices (ICD), sensors, a global positioning system tracking module (GPSTM), a control module (CM), and a monitoring device. The ICD are positioned at predetermined locations of the vehicle for capturing and transmitting images of a target object. The sensors generate sensor data variables based on a detection of the target object. The GPSTM generates and transmits signals based on a position of the vehicle to a monitoring device. The CM receives the captured images and sensor data variables. The CM analyzes the received images and sensor data variables based on predefined criteria to trigger auxiliary units. The CM transmits the images and sensor data variables based on the predefined criteria to the monitoring device. A graphical user interface displays the images for monitoring the vehicle and notifies the user.

This disclosure relates to a privacy preserving geofencing system and method thereof. The method includes receiving a current location data of a vehicle. The current location data may homomorphically encrypted through a homomorphic encryption technique. The method further includes randomly generating at least two secure values corresponding to the current location data of the vehicle. The method further includes combining the at least two secure values with the current location data of the vehicle. The method further includes sharing a combination of the current location data and the at least two secure values to a computing server. The method further includes computing the current location data of the vehicle obfuscated with the at least two secure values to obtain a computed result. The computed result may determine if the vehicle is within a predefined geofencing region based on one or more geofencing criteria.

In one example embodiment, a computer-implemented method and system for immobilization of machines capable of moving are disclosed. The method for immobilization of machines capable of moving includes detecting an event by a tracking device; providing one or more rules to evaluate the detected event; evaluating the detected event using the one or more rules; and triggering an action type based on the outcome of the evaluation. The system for immobilization of machines capable of moving includes a machine capable of moving, a tracking device including at least one processor and logic, a starter relay and a fuel pump relay, wherein the tracking device detects an event; evaluates the detected event using one or more rules provided to evaluate the detected event; and triggers an action type based on the outcome of the evaluation.

An electronic control unit configured to permit a vehicle to travel in an automated driving mode. The electronic control unit is configured to detect unauthorized access from an outside to an in-vehicle Local Area Network during the automated driving mode. The electronic control unit is configured to perform control to fix a gear position of an automatic transmission when the electronic control unit determines that unauthorized access from the outside occurs during the automated driving mode.

This invention relates to security systems. Previously, vehicle vandals and thieves were difficult to stop. Embodiments of the present invention use a vehicle security system (100) includes at least two image capture devices (ICD), sensors, a global positioning system tracking module (GPSTM), a control module (CM), and a monitoring device. The ICD are positioned at predetermined locations of the vehicle for capturing and transmitting images of a target object. The CM receives the captured images and sensor data variables. The CM analyzes the received images and sensor data variables based on predefined criteria to trigger auxiliary units. The CM transmits the images and sensor data variables based on the predefined criteria to the monitoring device. A graphical user interface displays the images for monitoring the vehicle and notifies the user.

A control device includes an acquisition unit acquiring a condition of a vehicle upon reception of a control request, an execution ability determination unit determining whether or not the vehicle is in a condition where the control request can be executed safely, an execution control unit executing the control request when the vehicle is determined to be in a condition where the control request can be executed safely, and a changeover control unit implementing control to change over the condition of the vehicle to a condition where the control request can be executed safely. When the vehicle is in a condition where the control request cannot be executed safely, the changeover control unit is activated. After the vehicle becomes in a condition where the control request can be executed safely, the execution control unit executes the control request.

A remote vehicle disabling system and method. The remote vehicle disabling system includes a master unit in communication with a slave unit. The slave unit is operably connected to a vehicle and one or more operational components of the vehicle. The slave unit can activate or deactivate the operational component and immobilize the vehicle. If the slave unit needs to be overridden, an override switch may be actuated to provide electrical power to the operational components, which form an operational group. The slave unit and master unit are in periodic communication with each other. If the time between communication between the units exceeds a certain amount of time, then the operational component disables the vehicle.

A method for authorizing the use of a motor vehicle, in particular a two-wheeled or four-wheeled motor vehicle, which has a first and a second antenna where the first antenna and the second antenna are spaced apart from each other, by a portable identification device which has an identification transmitter antenna. In order to increase the manipulation security of a known method, it is determined whether the identification device is moving toward the motor vehicle. This can on the one hand be determined in that the identification device repeatedly identifies the field strength of the signals emitted by the motor vehicle and identifies whether the field strength or field strengths is or are increasing. This can on the other hand be determined in that the identification device repeatedly determines the angle between the signals emitted by the motor vehicle and examines whether the repeatedly determined angles are increasing.