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.

Full take over (FTO) of a vehicle permits a vehicle operator to remote start the vehicle, open one or more doors, enter the vehicle, and operate the vehicle without any engine shutdown. FTO may be achieved by a system for: detecting a remote start request, activating a key fob to allow for reading a security code, emulating an electrical brake pedal press, emulating an activation of the vehicle's start switch, and determining whether the vehicle is started. The vehicle driver may thereby unlock the vehicle, open the vehicle door, and drive the vehicle without the vehicle shutting down.

Full take over (FTO) of a vehicle permits a vehicle operator to remote start the vehicle, open one or more doors, enter the vehicle, and operate the vehicle without any engine shutdown. FTO may be achieved by a system for: detecting a remote start request, activating a key fob to allow for reading a security code, emulating an electrical brake pedal press, emulating an activation of the vehicle's start switch, and determining whether the vehicle is started. The vehicle driver may thereby unlock the vehicle, open the vehicle door, and drive the vehicle without the vehicle shutting down.

A method for preventing drive off of a refrigerated transport unit includes detecting whether an electrical power system of the refrigerated transport unit is electrically connected to a utility power source, and performing an action when the electrical power system is electrically connected to the utility power source includes. A drive off protection system includes a refrigerated transport unit including an electrical power system and a controller that monitors the electrical power system. The controller configured to perform an action when the electrical power system is electrically connected to the refrigerated transport unit.

A method for preventing drive off of a refrigerated transport unit includes detecting whether an electrical power system of the refrigerated transport unit is electrically connected to a utility power source, and performing an action when the electrical power system is electrically connected to the utility power source includes. A drive off protection system includes a refrigerated transport unit including an electrical power system and a controller that monitors the electrical power system. The controller configured to perform an action when the electrical power system is electrically connected to the refrigerated transport unit.

An anti-theft control method for a vehicle comprises determining whether an enabling signal is received by a control device in an anti-theft mode; performing an anti-theft control process by the control device when receiving the enabling signal, wherein the anti-theft control process comprising: detecting a set of position information related to the motor by a position sensor; generating an anti-theft control command according to the set of position information and further outputting a plurality of switching control instructions according to the anti-theft control command by the control device; and outputting a locking command to the motor by a power driving device according to the plurality of switching control instructions for driving the motor to generate a braking force. The locking command comprises a plurality of PWM signals, with one of the plurality of PWM signals has two adjacent periods having the same duty ratio.

An anti-theft control method for a vehicle comprises determining whether an enabling signal is received by a control device in an anti-theft mode; performing an anti-theft control process by the control device when receiving the enabling signal, wherein the anti-theft control process comprising: detecting a set of position information related to the motor by a position sensor; generating an anti-theft control command according to the set of position information and further outputting a plurality of switching control instructions according to the anti-theft control command by the control device; and outputting a locking command to the motor by a power driving device according to the plurality of switching control instructions for driving the motor to generate a braking force. The locking command comprises a plurality of PWM signals, with one of the plurality of PWM signals has two adjacent periods having the same duty ratio.

A vehicle brake pedal lock that is fixedly installed under a brake pedal. The brake pedal lock prevents the arm of a brake pedal from being depressed. The brake pedal lock uses a linear servomotor to position a bolt under the brake pedal arm. The linear servomotor is activated using a wired safety switch and a radio frequency remote to minimize inadvertent activation.

An airbrake locking assembly for keeping parking brake engaged on a vehicle with airbrakes includes a vehicle that has airbrakes which include a parking brake plunger. The parking brake plunger is positionable in an actuated position and an un-actuated position. A collar is provided that has a first half being pivotally coupled to a second half. The collar is positionable around the parking brake plunger when the parking brake plunger is positioned in the actuated position. Moreover, the collar inhibits the parking brake plunger from being urged into the un-actuated position when the collar is positioned around the parking brake plunger. In this way the vehicle is retained in a parked position thereby enhancing safety for individuals entering and exiting the vehicle. A lock is coupled to first half of the collar and releasably engages the second half.

The invention relates to a control system for measuring pressure and/or humidity, comprising at least one apparatus for measuring pressure and/or humidity, comprising at least one sensor for measuring pressure and/or humidity, wherein the sensor comprises at least one capacitor comprising at least two electrodes that are arranged, in particular, in a horizontal direction along and on an, in particular, flexible support material relative to one another. At least one dielectric layer is arranged between the electrodes, wherein at least one at least partially liquid-permeable and/or liquid-adsorbing moisture layer is arranged at least in some places on a side, facing away from the support material, of at least one electrode and/or of the dielectric layer. The at least one electrode and/or the dielectric layer are thus then arranged between the support material and the moisture layer in a transverse direction, such that a capacitance is at least partially changed by the liquid at least partially hitting the dielectric layer, wherein a processing unit is designed and provided to measure and/or store measurement values of the sensor. This creates a capacitive moisture sensor. The invention is characterized in that the data measured by the sensor is transmitted by the processing unit to a central CPU, wherein this data is processed by the processing unit.