Disclosed are system and method for the identification and recognition of a motor vehicle based on the profile of the voltage values from the onboard electrical system. The system comprises a voltage and/or current detecting device connected to a vehicle's electrical system. The system is configured to create a database comprising at least one reference voltage value and/or absorbed current associated with at least one predetermined condition of the vehicle, detecting at least one value of voltage and/or current absorbed in operation associated with at least one predetermined vehicle condition and comparing the at least one reference value with the at least one operating value. In the case where at least one operating value coincides with at least one reference value, it is determined that the identification system is installed on the vehicle or, if not, it is determined that the identification system is not installed on the vehicle.

Systems and methods for managing vehicle security include a server that, responsive to receiving a remote command for a vehicle from an authorized mobile device, transmits the command to the vehicle. The vehicle responsively executes the command. The server also monitors third-party Internet data for security risks. Responsive to identifying a security risk for the vehicle based on the monitored third-party Internet data after the command is executed, the server deauthorizes the mobile device from remotely commanding the vehicle.

Aspects provided herein provide methods, apparatus, and a non-transitory computer storage medium storing computer instructions for vehicle disturbance alerting in a network. The method begins with receiving a vibration alert from a sensor installed in a vehicle. The sensor may be an accelerometer, gyroscope, or motion-capable sensor and is in communication with a low power radar sensor that is also installed in the vehicle. A low power radar sensor is activated in response to the vibration alert. At least one radar signature is received from the low power radar sensor. The radar signature is then compared with at least one driver radar signature. The driver radar signature is recorded when a driver occupies a driver seat position and operates the vehicle. Based on the comparison, a determination is made whether to issue a vehicle disturbance alert.

An in-vehicle communication system includes: a plurality of local ECUs (vehicle control devices) connected to networks of buses, and configured to control an in-vehicle device; an OBDII port which is a communication port to an outside; and an illicit act detection sensor configured to detect an illicit act on a vehicle. Each local ECU includes a reprogramming receiver and a reprogramming controller. The reprogramming receiver receives a reprogramming request signal and reprogramming data from a reprogramming device connected to the OBDII port. Reprogramming for rewriting a software program of a target local ECU is executed according to the reprogramming request signal and the reprogramming data. When the illicit act detection sensor detects an illicit act, the reprogramming controller prohibits execution of reprogramming.

In some examples, a system receives sensor data from a sensor of a transport chassis configured to carry a cargo transportation unit (CTU), and determines, based on the sensor data and a profile learned based on past data, whether the transport chassis is loaded with a CTU or cargo.

A method and an apparatus includes the monitoring of a control device. If a critical event occurs during monitoring of the control device, the control device is transferred (20) into a safe state, and it is determined whether a problem solution is available for the event that has occurred by way of a parameter modification of the control device in a problem-solving database. If the problem solution is available, a parameter data set is provided. In this regard, the parameter data set includes parameter information relating to a parameter to be modified of the control device. If the parameter information for the control device is valid, the parameter is modified according to the parameter information and the control device is released from the safe state.

A method for monitoring and modifying motor vehicle functions, includes the following steps: ascertaining an anomalous behavior of a function; transmitting the anomalous behavior to a back end; receiving instructions from the back end, the instructions indicating acute measures to be taken in the motor vehicle in order to adequately react to the anomalous behavior of the function; ascertaining a motor vehicle component which is the cause of the anomalous behavior on the basis of the received instructions; converting the motor vehicle component to a degraded configuration which has a limited functional scope; and if the conversion to the degraded configuration is not possible, converting the motor vehicle component to a safe configuration.

An in-vehicle communication system includes: a plurality of local ECUs (vehicle control devices) connected to networks of buses, and configured to control an in-vehicle device; an OBDII port which is a communication port to an outside; and an illicit act detection sensor configured to detect an illicit act on a vehicle. Each local ECU includes a reprogramming receiver and a reprogramming controller. The reprogramming receiver receives a reprogramming request signal and reprogramming data from a reprogramming device connected to the OBDII port. Reprogramming for rewriting a software program of a target local ECU is executed according to the reprogramming request signal and the reprogramming data. When the illicit act detection sensor detects an illicit act, the reprogramming controller prohibits execution of reprogramming.

A mobile object setting system includes a setting device configured to perform a process of setting equipment provided in a mobile object and a plurality of terminal devices capable of communicating with the setting device. The setting device includes a storage device configured to store a program and setting information of the equipment and a hardware processor. The hardware processor manages the setting information in association with a user of the mobile object by executing the program stored in the storage device, identifies the user of the mobile object, detects a specific action to be performed when the user of the mobile object boards the mobile object, and acquires setting information of the equipment associated with the identified user from the storage device to set the equipment based on the acquired setting information. The hardware processor receives a selection manipulation of the user until a predetermined manipulation is performed after the specific action is detected.

System, apparatus, device and methods relating to a telematic vehicle sharing platform ecosystem and a telematic vehicle share I/O expander to automate sharing and management of a vehicle that is shared by more than one operator.