The invention relates to a functionality limiting system (110) for a motorized vehicle (100) provided with a motion system, comprising: first sensor means (101) adapted to sense if the power is on and providing a first sensing signal; second sensor means (102a-102d) adapted to sense one or several operational parameters relative to at least one part of the vehicle (100) and providing a second sensing signal; deactivation means (103) adapted to verify if a deactivation condition is met and providing a deactivation signal; a control unit (104) in communication with the first and second sensor means (101; 102a-102d) and the deactivation means (103), the control unit (104) receiving said first and second sensing signals and said deactivation signal, the control unit (104) being adapted to control the speed and/or the power supplied by the motion system in response to said first and second sensing signals and said deactivation signal, in such a manner that said speed and/or said power is limited in an activated mode of the system and is not limited in a deactivated mode of the system.

A monitor monitors whether a person is present inside a vehicle that travels in an automated driving mode. The monitor also monitors the state of the vehicle. A controller performs one or more actions according to the result of monitoring of the monitor. This means that when one or more persons are present inside the vehicle, the controller performs one or more actions according to the state of the vehicle. In other words, when no person is present inside the vehicle, the controller does not perform one or more actions. Here, the controller generates control information for controlling the vehicle according to the result of the monitoring, and transmits it to the vehicle.

A monitor monitors whether a person is present inside a vehicle that travels in an automated driving mode. The monitor also monitors the state of the vehicle. A controller performs one or more actions according to the result of monitoring of the monitor. This means that when one or more persons are present inside the vehicle, the controller performs one or more actions according to the state of the vehicle. In other words, when no person is present inside the vehicle, the controller does not perform one or more actions. Here, the controller generates control information for controlling the vehicle according to the result of the monitoring, and transmits it to the vehicle.

An in-vehicle complex biometric authentication system includes: a sensor to sense a driver's boarding of a vehicle; a controller to perform driver authentication based on biometric information sensed by multiple biometric sensors when driver's boarding in a vehicle is detected by the sensor, and to collect driver's identification information and driving habit information during operation of a vehicle when the driver authentication is succeeded; and a memory to store the identification information and driving habit information as implicit authentication information, wherein the controller further detects situation recognition information related to the implicit authentication information, after the driver authentication is succeeded, and determines whether to perform additional authentications based on the matching result of the detected situation recognition information with the implicit authentication information. According the present invention, the system can provide a biometric authentication system to which the IOT is applied.

An in-vehicle complex biometric authentication system includes: a sensor to sense a driver's boarding of a vehicle; a controller to perform driver authentication based on biometric information sensed by multiple biometric sensors when driver's boarding in a vehicle is detected by the sensor, and to collect driver's identification information and driving habit information during operation of a vehicle when the driver authentication is succeeded; and a memory to store the identification information and driving habit information as implicit authentication information, wherein the controller further detects situation recognition information related to the implicit authentication information, after the driver authentication is succeeded, and determines whether to perform additional authentications based on the matching result of the detected situation recognition information with the implicit authentication information. According the present invention, the system can provide a biometric authentication system to which the IOT is applied.

A vehicle remote control system includes a communication module configured to communicate with an ECU of a vehicle and acquire vehicle information, and a server configured to compute a starting state control command for switching between a starting-disabled state and a starting-enabled state of the vehicle based on the vehicle information received from the communication module. The server computes the starting state control command and outputs the starting state control command to the communication module. The condition for switching between the starting-disabled state and the starting-enabled state of the vehicle by the communication module is that, in addition to that power of the vehicle being off, at least one of the followings is satisfied: (1) the vehicle is stopped; (2) the vehicle is not stopped on a public road; and (3) the vehicle is stopped at a predetermined parking area.

A vehicle remote control system includes a communication module configured to communicate with an ECU of a vehicle and acquire vehicle information, and a server configured to compute a starting state control command for switching between a starting-disabled state and a starting-enabled state of the vehicle based on the vehicle information received from the communication module. The server computes the starting state control command and outputs the starting state control command to the communication module. The condition for switching between the starting-disabled state and the starting-enabled state of the vehicle by the communication module is that, in addition to that power of the vehicle being off, at least one of the followings is satisfied: (1) the vehicle is stopped; (2) the vehicle is not stopped on a public road; and (3) the vehicle is stopped at a predetermined parking area.

An affixable device can include a locking mechanism, a force-limiting mechanism, and a sensing mechanism. The locking mechanism can include an engagement component configured to disable the locking mechanism. The force-limiting mechanism can be configured to limit a locking force of the locking mechanism. The sensing mechanism can be coupled to the engagement component, and can be configured to determine that the force-limiting mechanism has limited the locking force of the locking mechanism. In response to determining the force-limiting mechanism limiting the locking force, the sensing mechanism can cause the engagement component to disable the locking mechanism.

An affixable device can include a locking mechanism, a force-limiting mechanism, and a sensing mechanism. The locking mechanism can include an engagement component configured to disable the locking mechanism. The force-limiting mechanism can be configured to limit a locking force of the locking mechanism. The sensing mechanism can be coupled to the engagement component, and can be configured to determine that the force-limiting mechanism has limited the locking force of the locking mechanism. In response to determining the force-limiting mechanism limiting the locking force, the sensing mechanism can cause the engagement component to disable the locking mechanism.

A sensing device can include an accelerometer, a transceiver, and a computing device in communication with the accelerometer and transceiver. The computing device can transmit a first set of signals at a first power level to a remote device. The computing device can determine, via the accelerometer, a movement of the sensing device. The computing device can increase a power level for transmission from the first power level to a second power level in response to the movement. The computing device can transmit future signals at the second power level to the remote device.