The present disclosure relates to controlling a vehicle security system for a vehicle configured for habitation. More particularly, but not exclusively, the present disclosure relates to selectively activating one of a first security mode and a second security mode, wherein the first security mode is configured to allow the vehicle to be used as a domicile.

A system for limiting vehicle operation is disclosed. The system may comprise one or more memory units for storing instructions and one or more processors configured to execute the instructions to perform operations. The operations may comprise determining that a key device is inside the vehicle; performing an authentication; setting the vehicle in a first vehicle mode; starting the vehicle based on the determination and the first authentication; and limiting vehicle operation based on the first vehicle mode.

To provide an attachment structure of a smart key unit for a motorcycle that can reduce a size of an attachment structure of a smart key unit around a head pipe. In an attachment structure of a smart key unit for a motorcycle that can cause an engine of a motorcycle to be in a startable state under a condition that an ID code transmitted from a smart key K that can be carried by a driver matches a normal ID code, the smart key unit is attached at a position in the rear of a head pipe included in a vehicle, and the smart key unit is arranged in a state in which a longitudinal direction M thereof is substantially orthogonal to a back and forth direction of the vehicle.

A vehicle capable of being utilized by users other than a user assigned to the vehicle is described herein. Such a vehicle may operate in various modes, including a first mode in which the vehicle allows additional users to utilize the vehicle and a second mode in which the vehicle prohibits additional users from utilizing the vehicle. A vehicle may transition from the first mode to the second mode based on various environmental factors, such as, but not limited to, vehicle demand, geolocation, and the like. When operating in a mode in which the vehicle can be utilized by users other than a user assigned to the vehicle, a user who may have been assigned a different vehicle may utilize the vehicle when proximate to the vehicle. Trip information and other details may be provided to the vehicle for transport of the user.

A vehicle capable of being utilized by users other than a user assigned to the vehicle is described herein. Such a vehicle may operate in various modes, including a first mode in which the vehicle allows additional users to utilize the vehicle and a second mode in which the vehicle prohibits additional users from utilizing the vehicle. A vehicle may transition from the first mode to the second mode based on various environmental factors, such as, but not limited to, vehicle demand, geolocation, and the like. When operating in a mode in which the vehicle can be utilized by users other than a user assigned to the vehicle, a user who may have been assigned a different vehicle may utilize the vehicle when proximate to the vehicle. Trip information and other details may be provided to the vehicle for transport of the user.

An apparatus for vehicle operator authentication operations can include multiple memory devices coupled to a processor. The processor can perform an authentication operation using determined driving patterns associated with an authorized operator of a vehicle in which the apparatus is deployed and information received from a global positioning satellite and a base station to determine whether a current operator of the vehicle is the authorized operator of the vehicle and determine whether the vehicle has experienced a vehicle event. The processor can also re-allocate computing resources between the first memory device and the second memory device in response to the determination that the vehicle has experienced the vehicle event and perform, using the re-allocated computing resources, a subsequent authentication operation using the determined driving patterns and the information received from the global positioning satellite and the base station to determine whether the current operator of the vehicle is the authorized operator of the vehicle.

A method for regulating vehicle access comprises receiving, from an electronic device of a user, a request to access a vehicle. The vehicle can be disposed at a designated geographic location. Next, geographic information of the user is received from the electronic device. The geographic information is determined with the aid of the electronic device of the user. The user is then provided access to the vehicle if, based on the received geographic information, a geographic location of the user is within a given distance from the designated geographic location of the vehicle.

A method for regulating vehicle access comprises receiving, from an electronic device of a user, a request to access a vehicle. The vehicle can be disposed at a designated geographic location. Next, geographic information of the user is received from the electronic device. The geographic information is determined with the aid of the electronic device of the user. The user is then provided access to the vehicle if, based on the received geographic information, a geographic location of the user is within a given distance from the designated geographic location of the vehicle.

An ignition device for a motor of an automotive vehicle is provided that the device includes a rotor configured to receive a key and mounted in rotation on a bracket, the rotor including a retainer configured to retain the rotor in translation relative to the bracket, and a first push back device configured to apply a linear force between the bracket and the rotor along an axis parallel to the axis of the rotation of the rotor. The bracket and the retainer are configured to cooperate so as to inhibit the rotation of the rotor in a predetermined direction from a predetermined angular position and to allow the rotation of the rotor beyond the predetermined angular position in the predetermined direction upon preliminarily applying a force on the rotor in an opposite direction to the direction of the linear force applied by the first push back device.

A method for identifying a cause of blockage in a sequence of images provided by a camera of a vehicle, the method comprising iteratively: S10) acquiring an image of the camera; successively acquired images forming a sequence of images; S20) detecting a blockage in last images of the sequence of images; S60) determining whether it is day-time or night-time based on time information; if it is determined that it is night-time: S82) determining whether toggling front light(s) of the vehicle on/off causes a change in images acquired by the camera; and S84) in this case, determining that for the current iteration, the cause of the blockage is presumably the road being dark. A computer program for performing said method, a computer-readable recording medium containing such computer program, a driving assistance system capable of executing said method.