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 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 tamper-resistant actuator includes a valid input, configured to deliver an input electrical current through a circuit. A high-pass filter is positioned within the circuit that degrades components of the input electrical current that are outside of a predefined current range. Components that are within the predefined current range define an output current. A transistor activates a switch when the output current from the high-pass filter is received by the transistor.

An embodiment system includes a vehicle configured to generate a message for informing a tagging status of a portable terminal, in response to the portable terminal entering the tagging status to a door handle, and to control the door handle to be developed over time after the tagging status of the portable terminal is changed to an untagging status, in response to the tagging status of the portable terminal being changed to the untagging status, and a server configured to receive the message for informing the tagging status from the vehicle and transmit the message for informing the tagging status to the portable terminal.

Vehicle structure includes a front seat for a driver and a rear seat for a passenger aligned with each other. The front seat is slidable and/or tiltable between a rearward position, in which it is rigidly secured to the frame of the rear seat by a releasable locking device, and a forward position, in which a gap is formed between the front seat and the rear seat to facilitate the access and exit of the passenger.

Apparatuses, systems, and methods are provided for the utilization of vehicle control systems to cause a vehicle to take preventative action responsive to the detection of a near short term adverse driving scenario. A vehicle control system may receive information corresponding to vehicle operator data and ancillary data. Based on the received vehicle operator data and the received ancillary data, a multi-dimension risk score module may calculate risk scores associated with the received vehicle operator data and the received ancillary data. Subsequently, the vehicle control systems may cause the vehicle to perform at least one of a close call detection action and a close call detection alert to lessen the risk associated with the received vehicle operator data and the received ancillary data.

The present application generally relates to battery powered door unlock mechanisms. More specifically, the application teaches an unlock system including a door unlock mechanism, a capacitive circuit having a first time response, a resistive-capacitive circuit having a second time response wherein the second time response is longer than the first time response, a battery for coupling a battery charge to the capacitive circuit and the resistive capacitive circuit in response to a door unlock authentication signal, and a relay for coupling a first charge from the capacitive circuit to the door unlock mechanism in response to the relay being activated by a second charge from the resistive-capacitive circuit after the second time response.

A vehicle immobilization system includes a detection element operable to detect a level of an intoxicant in a user's breath. A control module is operable to receive a signal from the detection element indicating the level of intoxicant in the user's breath, and to selectively restrict operation of a vehicle based on the level of intoxicant in the user's breath exceeding a threshold. A wireless relay is operable to replace a standard relay in the vehicle, and to wirelessly communicate with the control module such that the control module is operable to control the wireless relay to selectively restrict operation of the vehicle.

An actuation system used to actuate two buttons on a remote control device, such as a key fob, based upon commands that are generated from a mobile device. The actuation system includes an outer housing that defines an isolation enclosure. The actuation system includes a support frame that allows the vertical position of the button actuator to be manually adjusted. The lateral and longitudinal position of the actuator can also be manually adjusted, as can the distance between a pair of actuator tips. The controller receives the command signals from the mobile device and converts the command signals into actuation commands that are used to activate a servo motor to move the one of two actuation tips into contact with one of the buttons of the key fob. The system includes a RF receiver and transmitter to communicate a vehicle command signal for receipt by the vehicle.

Apparatuses, systems, and methods are provided for the utilization of vehicle control systems to cause a vehicle to take preventative action responsive to the detection of a near short term adverse driving scenario. A vehicle control system may receive information corresponding to vehicle operation data and ancillary data. Based on the received vehicle operation data and the received ancillary data, a multi-dimension risk score module may calculate risk scores associated with the received vehicle operation data and the received ancillary data. Subsequently, the vehicle control systems may cause the vehicle to perform at least one of a close call detection action and a close call detection alert to lessen the risk associated with the received vehicle operation data and the received ancillary data.