A control device includes a communication unit configured to acquire control information on a vehicle from an information processing device in a wired or wireless communication, and a processing unit configured to execute a process of starting vehicle control based on the control information. The processing unit continues or suspends the process of starting vehicle control depending on a result of an authentication process on usage authority of the control information, and the authentication process is executed while the process of starting vehicle control is executed.

At least a portion of a setting pattern of functions relating to a boat is automatically changed in response to execution of activation operations different from one another. The boat includes a controller configured or programmed to activate the boat by each of a plurality of different activation operations. When an activation operation of the activation operations satisfying a first condition is executed, the controller sets functions relating to the boat with the first setting pattern. When an activation operation not satisfying the first condition is executed, the controller sets functions relating to the boat with a second setting pattern having setting contents at least partially different from the first setting pattern.

A method and a system of deploying ignition interlock device functionality. The method comprises receiving data in authentication of a user account associated with the IID; rendering a user interface at the mobile computing device, the user interface including indication of a status of the user account associated with the IID; and receiving a selection of a user action responsive to the status of the user account associated with the IID.

A driver intoxication test system is provided for a vehicle including: a quick intoxication pre-test subsystem for quickly determining whether there is reason to suspect the driver may be intoxicated; an intoxication validation test subsystem for determining whether the driver is intoxicated; and a controller is configured to determine whether the quick intoxication pre-test subsystem has detected a reason to suspect the driver may be intoxicated. When a reason to suspect the driver may be intoxicated has been detected, an intoxication validation test is conducted and it is determined whether the driver has passed the intoxication validation test. When a reason to suspect the driver may be intoxicated has not been detected, the controller does not instruct the intoxication validation test subsystem to conduct an intoxication validation test.

A vehicle control device includes a recognizer configured to recognize at least a surroundings situation and an in-vehicle situation of a vehicle, and a driving controller configured to perform at least one of speed control and steering control of the vehicle on the basis of a recognition result of the recognizer, the recognizer is configured to recognize an object to be loaded including at least any one of an occupant candidate present outside the vehicle and scheduled to board the vehicle and a baggage candidate present outside the vehicle and scheduled to be loaded into the vehicle, and to recognize that the object to be loaded has been loaded into the vehicle, and the driving controller is configured to permit start of travel of the vehicle in a case where the recognizer has recognized that all of the objects to be loaded have been loaded into the vehicle.

A drive assist system includes an occupant monitoring apparatus, an information acquisition apparatus, a determination apparatus, and a drive assist apparatus. The drive assist apparatus includes one or more processors, and one or more memories coupled to the one or more processors to communicate therewith. The one or more processors appropriately change a warning timing or a drive assist control intervention timing in accordance with the sleep state of a driver of a vehicle at least from a previous day, upon receiving information, from the determination apparatus, that the vehicle transitions from a stopped state to a traveling state. The warning timing is a timing of giving a warning that the vehicle is approaching another vehicle, or the like. The drive assist control intervention timing is a timing of intervention by the drive assist control for avoiding contact between the vehicle and the other vehicle or the like.

A working vehicle includes a prime mover, a driver's seat selectively set in either a first posture where a driver can sit thereon or a second posture where the driver cannot sit thereon, a speed controller to receive power from the prime mover and perform a speed-changing of the power, a PTO shaft to receive the speed-changed power from the speed controller, a posture switch to detect whether the driver's seat is set in the first or second posture, a parking switch to detect parking of a vehicle body, and a first actuator. During driving of the prime mover, the first actuator maintains the driving of the prime mover when both the parking and the driver's seat set in the second posture are detected, and stops the driving of the prime mover when neither the parking nor the driver's seat set in the second posture is detected.

A driving support device for a vehicle includes a vehicle-exterior environment recognizer, an erroneous-start suppression controller, and an erroneous-start-suppression-control canceler. The vehicle-exterior environment recognizer is configured to recognize exterior environment of the vehicle. The erroneous-start suppression controller is configured to execute, when an obstacle is present within a set distance in an axial direction of the vehicle and an accelerator operation for starting of the vehicle to move toward the obstacle is performed, erroneous-start suppression control that prevents the start of the vehicle. The erroneous-start-suppression-control canceler is configured to cancel the erroneous-start suppression control when a steering operation that is to enable avoidance of the obstacle is input and the accelerator operation is continuously performed at a set degree of opening of an accelerator or greater for a set time period during the erroneous-start suppression control.

A method of encouraging safe driving of a vehicle using a remote starter device installed at a vehicle is provided. The remote starter device determines whether it is in signal communication with a remote starter application operating at a mobile computing device separate from the remote starter device. When the remote starter device is in signal communication with the remote starter application, the remote starter device permits ignition of the vehicle. When the remote starter device is not in signal communication with the remote starter application, the remote starter device prevents ignition of the vehicle. The remote starter application may present to a driver of the vehicle an insurance rate for taking a trip in the vehicle.

A method for controlling a locking system for automatic locking and shutdown of a motor vehicle comprising a device for partially autonomous parking is described. The method comprises the following steps: receiving a request for automatic locking and shutdown of the motor vehicle; determining at least one feature which identifies an imminent use of the function for partially autonomous parking; evaluating the at least one feature captured and on the basis thereof determining whether a use of the function for partially autonomous parking is to be expected; delaying the automatic shutdown of the motor vehicle if it was determined that a use of the function for partially autonomous parking is to be expected.