Aspects of the present disclosure relate switching between autonomous and manual driving modes. In order to do so, the vehicle's computer may conduct a series of environmental, system, and driver checks to identify certain conditions. The computer may correct some of these conditions and also provide a driver with a checklist of tasks for completion. Once the tasks have been completed and the conditions are changed, the computer may allow the driver to switch from the manual to the autonomous driving mode. The computer may also make a determination, under certain conditions, that it would be detrimental to the driver's safety or comfort to make a switch from the autonomous driving mode to the manual driving mode.

Methods, systems, computer-readable media, and apparatuses for executing an event pertaining to a vehicle and a user of the vehicle are presented. In some embodiments, a includes (a) detecting that a motion state of the vehicle is in a first state, (b) detecting a condition that warrants a change in the motion state of the vehicle to a second state, and (c) detecting the user of the vehicle's engagement in an activity that potentially impairs the user from performing an action to change the motion state of the vehicle to the second state. The method also includes, detecting the condition, and (c) detecting the user of the vehicle's engagement in the activity, executing an event to facilitate the change in the motion state of the vehicle to the second state.

A stop control device includes: a stop intention detection unit 170 that detects a stop intention of a driver; an unable-to-drive state detection unit 172 that detects that the driver is in an unable-to-drive state; a stop control unit 176 that performs automatic stop control in which a vehicle is decelerated and stopped, based on whether the stop intention is detected by the stop intention detection unit and/or whether the unable-to-drive state is detected by the unable-to-drive state detection unit; and a state display unit 174 that shows, on a display 144, information on whether it has been determined to activate the automatic stop control, a state of the control, and/or whether it has been determined to cancel the control.

A controller of a four-wheel drive vehicle includes a first operation part that switches drive mode of the vehicle; a second operation part that switches off-road traveling modes indicating traveling modes for off-road driving of the vehicle; a transfer controller that controls the arrangement of a transfer device in accordance with the drive mode; a detector that detects the arrangement of the transfer device; a determiner that determines whether a switching of the traveling modes is permitted or not based on the drive mode and the arrangement detected by the detector; and a setter that sets the traveling modes of the vehicle based on the detected arrangement and input operations to the first operation part and the second operation part when the determiner determines the switching of the traveling modes is permitted, and maintains the current traveling mode when the determiner determines the switching of the traveling modes is not permitted.

An indicator system for outdoor power equipment, such as a riding lawn mower, may include an illuminating element around the perimeter of a display screen. The illuminating element may be configured to illuminate in a predetermined manner based on a predefined condition occurring in order to alert the operator to the display screen. The display screen may be configured to display more detail about the predefined condition while the illuminating element is illuminated.

A device having a sensor, a control unit, and a display designed for a vehicle which is designed as an at least partially self-driving vehicle. The sensor detects objects in the surroundings of the vehicle. The device displays the objects, together with the vehicle, on the display in animated form.

A working vehicle includes a steering handle, a vehicle body to travel with either manual steering by the steering handle or automatic steering of the steering handle based on a traveling reference line, and a display including a line orientation display portion to indicate an orientation of the traveling reference line, and a vehicle orientation display portion to indicate an orientation of the vehicle body.

Driver braking performance feedback may be conveyed to a vehicle operator as a braking efficiency score using a vehicle display system. The display system may include a vehicle display for displaying a braking efficiency indicator or gauge corresponding to the braking efficiency score. The braking efficiency score may be based on a comparison of the total regenerative braking energy recaptured during at least one braking event to a either a maximum amount of braking energy that may be recaptured during the at least one braking event or an actual total braking energy expended during the at least one braking event. The braking efficiency score may be displayed upon the completion of a braking event or upon a completion of a trip including a plurality of braking events. The display may also convey a distance corresponding to a portion of a trip distance achieved through regenerative braking.

A system is operated within a vehicle to indicate an intention of a driver of the vehicle to perform a particular vehicle maneuver. The system includes a user input device configured to receive an input indicating the intention to perform the particular vehicle maneuver, computerized hardware configured to operate programming to determine a visible pattern to be projected external to the vehicle to indicate the intention, and a laser emitter configured to display the visible pattern.

Aspects of the present disclosure relate switching between autonomous and manual driving modes. In order to do so, the vehicle's computer may conduct a series of environmental, system, and driver checks to identify certain conditions. The computer may correct some of these conditions and also provide a driver with a checklist of tasks for completion. Once the tasks have been completed and the conditions are changed, the computer may allow the driver to switch from the manual to the autonomous driving mode. The computer may also make a determination, under certain conditions, that it would be detrimental to the driver's safety or comfort to make a switch from the autonomous driving mode to the manual driving mode.