The invention relates to an image playing system and an image playing method. The image playing system includes a projection device. The projection device includes a storage circuit, a processor, and a projection module. The storage circuit stores a playing content including at least one multimedia content, a play time length and a play order corresponding to each multimedia content. The processor obtains the playing content from the storage circuit in response to receiving the power signal. The projection module is controlled by the processor and sequentially projects the multimedia content according to the play time length and play order corresponding to each multimedia content.

A lighting device for a motor vehicle includes a housing having a front lighting surface, and a substantially planar plate and at least one lighting module mounted on the plate. The plate has a general plane of extension that is horizontal when the housing is mounted in the vehicle, and has a surface referred to as a lower surface and a surface referred to as an upper surface. The plate includes a first control system which includes a first male element and is arranged to cause translation of the first male element in an axis parallel to the plate, the plate being provided with a first recess receiving the first male element. A second control system that includes a second male element and is arranged to cause translation of the second male element in an axis perpendicular to the plate, the plate being provided with a second recess on its upper or lower surface that receives the second male element. The housing thus takes up less space above the modules, which can easily be raised.

A lighting device for a motor vehicle includes a housing having a front lighting surface, and a substantially planar plate and at least one lighting module mounted on the plate. The plate has a general plane of extension that is horizontal when the housing is mounted in the vehicle, and has a surface referred to as a lower surface and a surface referred to as an upper surface. The plate includes a first control system which includes a first male element and is arranged to cause translation of the first male element in an axis parallel to the plate, the plate being provided with a first recess receiving the first male element. A second control system that includes a second male element and is arranged to cause translation of the second male element in an axis perpendicular to the plate, the plate being provided with a second recess on its upper or lower surface that receives the second male element. The housing thus takes up less space above the modules, which can easily be raised.

Disclosed are a vehicle and a control method thereof configured for performing a vehicle control to detect lighting irradiated from a lamp at the time of vehicle parking and park the vehicle safely and accurately. The vehicle includes a lamp configured to irradiate lighting to a ground, a camera configured to photograph the lighting irradiated to the ground to obtain information on a form of the lighting of the lamp, and a controller configured to determine at least one of the form of the ground to which the lighting is irradiated and whether or not an obstacle exists on the ground to which the lighting is irradiated, based on the information on the obtained form of the lighting of the lamp.

Disclosed are a vehicle and a control method thereof configured for performing a vehicle control to detect lighting irradiated from a lamp at the time of vehicle parking and park the vehicle safely and accurately. The vehicle includes a lamp configured to irradiate lighting to a ground, a camera configured to photograph the lighting irradiated to the ground to obtain information on a form of the lighting of the lamp, and a controller configured to determine at least one of the form of the ground to which the lighting is irradiated and whether or not an obstacle exists on the ground to which the lighting is irradiated, based on the information on the obtained form of the lighting of the lamp.

The present invention is an LED lighting system which can be retrofit to an existing vehicle. The lighting system can provide sequential lighting of multiple lamps for effect. In a non-limiting embodiment, a 7-pin wireless remote controller may be plugged directly into a vehicle's 7-pin hitch harness port where it draws power and receives light signals for stopping, hazard (four-way lights), turning. It then in turn will process and communicate these signals to a wireless LED strip. In another non-limiting embodiment, a 4-pin wireless remote controller may be connected directly to a vehicle's 4-pin harness plug, if equipped, or spliced directly into the vehicle's wire harness if it is not equipped with a 4-pin plug. The 4-pin wireless remote controller will process these light signals and communicate them to a wireless LED strip.

The present invention is an LED lighting system which can be retrofit to an existing vehicle. The lighting system can provide sequential lighting of multiple lamps for effect. In a non-limiting embodiment, a 7-pin wireless remote controller may be plugged directly into a vehicle's 7-pin hitch harness port where it draws power and receives light signals for stopping, hazard (four-way lights), turning. It then in turn will process and communicate these signals to a wireless LED strip. In another non-limiting embodiment, a 4-pin wireless remote controller may be connected directly to a vehicle's 4-pin harness plug, if equipped, or spliced directly into the vehicle's wire harness if it is not equipped with a 4-pin plug. The 4-pin wireless remote controller will process these light signals and communicate them to a wireless LED strip.

A school bus having a pedestrian lighting system includes bus entrance door lamps that illuminate an area adjacent to the entrance door of the bus. Switch logic circuitry is connected to and controls bus door entrance lamp circuitry that provides power to the bus entrance door lamps. A power cutoff noise suppression switch, which otherwise functions to turn off noise generating devices in the bus when stopping for a railroad crossing, is connected to the switch logic circuitry or to delayed deactivation timer circuitry. The power cutoff noise suppression switch and the switch logic circuitry or the delayed deactivation timer circuitry are configured so that input of the switch logic circuitry to the bus door entrance lamp circuitry is overridden, and the at least one bus entrance door lamp is turned off, when the power cutoff noise suppression switch is activated.

An all-in-one vehicle running board includes a panel, a mounting part connected to a vehicle body, and a transmission part connecting the panel with the mounting part. The transmission part drives the panel to extend or retract. The transmission part includes at least two transmission mechanisms, one of which is provided with a drive mechanism. The mounting part includes an integral mounting bracket connected to the vehicle body and connection assemblies connecting the integral mounting bracket with the transmission mechanism. The vehicle running board can be conveniently integrally mounted onto the lower body panel of the vehicle via the integral mounting bracket and is stable in use. In addition, use of a main transmission mechanism in combination with an auxiliary transmission mechanism(s) prevents the running board from getting stuck when the drive mechanism fails, thereby allowing for more flexible and convenient use of the running board.

A method performed by a vision control system for supporting in low light conditions in surroundings of a moving vehicle, object detection by at least a first on-board rearward- and/or sideward-facing image capturing device. The vision control system captures a surrounding located rearward and/or sideward of the moving vehicle with support from the at least first image capturing device. The vision control system further determines light conditions in the surrounding. Moreover, the vision control system provides with support from at least a first light source, when the light conditions fulfill insufficient light criteria, a light output illuminating a ground region of the surrounding to facilitate object detection by the at least first image capturing device. The disclosure also relates to a vision control system, a vehicle comprising such a vision control system, and a respective corresponding computer readable storage medium.