To provide a vehicle resin part and a vehicle resin part manufacturing method with which raised portions can be formed using slanted slide molds even on opposing molded portions that have a narrow distance between them. In a rail cover, shelf-shaped portions that can be molded using a cavity and a core are formed on opposing side wall portions, and claw portions that can be molded using slanted slide molds are formed projecting from the shelf-shaped portions in the directions of the opposing side wall portions. Additionally, the claw portions are molded by moving, during demolding, the pair of slanted slide molds in the directions of the opposing side wall portions from a molding position and thereafter removing the pair of slanted slide molds in a forward direction.

An electrical component control device controls an operation state of at least one electrical component mounted in an autonomous vehicle. The electrical component control device comprises a request determination unit that determines whether a movement request for moving the autonomous vehicle in a state where a user is not in the autonomous vehicle is received; an operation restraining unit that restrains operations of multiple target electrical components representing an electrical component that acts on five senses of the user when the autonomous vehicle is instructed to move in response to the movement request; an operation state recording unit that records operation states of the multiple target electrical components; and a state restoring unit that restores the operation states of the multiple target electrical components to the operation states of the multiple target electrical components recorded in the memory, before the user gets on the autonomous vehicle.

A parking assist system according to an embodiment includes a processor connected to a memory. The processor detects a parking frame around a vehicle based on a photographed image obtained by photographing surroundings of the vehicle. The processor detects a parking space based on ultrasonic transmitted waves and reflected waves of the ultrasonic transmitted waves. The processor determines accuracy of the parking frame. The processor determines, based on the accuracy of the parking frame, a method of calculating a target parking position using the parking frame and the parking space. The processor calculates the target parking position based on the determination on the method of calculating the target parking position. The processor generates a route based on the target parking position.

According to one embodiment, an image processing device includes an action plan formulation module and a projection shape determination module. The action plan formulation module generates, based on action plan information of a moving body, first information including planned self-position information of the moving body and position information of a peripheral three-dimensional object based on the planned self-position information. The projection shape determination module determines, based on the first information, a shape of a projection surface on which a first image acquired by an imaging device mounted on the moving body is projected to generate a bird's-eye view image.

A vehicle having a wading sensor may include a control unit adapted to implement an alternative or modified vehicle control strategy during wading. The wading strategy may change many vehicle functions, alone or in combination, and may be further responsive to depth of wading.

A vehicle having a wading sensor may include a control unit adapted to implement an alternative or modified vehicle control strategy during wading. The wading strategy may change many vehicle functions, alone or in combination, and may be further responsive to depth of wading.

A vehicle having a deployable workout assembly. The vehicle includes a frame that is slidably attached to the upper surface thereof. The frame includes a pair of support legs for supporting the longitudinal members aloft. The assembly further includes one or more crossbars extending across the members, which can be utilized for pull-ups and other such exercises. The support legs include one or more sets of spotters thereon, which can be utilized to support barbells and other such objects. In combination, the vehicle provides a mobile fitness center that can be deployed, utilized for exercise, and then stowed with minimal time and effort. The vehicle can additionally include various storage containers within the interior of the cargo area for storing weights and other objects.

A vehicle having a deployable workout assembly. The vehicle includes a frame that is slidably attached to the upper surface thereof. The frame includes a pair of support legs for supporting the longitudinal members aloft. The assembly further includes one or more crossbars extending across the members, which can be utilized for pull-ups and other such exercises. The support legs include one or more sets of spotters thereon, which can be utilized to support barbells and other such objects. In combination, the vehicle provides a mobile fitness center that can be deployed, utilized for exercise, and then stowed with minimal time and effort. The vehicle can additionally include various storage containers within the interior of the cargo area for storing weights and other objects.

A mosquito repellent system and a method for operating the same are provided. The mosquito repellent system includes a passenger detection device that detects a passenger in a vehicle, a mosquito recognition device that recognizes a mosquito, a first ultrasonic device and a second ultrasonic device that generate and radiate an ultrasonic wave, and a control device configured to obtain information about the passenger using the passenger detection device, determine whether there is a mosquito in the vehicle using the mosquito recognition device, and control at least one of the first ultrasonic device or the second ultrasonic device, or a combination thereof to radiate the ultrasonic wave based on the information about the passenger in response determining that there is the mosquito in the vehicle.

A mosquito repellent system and a method for operating the same are provided. The mosquito repellent system includes a passenger detection device that detects a passenger in a vehicle, a mosquito recognition device that recognizes a mosquito, a first ultrasonic device and a second ultrasonic device that generate and radiate an ultrasonic wave, and a control device configured to obtain information about the passenger using the passenger detection device, determine whether there is a mosquito in the vehicle using the mosquito recognition device, and control at least one of the first ultrasonic device or the second ultrasonic device, or a combination thereof to radiate the ultrasonic wave based on the information about the passenger in response determining that there is the mosquito in the vehicle.