Various powered mobility systems, such as scooters and wheeled boards, are disclosed. The powered mobility system can be a drive assembly, which can include a motor, transmission assembly, driving wheel, and power supply. The drive assembly can be detachable from the rest of the personal mobility vehicle.

A motorcycle integrated safety system comprises a taillight and headlight each having a camera and at least one sensor in electrical communication with a motorcycle's radio screen. The motorcycle integrated safety system also has plurality of heat, proximity, capacitive sensors, infrared sensors, or an ultrasonic sensors. Each sensor provides feedback to the motorcycle operator regarding the condition of the motorcycle and the environment in which the motorcycle is operating.

A motorcycle integrated safety system comprises a taillight and headlight each having a camera and at least one sensor in electrical communication with a motorcycle's radio screen. The motorcycle integrated safety system also has plurality of heat, proximity, capacitive sensors, infrared sensors, or an ultrasonic sensors. Each sensor provides feedback to the motorcycle operator regarding the condition of the motorcycle and the environment in which the motorcycle is operating.

A motorcycle includes a pair of left and right front forks, a headlight, cover members (side cowls and light covers), and camera units. A front wheel is rotatably attached to the pair of left and right front forks. The headlight irradiates a forward side. The cover members each having an internal space are disposed at least laterally outside the pair of left and right front forks in a front view. The camera units detect the forward side by acquiring visible light which is one kind of electromagnetic waves (by acquiring images). In a front view, the camera units are disposed below the headlight and laterally outside the pair of left and right front forks. The camera units are disposed in the internal spaces of the cover members.

A motorcycle includes a pair of left and right front forks, a headlight, cover members (side cowls and light covers), and camera units. A front wheel is rotatably attached to the pair of left and right front forks. The headlight irradiates a forward side. The cover members each having an internal space are disposed at least laterally outside the pair of left and right front forks in a front view. The camera units detect the forward side by acquiring visible light which is one kind of electromagnetic waves (by acquiring images). In a front view, the camera units are disposed below the headlight and laterally outside the pair of left and right front forks. The camera units are disposed in the internal spaces of the cover members.

A saddle riding type vehicle having a front fork that supports a front wheel, a head pipe that rotationally movably supports the front fork, a down frame extending downward from the head pipe, a front wheel brake supported by the front fork, to brake the front wheel, a braking force adjustment device that controls braking force of the front wheel brake, and output piping that connects the braking force adjustment device and the front wheel brake, the output piping has metal piping extending forward from the braking force adjustment device disposed behind the down frame, flexible piping, and a connecting member that connects the metal piping and the flexible piping. The connecting member is disposed in front of the down frame, and the flexible piping extends forward from the connecting member, to be connected to the front wheel brake.

An operating device for an electric bicycle may include a control/regulation device and a lighting unit. The lighting unit may include at least one electrical lighting element for emitting light. The at least one lighting element may be electrically connected to the control/regulation device such that the at least one lighting element is activatable via the control/regulation device. Via the control/regulation device, a light code with at least one of active and inactive light elements of the lighting unit is providable to visualize at least one momentary state of the electric bicycle.

An operating device for an electric bicycle may include a control/regulation device and a lighting unit. The lighting unit may include at least one electrical lighting element for emitting light. The at least one lighting element may be electrically connected to the control/regulation device such that the at least one lighting element is activatable via the control/regulation device. Via the control/regulation device, a light code with at least one of active and inactive light elements of the lighting unit is providable to visualize at least one momentary state of the electric bicycle.

A self-propelled, one-wheeled vehicle may include a board having two deck portions each having a concave front footpad configured to receive a foot of a rider, and a wheel assembly disposed between the deck portions. The concave front footpad has a rider detection sensor in the form of a membrane switch conforming to the shape of the footpad (e.g., facilitated by one or more slots formed in the membrane switch). A motor assembly drives the vehicle in response to board orientation and rider detection information.

A process for manufacturing a bicycle component and a bicycle component manufactured by the process. The process includes protecting a printed circuit board, inserting the protected printed circuit board into the mold cavity, inserting a composite material into the mold cavity so it is around and in contact with the circuit board, and subjecting the mold cavity to a temperature and pressure profile until the composite material hardens.