An electric scooter includes: a scooter body; a front fork pivotally arranged on a front side of the scooter body; a front wheel mounted on the front fork; a rear wheel arranged on a rear side of the scooter body; a handlebar including a crossbar and a riser, the crossbar being arranged at an upper end of the riser, and a lower end of the riser being coupled to the front fork; and a left steering light and a right steering light mounted on at least one of the scooter body, the front fork or the handlebar.

A motorcycle includes a tail lamp, a rear covering, rear end components which are a license plate and a license lamp, a rear stay, and a sensor. The tail lamp emits light toward the rear side. The rear covering is provided with the tail lamp. The rear end components are disposed more rearward than the rear covering. The rear stay extends at least rearward from a connecting portion connected to the rear covering and supports the rear end components. The sensor senses an object rearward is at least partially received in an internal space that is formed either in the rear covering or in the rear stay.

A signaling device includes a light emitting unit, wherein the light emitting unit includes a plurality of lights; and a plurality of feedback lights configured to indicate to an operator of the signaling device whether electronics and the plurality of lights are functioning properly; and a remote controller unit in communication with the light emitting unit, wherein the remote controlling unit is configured to adjust a light intensity of the plurality of lights, wherein the plurality of lights is configured to resemble at least one of: turn signal arrows or indicators, brake lights, and flashing lights indicative of hazards.

A signaling device includes a light emitting unit, wherein the light emitting unit includes a plurality of lights; and a plurality of feedback lights configured to indicate to an operator of the signaling device whether electronics and the plurality of lights are functioning properly; and a remote controller unit in communication with the light emitting unit, wherein the remote controlling unit is configured to adjust a light intensity of the plurality of lights, wherein the plurality of lights is configured to resemble at least one of: turn signal arrows or indicators, brake lights, and flashing lights indicative of hazards.

There is provided with a straddle type vehicle. A direction indicator is formed to project outward in a vehicle width direction and shows a traveling direction of the vehicle. A sensing device detects an obstacle around the vehicle using an ultrasonic wave. The sensing device is arranged in a distal end portion of the direction indicator.

There is provided with a straddle type vehicle. A direction indicator is formed to project outward in a vehicle width direction and shows a traveling direction of the vehicle. A sensing device detects an obstacle around the vehicle using an ultrasonic wave. The sensing device is arranged in a distal end portion of the direction indicator.

A handlebar grip set has two turn signals, two operating kits, and two grips. Each of the two turn signals is detachable and has a base, an illumination module assembled to the base, and a housing assembled to the base and covering the illumination module. Each operating kit has a button module electrically connected to the illumination module of a corresponding one of the turn signals. Each one of the grips surrounds the base of a corresponding one of the turn signals. The base of each turn signal is configured to be assembled to one of two ends of a handlebar. The turn signals of the handlebar grip set provide sufficient warning function when a bicycle equipped with the handlebar grip set is turning.

A handlebar grip set has two turn signals, two operating kits, and two grips. Each of the two turn signals is detachable and has a base, an illumination module assembled to the base, and a housing assembled to the base and covering the illumination module. Each operating kit has a button module electrically connected to the illumination module of a corresponding one of the turn signals. Each one of the grips surrounds the base of a corresponding one of the turn signals. The base of each turn signal is configured to be assembled to one of two ends of a handlebar. The turn signals of the handlebar grip set provide sufficient warning function when a bicycle equipped with the handlebar grip set is turning.

Systems and methods for replicating vehicular illumination are disclosed. According to an aspect, a system includes a detector configured to sense light emitted by a host light of a host vehicle for detecting a lighting state of the host light. The system also includes a communications system configured to communicate the detected lighting state between the host light and the remote light. Further, the system includes a remote light being located on one of the host vehicle and an operator of the host vehicle and configured to replicate the lighting state of the host light.

Systems and methods for replicating vehicular illumination are disclosed. According to an aspect, a system includes a detector configured to sense light emitted by a host light of a host vehicle for detecting a lighting state of the host light. The system also includes a communications system configured to communicate the detected lighting state between the host light and the remote light. Further, the system includes a remote light being located on one of the host vehicle and an operator of the host vehicle and configured to replicate the lighting state of the host light.