A driving assist method includes detecting positional information of a first vehicle, storing the detected positional information, detecting a curve along which the first vehicle travels in accordance with the stored positional information, generating curve information including a curvature of the curve at the detected curve, transmitting the generated curve information from the first vehicle after the vehicle passes the curve, receiving the curve information by a second vehicle, determining a timing to provide the curve information in accordance with the received curve information, and providing the curve information at the determined timing.

A driving assist method includes detecting positional information of a first vehicle, storing the detected positional information, detecting a curve along which the first vehicle travels in accordance with the stored positional information, generating curve information including a curvature of the curve at the detected curve, transmitting the generated curve information from the first vehicle after the vehicle passes the curve, receiving the curve information by a second vehicle, determining a timing to provide the curve information in accordance with the received curve information, and providing the curve information at the determined timing.

The present disclosure provides a method for piloting an electric scooter, the electric scooter and a storage medium. The method includes: receiving a driving instruction; and in response to the driving instruction, piloting the electric scooter to a target charging device according to a navigation path at least in one of the following manners: lowering a gravity center of the electric scooter; and under a condition in which an obstacle is detected, controlling the electric scooter to avoid the obstacle or wait for a predetermined period of time.

The guard structure for a saddle riding vehicle includes a body frame, a guard member fixed to the body frame and guarding a vehicle body, a stay connecting the guard member to the body frame. The stay includes a frame connection section connected to the body frame side, a guard member connection section connected to the guard member, and a linking section that connect the frame connection section and the guard member connection section. The stay is formed in a U shape by the frame connection section and the guard member connection section, which are disposed to face each other, and the linking section.

The guard structure for a saddle riding vehicle includes a body frame, a guard member fixed to the body frame and guarding a vehicle body, a stay connecting the guard member to the body frame. The stay includes a frame connection section connected to the body frame side, a guard member connection section connected to the guard member, and a linking section that connect the frame connection section and the guard member connection section. The stay is formed in a U shape by the frame connection section and the guard member connection section, which are disposed to face each other, and the linking section.

A blind spot detection system for a vehicle includes: a sensor unit; a controller; and an alert indication unit, the sensor unit including a left blind spot sensor, a right blind spot sensor and a rear blind spot sensor, the left blind spot sensor being located on one side of the vehicle with respect to a longitudinal mid plane axis of the vehicle, the right blind spot sensor being located on another side of the vehicle with respect to the longitudinal mid plane axis of the vehicle, the left blind spot sensor and the right blind spot sensor being located to detect objects in blind spot areas of the vehicle, and the rear blind spot sensor being located rearwardly of the vehicle and located to detect objects in blind spot areas.

The present invention relates generally to a helmet, method and server for detecting a likelihood of an accident. According to a first aspect, the present disclosure refers to a helmet of detecting a likelihood of an accident, comprising: a sensor configured to detect a signal relating to a user wearing the helmet, the signal including information at a point in time for the user; and a processor configured to communicate with the sensor and to: determine if there is the likelihood of the accident in response to receiving the signal; generate an alert signal in response to the determination, the alert signal indicating there is the likelihood of the accident.

The embodiments show an efficient, flexible, durable, lightweight and portable (12) electromechanical apparatus (12) that a cyclist can easily and safely operate. The design allows for the remote positioning of a visible elongated object, (12) safety sleeve/arm (12), from a secured vertical stowed position, to a secured horizontal active position without stopping during the ride. The elongated, aerodynamically shaped (12) safety sleeve (12) will have (12) LED strip lights (12) along the trailing edge, along with a (12) wing tip light (12) at the end of the member. Also included are reflective materials at both ends and on the leading edge of the (12) safety sleeve (12). The purpose of a (12) safety sleeve/arm (12) in the active horizontal position is to provide oncoming motorists with a dimensional frame of reference to clear the pedal vehicle when passing. Because of the size and shape of the lighted safety member, a motorist will receive the early detection needed, allowing them time to maneuver their vehicle around the cyclist. Thus, providing adequate clearance between the cyclist and motorist when passing, which will help them to comply with the 3 foot rule enacted in 33 states in the USA.

The present invention provides a straddle type vehicle, comprising: a taillight disposed in a rear portion of a vehicle and configured to emit light to rearward of the vehicle; a license plate disposed at the rear portion of the vehicle; and a detection unit configured to detect surrounding conditions behind the vehicle, wherein the detection unit is connected to a vehicle body frame via a support stay and is disposed to be lower than the taillight and higher than the license plate.

The present invention provides a straddle type vehicle, comprising: a taillight disposed in a rear portion of a vehicle and configured to emit light to rearward of the vehicle; a license plate disposed at the rear portion of the vehicle; and a detection unit configured to detect surrounding conditions behind the vehicle, wherein the detection unit is connected to a vehicle body frame via a support stay and is disposed to be lower than the taillight and higher than the license plate.