Various systems and methods associated with protecting a rider of an electric bicycle from hazards while riding their bicycle are described. In some embodiments, the systems and methods enhance the safety of the rider in response current detected conditions surrounding the rider, such as conditions associated with the route or path traveled by the rider, other vehicles within the route or path traveled by the rider, potential hazards within the route or path traveled by the rider, environmental conditions through which the rider is traveling, and so on.

Various systems and methods associated with protecting a rider of an electric bicycle from hazards while riding their bicycle are described. In some embodiments, the systems and methods enhance the safety of the rider in response current detected conditions surrounding the rider, such as conditions associated with the route or path traveled by the rider, other vehicles within the route or path traveled by the rider, potential hazards within the route or path traveled by the rider, environmental conditions through which the rider is traveling, and so on.

Various systems and methods associated with protecting a rider of an electric bicycle from hazards while riding their bicycle are described. In some embodiments, the systems and methods enhance the safety of the rider in response current detected conditions surrounding the rider, such as conditions associated with the route or path traveled by the rider, other vehicles within the route or path traveled by the rider, potential hazards within the route or path traveled by the rider, environmental conditions through which the rider is traveling, and so on.

The present invention is a motorcycle theft prevention system that comprises a tilt switch and a control circuit. After the user installed the present invention, the control circuit stays in the deactivated state until the motorcycle is oriented to a different angle. When the motorcycle is oriented to a different angle, the control circuit activates the horn and light source to warn the user of possible theft.

The present invention is a motorcycle theft prevention system that comprises a tilt switch and a control circuit. After the user installed the present invention, the control circuit stays in the deactivated state until the motorcycle is oriented to a different angle. When the motorcycle is oriented to a different angle, the control circuit activates the horn and light source to warn the user of possible theft.

In some embodiments, a docking station includes a scooter locking section that allows the electric scooter to be removed from the docking station when the electric scooter is in a non-rotated orientation and prevents the electric scooter to be removed from the docking station when the electric scooter is in a rotated orientation.

Systems and methods for illuminating an electric scooter are described. The systems and methods generate randomized patterns of lights based on movement of the electric scooter, such as in response to vibrations or other forces applied to the electric scooter as it travels through an environment. For example, the systems and methods can receive movement data from one or more vibration sensors of the electric scooter, generate a continuous wave pattern based on the movement data, and cause lighting devices (e.g., addressable LEDs (light emitting diodes)) to emit light in response to the continuous wave pattern. The resulting light, in some cases, is an ever-changing pattern of light and intensity.

Systems and methods for illuminating an electric scooter are described. The systems and methods generate randomized patterns of lights based on movement of the electric scooter, such as in response to vibrations or other forces applied to the electric scooter as it travels through an environment. For example, the systems and methods can receive movement data from one or more vibration sensors of the electric scooter, generate a continuous wave pattern based on the movement data, and cause lighting devices (e.g., addressable LEDs (light emitting diodes)) to emit light in response to the continuous wave pattern. The resulting light, in some cases, is an ever-changing pattern of light and intensity.

Systems and methods for collecting electric scooters are described herein. In some embodiments, the systems and methods facilitate a “snaking” configuration of attaching, coupling, or fixing multiple electric scooters to one another. The snaking configuration enables multiple electric scooters to be collected together and moved to various locations, such as locations where the electric scooters can be rented, serviced, and so on. Further, the systems and methods enable any electric scooter to act as a collecting scooter, and thus a scooter share service or other fleet of scooters can manage the collection and provisioning of scooters in a location without special vehicles or equipment, among other benefits.

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.