A lighting system enables a lighting pattern to be displayed on a vehicle when the vehicle is in motion. A lighting pattern may include lights that fluctuate (with respect to luminosity) or lights that stay on at the same luminosity. The length of time that a light, such as an LED lamp, is powered on may vary. Similarly, the amount of time between two adjacent lights are powered off and powered on may also vary. As such, the lighting sequence is flexible and can be customized so that all lights are not on for the same length of time and the time between two lights being powered may vary. A vehicle front alert system allows for improved perception of speed of an approaching vehicle, human, or object.

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.

An auxiliary lighting system for a helmet operable with a lighting system of a vehicle comprising a vehicle brake light, comprised of a helmet portion and a vehicle portion. The helmet portion is comprised of a helmet lighting unit, a microcontroller in communication with the helmet brake light, and a helmet transceiver in communication with the microcontroller. The vehicle portion is comprised of a supporting body, a vehicle transceiver, and an accelerometer joined to the supporting body and in communication with the microcontroller. The microcontroller is programmed with an algorithm such that the microcontroller receives a signal indicative of the relative position of the accelerometer, determines the performance capability of the accelerometer in detecting acceleration of the vehicle with respect to the Earth based upon the signal indicative of the position of the accelerometer, and presents an indication of accelerometer performance capability.

A remote lighting system for a safety helmet operable with a vehicle lighting system. The system includes a vehicle portion and a helmet portion comprising a helmet brake light; a microcontroller in communication with the brake light; and a helmet transceiver in communication with the microcontroller. The vehicle portion includes a vehicle transceiver in wireless communication with the helmet transceiver; a gate in communication with the vehicle transceiver, and under a condition when a signal is received from the vehicle transceiver, operable to electrically connect the battery to the brake light of the vehicle lighting system; and an accelerometer in communication with the vehicle transceiver, and operable to send a signal indicative of vehicle acceleration to the vehicle transceiver. When a threshold level of deceleration is exceeded, the microcontroller sends a signal to the transceivers and the gate, causing a brake light of the vehicle lighting system to be illuminated.

Automatic deceleration indication involves a deceleration sensor unit that senses deceleration and a microprocessor that causes deceleration warning light illumination when a sensed deceleration exceeds a threshold value. The deceleration sensor unit may include a solid state accelerometer acting as a deceleration sensor, a GPS module acting as a deceleration sensor, or both. The deceleration warning light my be a brake light, a separate warning light attached to a vehicle, or worn by an operator or passenger of bicycle, scooter, or motorcycle.

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 remote lighting system for a safety helmet operable with a vehicle lighting system. The system includes a vehicle portion and a helmet portion comprising a helmet brake light; a microcontroller in communication with the brake light; and a helmet transceiver in communication with the microcontroller. The vehicle portion includes a vehicle transceiver in wireless communication with the helmet transceiver; a gate in communication with the vehicle transceiver, and under a condition when a signal is received from the vehicle transceiver, operable to electrically connect the battery to the brake light of the vehicle lighting system; and an accelerometer in communication with the vehicle transceiver, and operable to send a signal indicative of vehicle acceleration to the vehicle transceiver. When a threshold level of deceleration is exceeded, the microcontroller sends a signal to the transceivers and the gate, causing a brake light of the vehicle lighting system to be illuminated.

An improved vehicle light apparatus including an auxiliary light having a housing defining a front opening extending in a horizontal direction and a vertical direction perpendicular to the horizontal direction. A light emitting device is mounted in the housing. A transparent cover is mounted over the front opening. A rib extends rearwardly from the housing opposite the front opening and a plurality of fins are mounted on the rib.

An advanced warning light system in a motorcycle has a brake light comprising a plurality of light emitting diodes (LED) wherein each LED is configured to illuminate a first color when a motorcycle brake is depressed and wherein only a subset of LEDs are configured to illuminate when the motorcycle is decelerating not in response to the brake being depressed. The system further has a controller area network (CAN) bus for transmitting messages, at least one controller configured for monitoring operations of a motorcycle, the at least one controller further configured for transmitting a message on the CAN bus when a monitored operation occurs on the motorcycle, the message comprising data indicating that the vehicle is slowing down, and a CAN bus interface configured to receive the message from the CAN bus and determine if the brake is being depressed or if the motorcycle is slowing down not in response to the brake being depressed, the CAN bus interface configured to transmit a message to illuminate all LEDs on the brake light if the brake is being depressed and configured to transmit a message to illuminate only the subset of LEDs on the brake light if the motorcycle is slowing down for a reason other than the brake being depressed. Additionally, the system has a processor configured for receiving the message from the CAN bus interface, the processor further configured for illuminating the brake light or a subset of the LEDs on the brake light based upon the message received to indicate to a driver following the motorcycle that the motorcycle is slowing down.

A method for providing a spatially perceptible acoustic signal for a rider of a two-wheeled vehicle, including: providing an acoustic signal by a two-wheeled vehicle; determining the position of a helmet worn by the rider of the two-wheeled vehicle relative to the two-wheeled vehicle; processing the acoustic signal depending on the determined position to provide a three-dimensional output signal which constitutes a binaural projection of the acoustic signal; and outputting the output signal via a stereo headset of the helmet, wherein the output signal spatially positions a sound source contained in the acoustic signal depending on the determined position, whereby the sound source is spatially locatable by the rider of the two-wheeled vehicle.