This "Shimmer" technology is designed to be incorporated into vehicles in order to decrease the possibility of chain rear end accidents. A common traffic scenario involves a leading vehicle (#1), a first trailing vehicle (#2), and a second trailing vehicle (#3). The leading vehicle (#1) applies the brakes and the brake lights are activated. The first trailing vehicle (#2) has line of sight to the brake lights and hopefully applies the brakes. Second trailing vehicle (#3) has line of sight access to the brakes of that first trailing vehicle (#2). In turn, second trailing vehicle (#3) then applies its brakes. This illustrates the underlying problem of lost reaction time because the driver of second trailing vehicle (#3) doesn't know that the driver of leading vehicle (#1) is braking and isn't alerted upon brake application.
Vehicle has a forward facing camera (preexists in some vehicle lines), CPU, and light indicator (such as a mini LED array in the existing top center brake light module). Leading vehicles are monitored by the camera. When leading vehicle (#1) brakes, applying computer vision to the camera input the braking vehicle (#1) is detected. This triggers the light module simultaneous with the braking. In summary, leading vehicle (#1) brakes, the “Shimmer” system of vehicle #2 detects it and visually signals vehicle (#3) in real time, reducing vehicle #2 risk of being rear ended.
The above illustrates usage of the technology for communication to a human driver. The technology also enables optical vehicle to vehicle communication.
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ABOUT THE ENTRANT
- Name:John Lindsay
- Type of entry:individual
- Patent status:patented