Had you somehow been able to see or know that there was a car abruptly parked in the active turn lane, you would have been able to take proactive steps beforehand to avoid the pending crisis. The example of making the right turn highlights especially the dismal conditions of driving when you are only able to see a small part of the overarching puzzle. It sure would be handy if there were ways to reduce those risks. The startling statistics are that about 40,000 car crash-related fatalities occur in the United States annually, along with approximately 2.3 million related injuries.ĭriving a car is dangerous and yet we generally tend to downplay the risks. Regrettably, there is also the real chance of producing fatalities. There is also the likely chance of injuring the driver of the other car and the passengers in that vehicle. Besides the likely damage to the vehicles, there is a viable chance of you getting injured, plus your passengers getting injured. You will either sideswipe one of those innocent cars or possibly disrupt their steady flow and produce a series of automotive-screeching cascading collisions.Īll it takes is for you to make the wrong decision and you can end up striking other cars (or they could summarily ram into you). The problem there is that other traffic is using that lane, and your attempt to dart into their path could be catastrophic. Another possibility would be to swing wide, going into the lane to the left of the illegally stopped car. You could slam on your brakes, but this might get you violently rear-ended by a car that is closely following you during the turn. Your mind races feverishly as you frantically mull over your options. As such, you now are moving at a quick pace and could ram directly into the back of this reckless driver that has decided they own the roadway. You didn’t see the halted car until engaging into making your turn. Use it for traffic monitoring, drone, and robotic systems to make them more aware of their surroundings.For example, as you make the right turn, you might suddenly come upon a car that has opted to unlawfully park in the active lane and this irksome and quite inconsiderate driver doesn’t seem to care that the roadway is now being blocked. It’s capable of reporting the motion, speed, and direction of multiple objects in its field of view up to 25m (80 ft.). The OPS242 offers a complete radar sensor in a smaller form factor and FCC modular approval for ease of integration into any system. Depending on the USB host’s ability, further processing and/or communication to the cloud can be performed for further data analysis or networked action. The OPS242 module can be connected to any smart USB host (Raspberry Pi, Android device supporting USB OTG, PC, Mac) to enable an IoT sensor. Multiple objects can be detected and reported on at the same time including signal magnitude information. Flexible control over the reporting format, sample rate, and module power levels are provided. All signal processing is done on board and a simple API reports the processed data. The OmniPreSense OPS242 Doppler Range Radar Sensor is a complete short-range radar sensor providing motion detection, speed, and direction reporting. Can be connected to any smart USB host (Raspberry Pi, Android device supporting USB OTG, PC, Mac).Provides motion detection, speed, and direction reporting.OmniPreSense OPS242 Short Range Radar Sensor.Miscellaneous Microcontroller Accessories.Gears, Belts, Pulleys, Tracks, Sprockets & Chains.
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