Sliding mitigation research project:
Whether wet leaves, an oil spill, or gravel on the road surface, wheels begin to slip sideways if they can no longer apply sufficient lateral force in a curve. In situations such as these, motorcyclists have practically no chance of righting their bikes. Ideally, keeping them safely on course would require applying additional external lateral force. This is the idea behind the sliding mitigation Bosch is developing in a research project.
Like a magic hand, it keeps the motorcycle on track and considerably reduces the risk of a fall. A sensor detects sideways wheel slip. If a certain value is exceeded, gas is released from a gas accumulator of the type used in passenger-car airbags. The gas flows into the tank adapter and is vented in a certain direction through a nozzle. This reverse thrust keeps the motorcycle on track.
Radar-based assistance systems:
Giving motorcycles radar as a sensory organ enables these new motorcycle assistance and safety functions while providing an accurate picture of the vehicle’s surroundings. As a result, these assistance functions not only increase safety, they also enhance enjoyment and convenience by making life easier for riders.
ACC adaptive cruise control
Riding in heavy traffic and maintaining the correct distance to the vehicle in front takes a great deal of concentration and is strenuous over longer periods. ACC adjusts the vehicle speed to the flow of traffic and maintains the necessary safe following distance. This can effectively prevent rear-end collisions caused by insufficient distance to the vehicle in front. And not only does ACC offer riders more convenience, it also allows them to concentrate more on the road, particularly in high-density traffic.
Collision warning system
In road traffic, even the briefest lapse in concentration can have serious consequences. Bosch has developed a collision warning system for motorcycles to reduce the risk of a rear-end collision or to mitigate its consequences. The system is active as soon as the vehicle starts and it supports the rider in all relevant speed ranges. If the system detects that another vehicle is dangerously close and the rider does not react to the situation, it warns the rider by way of an acoustic or optical signal.
This system keeps a lookout in all directions to help motorcyclists change lanes safely. A radar sensor serves as the blind-spot recognition system’s electronic eye, registering objects in hard-to-see areas. Whenever there is a vehicle in the rider’s blind spot, the technology warns them by way of an optical signal – for example, in the rear-view mirror.