Motorcycle safety technology encompasses a range of electronic, mechanical, and structural systems designed to improve rider safety and vehicle stability. These technologies aim to reduce the likelihood of crashes, minimise injury severity, and increase control under various riding conditions. Since the early 1980s, manufacturers and suppliers have developed increasingly sophisticated systems based on advances in electronics, sensors, and control software.
Motorcycle safety technology can be divided into two categories:
The most significant advancements have come from active safety, where sensors and control units continuously monitor wheel speed, traction, lean angle, and braking forces to intervene when necessary. [1]
Introduced widely in the late 1980s, motorcycle ABS prevents wheel lock-up during braking by modulating brake pressure. Modern ABS systems use wheel-speed sensors and electronic control units to optimise braking force and stability. [2]
BMW Motorrad’s ABS Pro and similar systems from other manufacturers extend standard ABS by incorporating lean-angle data from an inertial measurement unit (IMU). This allows controlled braking while the motorcycle is cornering, reducing the risk of skidding or standing up mid-turn. [3]
TCS detects wheel slip during acceleration and automatically reduces engine torque by adjusting fuel injection, ignition timing, or throttle position. Examples include BMW’s Dynamic Traction Control (DTC), Ducati’s DTC EVO, and Kawasaki’s KTRC.
Developed by Bosch, Motorcycle Stability Control integrates ABS and traction control with six-axis IMU data to maintain stability during cornering and braking. It represents one of the first complete electronic safety ecosystems for motorcycles. [4]
Systems such as BMW’s Dynamic ESA (Electronic Suspension Adjustment) automatically adapt damping and preload settings based on load, road surface, and riding mode, improving stability and comfort.
Modern motorcycles use electronic throttle control to deliver precise power response. Combined with selectable riding modes, such as “Rain,” “Sport,” or “Off-road”m these systems tailor throttle maps, traction control, and ABS settings to match conditions.
Introduced in the 2020s, radar-based adaptive cruise control maintains distance from other vehicles. Some systems integrate blind-spot detection and collision warnings, contributing to rider situational awareness. [5]
Motorcycle airbags appear both on the vehicle and in rider equipment. Honda introduced the first on-board airbag on the Honda Gold Wing in 2006. Wearable airbag vests and jackets, such as those developed by Alpinestars and Dainese, use accelerometers to deploy within milliseconds of a collision. [6]
Helmets with emergency-release systems, electronically linked communicators, and data-recording functions contribute to rider protection and post-crash response.
Emerging motorcycle safety research focuses on vehicle-to-vehicle (V2V) communication, predictive braking algorithms, and semi-autonomous intervention systems. Manufacturers and suppliers are collaborating with organisations such as the FIM and Euro NCAP to standardise advanced safety technologies across markets. [7]