GB/T 39901-2021
Performance requirements and test methods for advanced emergency braking system (AEBS) of passenger cars
| Issuing body | GB |
|---|---|
| Committees | Standardization Administration of China |
| First issued | 2021 |
| Latest revision | 2021 |
| Status | active |
| Category | national |
| Topics | adas_effectiveness, braking_response |
| Reference | https://www.codeofchina.com/standard/GBT39901-2021.html |
Scope
Specifies terms, technical requirements and test methods for advanced/automatic emergency braking systems (AEBS) on Category M1 passenger cars. The system monitors the forward environment and automatically brakes at collision risk, including the driver-warning phase preceding intervention. Active; the mandatory GB 39901-2025 (light-duty vehicles) supersedes it from 2028-01-01.
Related Papers (20)
- Research on Automatic Emergency Braking System and Its Control Strategy Based on All-operating-condition Model ↗ · 2021 · paper relates to standard · 0.73 (embedding)
- Study on the Control Algorithm of Automatic Emergency Braking System (AEBS) for Commercial Vehicle Based on Identification of Driving Condition ↗ · 2022 · paper relates to standard · 0.71 (embedding)
- Research of vehicle automatic emergency braking system evaluation methods ↗ · 2016 · paper relates to standard · 0.71 (embedding)
- The potential of autonomous emergency braking systems to mitigate passenger vehicle crashes ↗ · 2012 · paper relates to standard · 0.69 (embedding)
- Adaptive Advanced Emergency Braking on Combined Road Friction Coefficients · 2024 · paper relates to standard · 0.68 (embedding)
- FMVSS Considerations for Vehicles with Automated Driving Systems: Volume 3 · 2025 · paper relates to standard · 0.68 (embedding)
- Improving the safety relevance of automatic emergency braking testing programs: An examination of common characteristics of police-reported rear-end crashes in the United States ↗ · 2022 · paper relates to standard · 0.68 (embedding)
- Effects of automatic emergency braking systems to reduce risk of crash and serious injuries among pedestrians and bicyclists · 2025 · paper relates to standard · 0.67 (embedding)
- Characteristics of rear-end crashes involving passenger vehicles with automatic emergency braking ↗ · 2019 · paper relates to standard · 0.67 (embedding)
- Field Study of Light-Vehicle Crash Avoidance Systems: Automatic Emergency Braking and Dynamic Brake Support · 2018 · paper relates to standard · 0.66 (embedding)
- Automatic Emergency Braking for Pedestrians: Effective Target Population and Expected Safety Benefits ↗ · 2013 · paper relates to standard · 0.66 (embedding)
- FMVSS Considerations for Vehicles with Automated Driving Systems: Volume 4 · 2025 · paper relates to standard · 0.66 (embedding)
- Do Driver Characteristics and Crash Conditions Modify the Effectiveness of Automatic Emergency Braking? ↗ · 2021 · paper relates to standard · 0.65 (embedding)
- Effects on crash risk of automatic emergency braking systems for pedestrians and bicyclists · 2023 · paper relates to standard · 0.65 (embedding)
- Autonomous Vehicle with Emergency Braking Algorithm Based on Multi-Sensor Fusion and Super Twisting Speed Controller ↗ · 2022 · paper relates to standard · 0.65 (embedding)
- Shared control versus traded control in driving: a debate around automation pitfalls · 2022 · paper relates to standard · 0.65 (embedding)
- FMVSS Considerations for Vehicles with Automated Driving Systems: Volume 2 · 2021 · paper relates to standard · 0.64 (embedding)
- Effectiveness of Advanced Driver Assistance Systems in Preventing System-Relevant Crashes ↗ · 2021 · paper relates to standard · 0.64 (embedding)
- FMVSS Considerations for Vehicles with Automated Driving Systems: Volume 1 · 2020 · paper relates to standard · 0.64 (embedding)
- Draft Research Test Procedure Performability Assessment for Five ADAS Variants · 2021 · paper relates to standard · 0.63 (embedding)