Practices of using weigh-in-motion technology for truck weight regulation in China: Fid-Bau Portal

Practices of using weigh-in-motion technology for truck weight regulation in China

Hang, Wen / Xie, Yuanchang / He, Jie

Abstract Trucks exceeding legal axle and gross vehicle weight limits can bring severe damage to infrastructure and increase the risk of traffic crashes. It is therefore important to ensure that freight carriers comply with weight regulations. This paper provides a comprehensive review of how weigh-in-motion (WIM) technology has been used to improve the truck weight regulation in China. In particular, a toll-by-weight method is introduced for trucks using toll roads. Compared to the conventional vehicle class based toll structure, the toll-by-weight method establishes a fair fee structure that prevents overloaded trucks from taking advantage of non-overloaded trucks. It also allows freight carriers the flexibility of moderate overloading by paying higher toll rates. This paper further proposes a mechanism of integrating toll-by-weight with effective weight enforcement for truck weight regulations. It encourages overloaded trucks to use toll roads instead of vulnerable non-toll roads, and helps to generate additional much needed revenues by local governments for highway construction, maintenance, and truck weight enforcement. In addition, technical and managerial problems affecting the applications of WIM are pointed out in this paper. Finally, perspectives on future WIM development and adaptions of other advanced technologies for truck weight regulations are presented.

Highlights • Provide a comprehensive review of how weigh-in-motion has been used in China. • Examine the efficacy of toll-by-weight and weight enforcement in China. • Provide a mechanism to integrate toll-by-weight and weight enforcement. • Existing weight regulations in China are effective, flexible and easy to implement. • Discuss future trends in weight-in-motion and weight regulation development.