Implementation of the extended diagnostics domestic system for wheeled vehicles using the UDS protocol in the CAN data bus

Introduction (problem statement and relevance). This work is devoted to the peculiarities of developing and building a general diagnostic structure for the domestic vehicles, the requirements for it and the description of the necessary diagnostic services in the process of its implementing.
The purpose of the work was to develop domestic software diagnostic system for the wheeled vehicles and their environment to meet the international standards of the Unified Diagnostic Services protocol according to ISO 14229 and could implement various diagnostic services.
Methodology and research methods. The basic requirements and specifications of the CAN bus (ISO 15765) and the UDS protocol (ISO 14229) were described. The developed system was implemented in the Python programming environment, with the algorithm, logic of the application and the directly received data were considered and sent to the CAN data bus during the reading procedure at the address.
Scientifi c novelty and results. To diagnose vehicle malfunctions the principles of testing and validating software as part of the electronic control units equipment structure of a wheeled vehicle and necessary to complete the development and implementation of the diagnostic system software in real operating conditions were suggested. The principles of carrying out software tests, as well as the documentation data and analysis of the results obtained were described, together with the formulated conclusions on the work.
Practical significance. The paper presents the diagnostic software development results and their implementation in production to meet the requirements of ISO 14229 and ISO 15765. The software is designed to improve the efficiency of the production process to detect and localize vehicle malfunctions during their maintenance work in a service center.

1. Grigor’ev M.V., Demidov V.V. [Applying an effective strategy for maintenance and repair of vehicles as a means of improving their operational reliability]. Inzhenernye resheniya, 2020, no. 6 (16), pp. 9–14. (In Russian)

2. Petrovsky S.V., Kozlovsky V.N., Kritsky A.V. [et al.] On-Board Intelligent Information System for Diagnosing Faults in the Ignition System of a Passenger Car. 2021 Intelligent Technologies and Electronic Devices in Vehicle and Road Transport Complex, TIRVED 2021 – Conference Proceedings. Moscow, 2021.

3. Kozlovskiy V.N., Petrovskiy S.V., Novikova A.P. [Intellectual and information system of diagnostics of the condition of autonomous transport objects]. Fundamental’nye issledovaniya, 2016, no. 6-1, pp. 73–77. (In Russian)

4. Sergeev D.V., Levkin I.V. [Development of a distributed information-advising system for diagnostics and vehicle control]. Vestnik altayskoy nauki, 2010, no. 2, pp. 20–26. (In Russian)

5. ISO 15765-3:2004. Road vehicles – Diagnostics on Controller Area Networks (CAN) – Part 3: Implementation of unified diagnostic services (UDSonCAN).

6. ISO/IEC 7498-1:1994. Information technology – Open Systems Interconnection – Basic Reference Model: The Basic Model.

7. ISO 14229-1:2020. Road vehicles – Unified diagnostic services (UDS) – Part 1: Application layer.

8. ISO 14229-3:2022. Road vehicles – Unified diagnostic services (UDS) – Part 3: Unified diagnostic services on CAN implementation (UDSonCAN).

9. Zavoykin V.A. [Technical and legislative aspects of automotive on-board diagnostic systems]. Mezhdunarodnyy nauchno-issledovatel’skiy zhurnal, 2022, no. 4-1 (118), pp. 56–59. DOI: 10.23670/IRJ.2022.118.4.010.EDN DQBBEL. (In Russian)

10. Muneeswaran A. Automotive Diagnostics Communication Protocols Analysis KWP2000, CAN, and UDS. IOSR Journal of Electronics and Communication Engineering, 2015, vol. 10, ver. 1, pp. 20–31.

11. Wang J., Zhou Y., Li Q. Research on Fault Diagnostic System in CVT Based on UDS. Advances in Mechanical Engineering, 2015, vol. 7, no. 1.

12. Li D., Xie P., Zhou B., Wan J., Hu H., Cui L. UDS in CAN flash programming. IOP Conference Series: Materials Science and Engineering, 2019.