Keywords
Internet of Things engineering
Practical teaching
Teaching reform
Domestic technology
Submitted : 2025-08-27
Accepted : 2025-09-11
Published : 2025-09-26
Abstract
Aiming at the problems existing in the current practical teaching of Internet of Things engineering, such as the dependence of hardware platforms on foreign chips and the disconnection between teaching content and industrial needs, this paper proposes a teaching reform scheme based on the domestic Loongson processor. Through the construction of a Loongson Internet of Things experimental platform, the development of supporting teaching resources, and the optimization of the practical curriculum system, the in-depth application of domestic technologies in teaching has been realized. Practice shows that this reform scheme has effectively improved students’ independent innovation ability and application ability of domestic chips, providing a new path for cultivating Internet of Things engineering and technical talents that meet the national strategic needs.
References
Ding W, 2024, Design and Implementation of an Experimental Teaching Model Machine for the Loongson Instruction Set Architecture, thesis, Jiangsu University.
Yu M, 2024, Research on Model Transplantation and Optimization Based on Domestic Intelligent Chips, thesis, Hangzhou Dianzi University.
Loongson Technology Corporation Limited, 2022, Loongson 1C300 Processor Development Manual, thesis, Loongson Technology Corporation Limited.
Shao X, Wang C, et al., 2018, Research on IoT Comprehensive Training Teaching Mode Driven by Practical Innovation Projects. Information Technology, 17(6): 18–19.
National Information Technology Application Innovation Industry Alliance, 2024, China Information Technology Application Innovation Industry Development Report, thesis, National Information Technology Application Innovation Industry Alliance.
Zhang H, Ji R, Xi Y, et al., 2024, Domestic CAN Bus Communication Controller Based on “Loongson-1”. Diesel Engine, 46(2): 55–60.
Yu G, Wei X, Tian Q, et al., 2022, Research on Real-time Optimization Method of Loongnix System Based on Loongson 2K1000. Application of Electronic Technology, 48(6): 98–102 + 111.
Yu H, 2023, IP Design and Implementation of SM9 Algorithm Prime Field for IoT Security Chips, thesis, Zhongyuan University of Technology.
Xu Y, Chen F, Ding Z, et al., 2018, Kernel System Startup Based on Domestic Loongson 2K1000 Loongson Pi. Modern Information Technology, 2(12): 29–34.
Tian L, Sun J, Guo Y, 2020, Exploration on Teaching Reform of Fieldbus Technology under the Applied Talent Training Mode. Science and Technology Economic Guide, 33: 178–179.
Huang Q, Tang X, Huang R, et al., 2022, Research on Cloud-Network-Edge-Terminal Collaboration Technology for Industrial Internet. Posts and Telecommunications Design Technology, 3: 25–28.
Wang X, Cheng J, 2023, Thoughts on Practical Teaching Reform of Embedded Systems for Microelectronics Major. University Laboratory Science and Technology, 2: 51–54.
Zhang D, 2021, Embedded Software Development for IoT Door Lock Based on Loongson Microcontroller, thesis, Southwest University.
Yue Y, 2021, Research and Design of Gas Well Controller Based on Domestic Loongson CPU, thesis, Xi’an Shiyou University.
Yu L, Lai Y, Ma X, et al., 2020, Blockchain Construction Method Based on Domestic Platform. Computer Knowledge and Technology, 16(1): 25–26 + 32.