BASKETBALL ROBOT TARGET DETECTION COMBINING ROS AND IMPROVED YOLOv5 ALGORITHM. 265-279

Luzhen Wang

References

1. [1] N. Oh and H. Rodrigue, Toward the development of large-scaleinflatable robotic arms using hot air welding, Soft Robotics,10, 2023, 88–96.
2. [2] M.A. RPohan and J. Utama, Efficient sampling-based formobile robot path planning in a dynamic environmentbased on the rapidly-exploring random tree and a rule-template sets. International Journal of Engineering, 36, 2023,797–806.
3. [3] A. Budiyarto, S C. Abadi, and Naufaldo, Autonomousnavigation system for hexa-legged search and rescue robot usingLiDAR, International Journal of Robotics and Automation,13, 2024, 50–64.
4. [4] Y. Zhi and Y. Jiang, Design of basketball robot basedon behavior-based fuzzy control, International Journal ofAdvanced Robotic Systems, 17, 2020, 1–10.
5. [5] L, Li and K. Wang, Research on automatic recogni-tion method of basketball shooting action based onbackground subtraction method, International Jour-nal of Electronic Biometrics, 14, 2022, 318–335,DOI: http://dx.doi.org/10.1504/IJBM.2022.124676.
6. [6] J. Wei, Study and application of computer information bigdata in basketball vision system using high-definition cameramotion data capture, Journal of Physics: Conference Series,2083, 2021, 42003–42004.
7. [7] B. Yuan and S. Xu, Applications of data mining in intelligentcomputer-aided athletic training, Computer-Aided Design andApplications, 18, 2021, 1–12.
8. [8] Q. Wang, W. Feng, L. Yao, C. Zhuang, B. Liu, and L. Chen,TPH-YOLOv5-Air: Airport confusing object detection viaadaptively spatial feature fusion, Remote Sensing, 15, 2023,3883.
9. [9] F Shi and X. Hu, Fuzzy dynamic obstacle avoidance algorithmfor basketball robot based on multi-sensor data fusiontechnology, International Journal of Computer Science, 33,2022, 649–666.
10. [10] L. Liu, Objects detection toward complicated high remotebasketball sports by leveraging deep CNN architecture, FutureGeneration Computer Systems, 119, 2021, 31–36.
11. [11] P, Wang & W. Gao, Image detection and basketballtraining performance simulation based on improved machinelearning, Journal of Intelligent & Fuzzy Systems, 40, 2021,2493–2504.
12. [12] T. Wang & C. Shi, Basketball motion video targettracking algorithm based on improved gray neuralnetwork, Neural Computing and Applications, 35, 2023,4267–4282.
13. [13] D, Tian, Y. Han, S. Wang, X. Chen, and T. Guan, Absolutesize IoU loss for the bounding box regression of the objectdetection, Neurocomputing, 500, 2022, 1029–1040.
14. [14] R. Xu and C. Li, A modular agricultural robotic system(MARS) for precision farming: Concept and implementation,Journal of Field Robotics, 39, 2022, 387–409.
15. [15] C. Xu, L. Lin, C. Zhou, and L. Xie, A compactsurgical robot system for craniomaxillofacial surgery and itspreliminary study, Journal of Craniofacial Surgery, 32, 2020,101–107.
16. [16] Y. Wang and G. Fu, A novel object recognition algo-rithm based on improved YOLOv5 model for patient carerobots, International Journal of Humanoid Robotics, 19,2022, 54–77.
17. [17] M, Zhang, K. Jiang, Y. Cao, M. Li, N. Hao, and Y. Zhang, Adeep learning-based method for deviation status detection inintelligent conveyor belt system, Journal of Cleaner Production,363, 2022, 1–12.
18. [18] Hao Y, Liang W, Yang L, J. He, and J. Wu, Methods of imagerecognition of overhead power line insulators and ice typesbased on deep weakly-supervised and transfer learning, IETGeneration, Transmission & Distribution, 16, 2022, 2140–2153.
19. [19] G. Li, J. Zhang, M. Zhang, R. Wu, X. Cao, and W. Liu,Efficient depthwise separable convolution accelerator forclassification and UAV object detection, Neurocomputing, 490,2022, 1–16.
20. [20] Y. Wang, Y. Li, X. Guo, L. Jiao, and X. Liu, CDANet: Common-and-differential attention network for object detection andinstance segmentation, Pattern Recognition Letters, 158, 2022,48–54.
21. [21] V. Ahumada-Newhart, M. Schneide, and L.D. Riek, The powerof robot-mediated play: forming friendships and expressingidentity, ACM Transaction Human-Robot Interaction, 12, 2023,1–21.
22. [22] X. Fang, F. Hu, M. Yang, T. Zhu, R. Bi, Z. Zhang, andZ, Gao, Small object detection in remote sensing images basedon super-resolution, Pattern Recognition Letters, 153, 2022,107–112.
23. [23] G. Mehdi, H. Hooman, Y. Liu, and P. Saedi, Datamining techniques for web mining: A survey, AIA, 1, 2022,3–10.
24. [24] Y. Jiang, D. Han, M. Cui, Y. Fan, and Y. Zhou, A video targettracking and correction model with blockchain and robustfeature location, Sensing, 23, 2023, 2408–2409.
25. [25] J. Huang and G. Zhang, A study of an online tracking systemfor spark images of abrasive belt-polishing workpieces, Sensing,23, 2023, 2025–2026.
26. [26] X. Cao, Y. Zhang, S. Lang, and Y. Gong, Swin-transformer-based YOLOv5 for small-object detection in remote sensingimages, Sensing, 23, 2023, 3634–3635.
27. [27] S.N. Appe, G. Arulselvi, and G.N. Balaji, CAM-YOLO: Tomatodetection and classification based on improved YOLOv5 usingcombining attention mechanism, PeerJ Computer Science, 9,2023, 1463–1464.
28. [28] X. Mou, S. Lei, and X. Zhou, YOLO-FR: A YOLOv5 infraredsmall target detection algorithm based on feature reassemblysampling method, Sensing, 23, 2023, 2710–2711.
29. [29] R. Zhang, K. Zheng, P. Shi, Y. Mei, H. Li, and T. Qiu,Traffic sign detection based on the improved YOLOv5, AppliedSciences, 13, 2023, 9748–9749.
30. [30] M, Afaq, A, Jebelli, and R. Ahmad, An intelligent thermalmanagement fuzzy logic control system design and analysisusing ANSYS fluent for a mobile robotic platform in extremeweather applications, Journal of Intelligent & Robotic Systems,107, 2023, 11–12.
31. [31] S, Li, Y, Liu, Y. Chen, H. Feng, P. Shen, and Y. Wu,Voice interaction recognition design in real-life scenariomobile robot applications, Applied Sciences, 13, 2023,3359–3360.
32. [32] H. Feng, S. Jie, M. Huang, H. Meng, R. Wang, F. Fang, andG. Zhang, A novel framework on intelligent detectionfor module defects of PV plant combining the visibleand infrared images, Journal of Solar Energy, 236, 2022,406–416.
33. [33] B. Aydin & S. Singha, Drone detection using YOLOv5,Engineering, 4, 2023, 416–433.
34. [34] H. Liu, X. Duan, H. Lou, J. Gu, H. Chen, and L. Bi,Improved GBS-YOLOv5 algorithm based on YOLOv5 appliedto UAV intelligent traffic, Scientific Reports, 13, 2023,9577–9578.
35. [35] H. Messbah, M. Emharraf, & M. Saber, Robot indoornavigation: Comparative analysis of LiDAR 2D and visualSLAM, International Journal of Robotics and Automation, 13,2024, 41–49.
36. [36] G. Li, X. Wang, Y, Li, and Z. Li, Adaptive clusteringobject detection method for UAV images under long-taileddistributions, Information Technology and Control, 52, 2023,1025-1044.
37. [37] M.F. Daffa, B.S.B. Dewantara, and Setiawardhana, Robotnavigation on inclined terrain using social force model,International Journal of Robotics and Automation, 13, 2024,131–139.278

Important Links:

• Abstract
• DOI: 10.2316/J.2026.206-1294
• From Journal (206) International Journal of Robotics and Automation - 2026

Go Back