Abstract
This paper proposes a navigation algorithm for the mobile robot which can save lots of running distances, running time and mechanical loss of the mobile robot, usually the real mobile robot is established on the embedded system and works in the indoor and dynamic environment, so this paper proposes a new algorithm to obtain the accurate moving direction of the mobile robot where the GPS and corresponding sensors are unavailable, it also proposes a navigation algorithm for the mobile robot in the dynamic environment based on the PF-SLAM algorithm which combines the Particle Filter and FAST-SLAM algorithm, they are very suitable running on the embedded system because it avoids the large complex computation, finally the simulation of the proposed algorithm is shown in the paper, the corresponding real experiment is carried out to prove the effectiveness of the algorithm for the mobile robot in our laboratory dynamic environment.
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References
Cui, R.X., Li, Y., Yan, W.S.: Mutual information-based multi-AUV path planning for scalar field sampling using multidimensional RRT. IEEE Trans. Syst. Man Cybern. Syst. 46(7), 993–1004 (2016)
Salzman, O., Halperin, D.: Asymptotically near-optimal RRT for fast, high-quality motion planning. IEEE Trans. Robot. 32(3), 473–482 (2016)
Lee, K., Koo, J.C., Choi, H., Moon, H.: An RRT* path planning for kinematically constrained hyper-redundant in pipe robot. In: The 12th International Conference on Ubiquitous Robots and Ambient Intelligence (URAl), October 28–30, 2015/KINTEX, Goyang city, Korea
Li, Y.M., Liu, Y.: Real-time tip-over prevention and path following control for redundant nonholonomic mobile modular manipulators via fuzzy and neural-fuzzy approaches. J. Dyn. Syst. Meas. Control Trans. ASME 128(4), 753–764 (2006)
Miao, H., Huang, X.D.: A heuristic field navigation approach for autonomous underwater vehicles. Intell. Autom. Soft Comput. 20(4), 15–32 (2014)
Abu-Dakka, F.J., Valero, F., Mata, V.: Evolutionary path planning algorithm for industrial robots. Intell. Autom. Soft Comput. 26(11–12), 1369–1392 (2012)
Yan, Y.P., Li, Y.M.: Autonomous path planning and navigation of a mobile robot with multi-sensors based on fuzzy logic in dynamic environment. Int. J. Intell. Syst. Appl. Robot. 7(1), 1–14 (2016)
Zhao, K., Li, Y.M.: Path planning in large-scale indoor environment using RRT. In: 32nd Chinese Control Conference (CCC), July 26–28, 2013, Xian, China, pp. 5993–5998
Yan, Y.P., Li, Y.M.: Mobile robot autonomous path planning based on fuzzy logic and filter smoothing in dynamic environment. In: 12th World Congress on Intelligent Control and Automation, June 12–15, 2016, Guilin, China, pp. 1479–1484
Ohki, T., Nagatani, K., Yoshida, K.: Local path planner for mobile robot in dynamic environment based on distance time transform method. Adv. Robot. 26(14), 1623–1647 (2012)
Petereit, J., Emter, T., Frey, C.W.: Safe mobile robot motion planning for way point sequences in a dynamic environment. In: IEEE International Conference on Industrial Technology, pp. 181–186. (2013)
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Yan, Y., Wong, S. A navigation algorithm of the mobile robot in the indoor and dynamic environment based on the PF-SLAM algorithm. Cluster Comput 22 (Suppl 6), 14207–14218 (2019). https://doi.org/10.1007/s10586-018-2271-3
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DOI: https://doi.org/10.1007/s10586-018-2271-3