ROBOT ARM PERCEPTIVE EXPLORATION BASED SIGNIFICANT SLAM IN SEARCH AND RESCUE ENVIRONMENT

Hongling Wang, Chengjin Zhang, Yong Song, and Bao Pang

References

1. [1] M. Stachowsky, T. Hummel, M. Moussa, et al., A slip detection and correction strategy for precision robot grasping, IEEE/ASME Transactions on Mechatronics, 21(5), 2016,2214–2226.
2. [2] H. Wu, Y.X. Wu, C.A. Liu, et al., Fast robot localizationapproach based on manifold regularization with sparse areafeatures, Cognitive Computation, 8, 2016, 856–876.
3. [3] A. Kim and R.M. Eustice, Perception-driven navigation: Activevisual SLAM for robotic area coverage, 2013 IEEE Int. Conf.Robotics and Automation (ICRA), Karlsruhe, May 6–10, 2013,3196–3203.
4. [4] M. Kara, A.M. Erkman, and I. Erkmen, Prioritized mobilerobot exploration based on percolation enhanced entropy basedFastSLAM, Journal of Intelligent and Robotic Systems, 75(10),2014, 541–567.
5. [5] S. Ahmad, H. Zhang, and G. Liu, Multiple working modecontrol of door-opening with a mobile modular and reconfigurable robot, IEEE/ASME Transactions on Mechatronics,18(3), 2013, 833–844.
6. [6] V. Lippiello, F. Ruggiero, B. Siciliano, et al., Visual graspplanning for unknown objects using a multifingered robotichand, IEEE/ASME Transactions on Mechatronics, 18(3),2013, 1050–1059.
7. [7] T. Lupton and S. Sukkarieh, Visual-inertial-aided navigationfor high-dynamic motion in built environments without initialconditions, IEEE Transactions on Robotics, 28(1), 2012, 61–76.
8. [8] R.R. Murphy, J. Kravitz, S.L. Stover, et al., Mobile robotsin mine rescue and recovery, IEEE Robotics and AutomationMagazine, 9(6), 2009, 91–103.
9. [9] J.S. Hu and Y.J. Chang, Automatic calibration of hand–eye–workspace and camera using hand-mounted line laser,IEEE/ASME Transactions on Mechatronics, 18(6), 2013,1778–1786.
10. [10] L. Ssebazza and Y.J. Pan, DGPS-based localization and pathfollowing approach for outdoor wheeled mobile robots, Inter-national Journal of Robotics and Automation, 30(1), 2015,12–25.
11. [11] S. Saeedi, L. Paull, M. Trentini, and H. Li, Occupancy gridmap merging for multiple robot simultaneous localization andmapping, International Journal of Robotics and Automation,30(2), 2015, 1–46.
12. [12] C.Y. Lin and M. Tomizuka, Probabilistic approach to modelingand parameter learning of indirect drive robots from incompletedata, IEEE/ASME Transactions on Mechatronics, 20(3), 2015,1036–1045.
13. [13] N. Wang, S. Ma, B. Li, and M. Wang, Subjective exploration forsimultaneous localization and mapping used in ruins, The 5thAnnual IEEE International Conference on Cyber Technologyin Automation, Control and Intelligent Systems, Shenyang,2015,169–174.
14. [14] M. Liu, F. Colas, L. Oth, and R. Siegwart, Incremental topological segmentation for semi-structured environments usingdiscretized GVG, Autonomous Robots, 37(2), 2015, 143–160.
15. [15] P. Si, B. Cheler, F. Pomerleau, et al., Lighting-invariantadaptive route following using iterative closest point matching,Journal of Field Robotics, 32(4), 2015, 534–564.
16. [16] D.J. Kim, Z. Wang, N. Paperno, et al., System design and implementation of UCF-MANUS—An intelligent assistive roboticmanipulator, IEEE/ASME Transactions on Mechatronics,19(1), 2014, 225–237.
17. [17] N. Atanasov, J. Le Ny, K. Daniilidis, et al., Decentralizedactive information acquisition: Theory and application tomulti-robot SLAM, 2015 IEEE Int. Conf. on Robotics andAutomation (ICRA), Washington State Convention CenterSeattle, Washington, 2015, 4775–4782.
18. [18] C. Brand, M. J. Schuster, H. Hirschmuller, et al., Stereo-vision based obstacle mapping for indoor/outdoor SLAM, 2014IEEE/RSJ Int. Conf. on Intelligent Robots and Systems (IROS2014 ), Chicago, IL, 2014, 1846–1853.
19. [19] H. Alzaq and S. Kabadayi, Mobile robot comes to the rescue ina WSN, 2013 IEEE 24th Int. Symp. on Personal, Indoor andMobile Radio Communications: Mobile and Wireless Networks,2013, 1977–1982.
20. [20] B. Olofsson, J. Antonsson, H. Kortier, et al., Sensor fusion forrobotic workspace state estimation, IEEE/ASME Transactionson Mechatronics, 21(5), 2015, 2236–2248.
21. [21] B. Komati, C. Cl´evy, and P. Lutz, High bandwidth micro-gripper with integrated force sensors and position estimationfor the grasp of multistiffness microcomponents, IEEE/ASMETransactions on Mechatronics, 21(4), 2016, 2039–2049.
22. [22] R. Reid, A. Cann, C. Meiklejohn, et al., Cooperative multi-robot navigation, exploration, mapping and object detectionwith ROS, 2013 IEEE Intelligent Vehicles Symposium (IV),Gold Coast, 2013, vol. 36, no. 1, 1083–1088.
23. [23] S.Y. Chen, Kalman filter for robot vision: A survey,IEEE Transactions on Industrial Electronics, 59(11), 2012,4409–4420.
24. [24] M. Grossard, J. Martin, and G.F.D. Cruz Pacheco, Control-oriented design and robust decentralized control of the CEAdexterous robot hand, IEEE/ASME Transactions on Mechatronics, 20(4), 2015, 1809–1821.
25. [25] R.R. Murphy, Use of scripts for coordinating perception andaction, Robot & Intelligent Syst., 1, 1996, 156–161.
26. [26] Y. Yamamoto, P. Pirjanian, M. Munich et al., Optical sensingfor robot perception and localization, 2005 IEEE Workshopon Advanced Robotics and its Social Impacts, Union Street,Pasadena, USA, 2005, 14–17.
27. [27] I. Siradjuddin, L. Behera, T.M. Mcginnity, et al, Image-basedvisual servoing of a 7-DOF robot manipulator using an adaptivedistributed fuzzy PD controller, IEEE/ASME Transactions onMechatronics, 19(2), 2014, 512–523.
28. [28] P. Yadmellat, A.S. Shafer, and M.R. Kermani, Design anddevelopment of a single-motor, two-DOF, safe manipulator,IEEE/ASME Transactions on Mechatronics, 19(4), 2014,1384–1391.
29. [29] A. Das, M. Diu, N. Mathew, et al., Mapping, planning,and sample detection strategies for autonomous exploration,Journal of Field Robotics, 31(1), 2014, 75–106.
30. [30] M.G. Puyol, M. Frassle, and P. Robertson, Collaborative mapping for Pedestrian navigation in security applications, FutureSecurity 2012, Communications in Computer and InformationScience (CCIS ), 318, 2012, 49–60.
31. [31] M. Makarov, A. Caldas, M. Grossard, et al., Adaptive filteringfor robust proprioceptive robot impact detection under modeluncertainties, IEEE/ASME Transactions on Mechatronics,19(6), 2014, 1917–1928.
32. [32] H.S. Kim and J.B. Song, Multi-DOF counterbalance mechanism for a service robot arm, IEEE/ASME Transactions onMechatronics, 19(6), 2014, 1756–1763.
33. [33] D. Schleicher, L.M. Bergasa, M. Oca˜na, et al., Real-time hierarchical outdoor SLAM based on stereovision and GPS fusion,IEEE Transactions on Intelligent Transportation Systems,10(3), 2009, 440–452.
34. [34] Y.H. Wang, Y.L. Tuo, S.X. Yang, and M.Y. Fu, Nonlinearmodel predictive control of dynamic positioning of deep-seaships with a unified model, International Journal of Roboticsand Automation, 31(6), 2016, 519–529.
35. [35] K. Kherraz, M. Hamerlain, and N. Achour, Robust neuro-fuzzy sliding mode controller for a flexible robot manipulator,International Journal of Robotics and Automation, 30(1), 2015,1–10.
36. [36] J.M. Li, J.G. Wang, S.X. Yang, and S.W. Jia, SLAM basedon information fusion of stereo vision and electronic compass,International Journal of Robotics and Automation, 31(3), 2016,243–250.
37. [37] D. Schleicher, L.M. Bergasa, M. Oca˜na, et al., Real-timehierarchical stereo visual SLAM in large-scale environments,Robotics and Autonomous Systems, 58(3), 2010, 991–1002.

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• Abstract
• DOI: 10.2316/Journal.206.2018.4.206-5122
• From Journal (206) International Journal of Robotics and Automation - 2018

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