Öz
Kaynakça
- [1] Fabregas, E., Farias, G., Peralta, E., Vargas, H. & Dormido, S. Teaching control in mobile robotics with V-REP and a Khepera IV library. In 2016 IEEE conference on control applications.2016. IEEE. pp.821-826.
- [2] Francisco R., Francisco V. and Carlos L.A.,. A review of mobile robots: Concepts, methods, theoretical framework, and applications. International Journal of Advanced Robotic Systems.2019. 16(2).1-22
- [3] Pablo, C., Miguel, V., David, C., Luis, M. and Manuel, B., Indoor Robot Positioning using an Enhanced Trilateration Algorithm. Engineering and Industrial Development Center (CIDESI).2016. 13(3).1-8
- [4] Chuang, L. Object localisation strategy for a mobile robot using RFID.2012. 1(1). 5.
- [5] Gueaieb, W., and Miah, M.S. An intelligent mobile robot navigation technique using RFID technology. IEEE Transactions on Instrumentation and Measurement.2008. 57(9), pp. 1908-1917.
- [6] Mohanad, N. N., Mohammed, Q., and Omar, Y. I. Landmarks exploration algorithm for mobile robot indoor localization using vision sensor. Journal of Engineering Science and Technology. 2021. 16(4). pp. 3165 – 3184.
- [7] Ladd, A.M., Bekris, K.E., Rudys, A.P., Wallach, D.S. and Kavraki, L.E. On the feasibility of using wireless ethernet for indoor localisation. IEEE Transactions on Robotics and Automation.2004. 20(3), pp. 555-559.
- [8] Felipe, P. C., Joao, A. F., and Andre S. O. Integrating mobile robot navigation control, visual object detection and manipulation using ROS and V-REP. Conference: Congresso Brasileiro de Inteligência Computacional.2020.134(10).5.
- [9] Bittel, O. and Blaich, M. Mobile robot localisation using beacons and the Kalman filter technique for the Eurobot competition. International Conference on Research and Education in Robotics. Springer.2011.pp. 55-67.
- [10] Huosheng, H., and Dongbing, G. Landmark-based navigation of industrial mobile robots. Industrial Robot- an International Journal.2000.27 (6). pp. 458-467.
Öz
This paper aims to design and implement an indoor localization method for mobile robots based on trilateration technique, Color Code signatures (CCs) as artificial passive beacons, and a depth camera. The artificial passive beacons are designed as three disks positioned one on top of the other’s with different sizes and colors (primary colors only, RGB). The three disks share the same center. The designed beacons are placed on the ceiling to be visible from most locations within the room. The robot's model, controller, and localization method are implemented and evaluated inside the CoppeliaSim environment. The simulation results show that the CCs detecting algorithm enables the robot to discover the designed beacons, achieve an accurate localization and reach the target
Anahtar Kelimeler
Omnidirectional robot CoppeliaSim program Trilateration. localization
Kaynakça
- [1] Fabregas, E., Farias, G., Peralta, E., Vargas, H. & Dormido, S. Teaching control in mobile robotics with V-REP and a Khepera IV library. In 2016 IEEE conference on control applications.2016. IEEE. pp.821-826.
- [2] Francisco R., Francisco V. and Carlos L.A.,. A review of mobile robots: Concepts, methods, theoretical framework, and applications. International Journal of Advanced Robotic Systems.2019. 16(2).1-22
- [3] Pablo, C., Miguel, V., David, C., Luis, M. and Manuel, B., Indoor Robot Positioning using an Enhanced Trilateration Algorithm. Engineering and Industrial Development Center (CIDESI).2016. 13(3).1-8
- [4] Chuang, L. Object localisation strategy for a mobile robot using RFID.2012. 1(1). 5.
- [5] Gueaieb, W., and Miah, M.S. An intelligent mobile robot navigation technique using RFID technology. IEEE Transactions on Instrumentation and Measurement.2008. 57(9), pp. 1908-1917.
- [6] Mohanad, N. N., Mohammed, Q., and Omar, Y. I. Landmarks exploration algorithm for mobile robot indoor localization using vision sensor. Journal of Engineering Science and Technology. 2021. 16(4). pp. 3165 – 3184.
- [7] Ladd, A.M., Bekris, K.E., Rudys, A.P., Wallach, D.S. and Kavraki, L.E. On the feasibility of using wireless ethernet for indoor localisation. IEEE Transactions on Robotics and Automation.2004. 20(3), pp. 555-559.
- [8] Felipe, P. C., Joao, A. F., and Andre S. O. Integrating mobile robot navigation control, visual object detection and manipulation using ROS and V-REP. Conference: Congresso Brasileiro de Inteligência Computacional.2020.134(10).5.
- [9] Bittel, O. and Blaich, M. Mobile robot localisation using beacons and the Kalman filter technique for the Eurobot competition. International Conference on Research and Education in Robotics. Springer.2011.pp. 55-67.
- [10] Huosheng, H., and Dongbing, G. Landmark-based navigation of industrial mobile robots. Industrial Robot- an International Journal.2000.27 (6). pp. 458-467.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Mühendislik |
| Bölüm | TJST |
| Yazarlar | |
| Yayımlanma Tarihi | 20 Mart 2022 |
| Gönderilme Tarihi | 11 Ocak 2022 |
| Yayımlandığı Sayı | Yıl 2022 Cilt: 17 Sayı: 1 |
