Revisiting Boustrophedon Coverage Path Planning as a Generalized Traveling Salesman Problem
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Publisher
Springer Singapore
Link
http://link.springer.com/content/pdf/10.1007/978-981-15-9460-1_20
Reference27 articles.
1. Bähnemann, R., Schindler, D., Kamel, M., Siegwart, R., Nieto, J.: A decentralized multi-agent unmanned aerial system to search, pick up, and relocate objects. In: IEEE International Symposium on Safety, Security and Rescue Robotics, pp. 123–128. IEEE (2017)
2. Bochkarev, S., Smith, S.L.: On minimizing turns in robot coverage path planning. In: IEEE International Conference on Automation Science and Engineering, pp. 1237–1242. IEEE (2016)
3. Cabreira, T., Brisolara, L., R Ferreira, P.: Survey on coverage path planning with unmanned aerial vehicles. Drones 3(1), 1–38 (2019)
4. Choset, H., Pignon, P.: Coverage path planning: the boustrophedon cellular decomposition. In: Field and Service Robotics, pp. 203–209. Springer (1998)
5. De Berg, M., Van Kreveld, M., Overmars, M., Schwarzkopf, O.: Computational geometry. In: Computational Geometry, pp. 1–17. Springer (1997)
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