Page 25 - Read Online
P. 25
Lei et al. Intell Robot 2022;2(4):31332 I http://dx.doi.org/10.20517/ir.2022.18 Page 331
Financial support and sponsorship
None.
Availability of data and materials
Not applicable.
Conflicts of interest
All authors declared that there are no conflicts of interest.
Ethical approval and consent to participate
Not applicable.
Consent for publication
Not applicable.
Copyright
© The Author(s) 2022.
REFERENCES
1. United States Department of Agriculture NASS. Poultryproduction and value 2020 summary; 2018. Available from: https://www.nass.u
sda.gov/Publications/Todays_Reports/reports/plva0421.pdf [Last accessed on 30 Aug 2022].
2. Tottori J, Yamaguchi R, Murakawa Y, Sato M, Uchida K, et al. The use of feed restriction for mortality control of chickens in broiler
farms. Avian Dis 1997:433–37. DOI
3. SchweanLardner K, Fancher B, Gomis S, Van Kessel A, Dalal S, et al. Effect of day length on cause of mortality, leg health, and ocular
health in broilers. Poultry Sci 2013;92:1–11. DOI
4. Astill J, Dara RA, Fraser ED, Roberts B, Sharif S. Smart poultry management: smart sensors, big data, and the internet of things. Comput
Electr Agricult 2020;170:105291. DOI
5. Ren G, Lin T, Ying Y, Chowdhary G, Ting K. Agricultural robotics research applicable to poultry production: a review. Comput Electr
Agricult 2020;169:105216.
6. Vroegindeweij BA, Blaauw SK, IJsselmuiden JM, van Henten EJ. Evaluation of the performance of PoultryBot, an autonomous mobile
robotic platform for poultry houses. Biosyst engineer 2018;174:295–315. DOI
7. Li G, Chesser GD, Huang Y, Zhao Y, Purswell JL, et al. Development and optimization of a deeplearningbased egg collecting robot.
Trans ASABE 2021:0. DOI
8. Liu L, Luo C, Shen F. Multiagent formation control with target tracking and navigation. In: IEEE International Conference on Information
and Automation (ICIA); 2017. pp. 98–103. DOI
9. Chen J, Luo C, Krishnan M, Paulik M, Tang Y. An enhanced dynamic delaunay triangulationbased path planning algorithm for au
tonomous mobile robot navigation. In: Intelligent Robots and Computer Vision XXVII: Algorithms and Techniques. vol. 7539. SPIE;
2010. pp. 253–64. DOI
10. Zhao W, Lun R, Gordon C, Fofana AB, Espy DD, et al. A privacyaware Kinectbased system for healthcare professionals. In: IEEE
International Conference on Electro Information Technology (EIT); 2016. pp. 0205–10. DOI
11. Lei T, Luo C, Ball JE, Rahimi S. A graphbased antlike approach to optimal path planning. In: IEEE Congr Evol Comput (CEC). IEEE;
2020. pp. 1–6. DOI
12. Lei T, Luo C, Jan GE, Fung K. Variable speed robot navigation by an ACO approach. In: International Conference on Swarm Intelligence.
Springer; 2019. pp. 232–42. DOI
13. Wang L, Luo C, Li M, Cai J. Trajectory planning of an autonomous mobile robot by evolving ant colony system. Int J Robot Autom
2017;32:406–13. https://www.researchgate.net/profile/ChaominLuo/publication/319032211_Trajectory_planning_of_an_autonomou
s_mobile_robot_by_evolving_ant_colony_system/links/5997a952458515644325892e/Trajectoryplanningofanautonomousmobiler
obotbyevolvingantcolonysystem.pdf [Last accessed on 30 Aug 2022].
14. Lei T, Luo C, Ball JE, Bi Z. A hybrid fireworks algorithm to navigation and mapping. In: Handbook of Research on Fireworks Algorithms
and Swarm Intelligence. IGI Global; 2020. pp. 213–32. DOI
15. Lei T, Luo C, Sellers T, Rahimi S. A batpigeon algorithm to crack detectionenabled autonomous vehicle navigation and mapping. Intell
Syst Applic 2021;12:200053. DOI
16. Wang J, Meng MQH. Optimal path planning using generalized Voronoi graph and multiple potential functions. IEEE Trans Industr
Electron 2020;67:10621–30. DOI
17. Yang SX, Luo C. A neural network approach to complete coverage path planning. IEEE Trans Syst, Man, Cybern, Part B (Cybernetics)
2004;34:718–24. DOI
