This work is licensed under the Creative Commons Attribution 4.0 International License.
Bernardo, R., Sousa, J. M., & Gonçalves, P. J. (2022). Survey on robotic systems for internal logistics. Journal of manufacturing systems, 65, 339-350.Search in Google Scholar
Nitsche, B., Straube, F., & Wirth, M. (2021, July). Application areas and antecedents of automation in logistics and supply chain management: a conceptual framework. In Supply Chain Forum: An International Journal (Vol. 22, No. 3, pp. 223-239). Taylor & Francis.Search in Google Scholar
Baum, L., Assmann, T., & Strubelt, H. (2019). State of the art-Automated micro-vehicles for urban logistics. IFAC-PapersOnLine, 52(13), 2455-2462.Search in Google Scholar
Srinivas, S., Ramachandiran, S., & Rajendran, S. (2022). Autonomous robot-driven deliveries: A review of recent developments and future directions. Transportation research part E: logistics and transportation review, 165, 102834.Search in Google Scholar
Ferraro, S., Cantini, A., Leoni, L., & De Carlo, F. (2023). Sustainable Logistics 4.0: A Study on Selecting the Best Technology for Internal Material Handling. Sustainability, 15(9), 7067.Search in Google Scholar
Domański, R. (2019). Logistics 4.0 In Warehousing–Current State And Trends. Business Logistics in Modern Management.Search in Google Scholar
Patricio, R., & Mendes, A. (2020). Consumption patterns and the advent of automated guided vehicles, and the trends for automated guided vehicles. Current Robotics Reports, 1(3), 145-149.Search in Google Scholar
Fragapane, G., De Koster, R., Sgarbossa, F., & Strandhagen, J. O. (2021). Planning and control of autonomous mobile robots for intralogistics: Literature review and research agenda. European Journal of Operational Research, 294(2), 405-426.Search in Google Scholar
Edirisuriya, A., Weerabahu, S., & Wickramarachchi, R. (2018, December). Applicability of lean and green concepts in Logistics 4.0: a systematic review of literature. In 2018 International Conference on Production and Operations Management Society (POMS) (pp. 1-8). IEEE.Search in Google Scholar
Čech, M., Wicher, P., Lenort, R., Malčic, T., David, J., Holman, D., ... & Záruba, J. (2020). Autonomous mobile robot technology for supplying assembly lines in the automotive industry. Acta logistica, 7(2), 103-109.Search in Google Scholar
Chung, S. H. (2021). Applications of smart technologies in logistics and transport: A review. Transportation Research Part E: Logistics and Transportation Review, 153, 102455.Search in Google Scholar
Ahmed, M., Khan, A. G., & Naidu, V. R. (2019). Possible Impact of Robotics and Artificial Intelligence on Oman’s Logistics Sector: A Review. Journal of Student Research.Search in Google Scholar
Ferreira, B., & Reis, J. (2023). A Systematic Literature Review on the Application of Automation in Logistics. Logistics, 7(4), 80.Search in Google Scholar
Tsolakis, N., Zissis, D., Papaefthimiou, S., & Korfiatis, N. (2022). Towards AI driven environmental sustainability: an application of automated logistics in container port terminals. International Journal of Production Research, 60(14), 4508-4528.Search in Google Scholar
Alias, C., Nikolaev, I., Magallanes, E. G. C., & Noche, B. (2018, July). An overview of warehousing applications based on cable robot technology in logistics. In 2018 IEEE International Conference on Service Operations and Logistics, and Informatics (SOLI) (pp. 232-239). IEEE.Search in Google Scholar
Moshayedi, A. J., Jinsong, L., & Liao, L. (2019). AGV (automated guided vehicle) robot: Mission and obstacles in design and performance. Journal of Simulation and Analysis of Novel Technologies in Mechanical Engineering, 12(4), 5-18.Search in Google Scholar
Custodio, L., & Machado, R. (2020). Flexible automated warehouse: a literature review and an innovative framework. The International Journal of Advanced Manufacturing Technology, 106, 533-558.Search in Google Scholar
Ilin, V., Simic, D., & Saulic, N. (2019, May). Logistics industry 4.0: challenges and opportunities. In Ilin, V. Simić, D., Saulić, N.(eds.) LOGIC: 4th Logistics International Conference.Search in Google Scholar
Winkelhaus, S., & Grosse, E. H. (2020). Logistics 4.0: a systematic review towards a new logistics system. International Journal of Production Research, 58(1), 18-43.Search in Google Scholar
Jagtap, S., Bader, F., Garcia-Garcia, G., Trollman, H., Fadiji, T., & Salonitis, K. (2020). Food logistics 4.0: Opportunities and challenges. Logistics, 5(1), 2.Search in Google Scholar
JiangDonglin.(2024).A Synchronous Localization Method for Multiple Mobile Robots Based on Visual SLAM Algorithm in the Context of the Internet of Things.College of Mechanical Engineering, Changchun Normal University, Changchun City, Jilin Province, China(3),Search in Google Scholar
Wei Song & Li Zhang.(2023).An RGB-D SLAM algorithm based on adaptive semantic segmentation in dynamic environment.Journal of Real-Time Image Processing(5),Search in Google Scholar
Zihao Feng,Lang Zhou,Jie Qi & Shaohua Hong.(2024).DBVS-APF-RRT*: A global path planning algorithm with ultra-high speed generation of initial paths and high optimal path quality.Expert Systems With Applications(PA),123571-.Search in Google Scholar
ChunyaSun,HaixinJing,YanqiuXiao,GuangzhenCui,MeijieZhao & WeiliZhang.(2024).Research on a local path planning algorithm based on multivehicle collaborative mapping and a potential field method.IET Intelligent Transport Systems(6),1121-1136.Search in Google Scholar
