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Approach technique of specifying a proper autonomous cart type for its service in the logistics center

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Języki publikacji
EN
Abstrakty
EN
Basically, relocation, protection, warehousing and management of materials and products throughout the logistics chain (manufacturing, warehousing, distribution, consumption and disposal) are referred to as cargo handling. Cargo handling includes a variety of manual, semi-automated and automated devices, processes and systems supporting the manufacture and logistics, and helps with the efficient cargo flow across the logistics chain. This research study designs an approach technique (procedure) to specify a proper type of the autonomous cart as a part of handling devices for its service activities within the area of opted logistics center applying an adequate multiple-criteria analysis method. Introductory parts of the paper summarize relevant literature review regarding research topic, methods and procedures important to compile the draft technique, identify all the relevant criteria used for the given purpose as well as define variants of autonomous carts taken into consideration in order to calculate the final outcome. The most important chapter specifies the approach technique design itself including application of method to calculate the criteria weights as well as use of the multiple-criteria analysis method, specifically the Weighted-Sum Approach, in order to define the variant ranking.
Rocznik
Strony
23--31
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
  • Institute of Technology and Business in Ceske Budejovice, Faculty of Technology, Department of Transport and Logistics, Okruzni 517/10, 370 01 Ceske Budejovice
Bibliografia
  • [1] Chu H.K., Egbelu P.J., Chung-Te Wu., ADVISOR: A computer-aided material handling equipment selection system. “International Journal of Production Research” 33 (2007), p. 3311-3329. DOI: 10.1080/00207549508904876.
  • [2] Kulwiec R.A., Materials Handling Handbook, 2nd Ed., 1985, New York: Wiley.
  • [3] Mulcahy D.E., Materials Handling Handbook, 1999, New York: McGraw-Hill.
  • [4] Bukova B., Brumercikova E., Cerna L., Drozdziel P., The Position of Industry 4.0 in the Worldwide Logistics Chains. “LOGI – Scientific Journal on Transport and Logistics” 9 (2018), p. 18-23. DOI: 10.2478/logi-2018-0003.
  • [5] Windt K., Bose F., Philipp T., Autonomy in production logistics: Identification, characterisation and application. “Robotics and Computer-Integrated Manufacturing” 24 (2008), p. 572-578. DOI: 10.1016/j.rcim.2007.07.008.
  • [6] Nikdel P., Shrestha R., Vaughan R., The Hands-Free Push-Cart: Autonomous Following in Front by Predicting User Trajectory Around Obstacles. In: “IEEE International Conference on Robotics and Automation ICRA” (2018), p. 4548-4554, Brisbane, Australia, May 21-25, 2018. ISBN 978-1-5386-3081-5.
  • [7] Belkhouche B., Lakas A., A Simulation System for Autonomous Carts. In: “International Conference on Infocom Technologies and Unmanned Systems (Trends and Future Directions) (ICTUS)” (2017), p. 19-26, Amity Univ, Dubai, United Arab Emirates, December 18-20, 2017. ISBN 978-1-5386-0514-1. DOI: 10.1109/ ICTUS.2017.8285968.
  • [8] Jagelčák J., Kubasáková I., Load distribution in general purpose maritime container and the analysis of load distribution on extendable semitrailer container chassis carrying different types of containers. “Naše More” 61 (2014), p. 106-116. ISSN 0469-6255.
  • [9] Shimchik I., Sagitov A., Afanasyev I., Matsuno F., Magid E., Developing an autonomous service car: golfcart prototype modelling. In: “The Proceedings of JSME annual Conference on Robotics and Mechatronics (Robomec)” (2016). DOI: 10.1299/jsmermd.2016.1P1-07a3.
  • [10] You S.J., Ji S.H., Design of a multi-robot bin packing system in an automatic warehouse. In: “11th International Conference on Informatics in Control, Automation and Robotics” 2 (2014), p.533-538. DOI:10.5220/0005098505330538.
  • [11] Dobrowolski D., Drozdziel P., Madlenak R., Siluch D., Rybicka I., Daily kilometrage analysis for selected vehicle groups. “Advances in Science and Technology-Research Journal” 12 (2018), p. 39-46. DOI:10.12913/22998624/92109.
  • [12] Azadeh K., de Koster R., Roy D., Robotized and Automated Warehouse Systems: Review and Recent Developments (2017). DOI: 10.2139/ssrn.2977779.
  • [13] Skrucany T., Vrabel J., Kendra M., Kazimir P., Impact of Cargo Distribution on the Vehicle Flatback on Braking Distance in Road Freight Transport. In: “MATEC Web of Conferences” 134 (2017). DOI: 10.1051/matecconf/201713400054.
  • [14] Matuszak Z., Bundz S., Jaskiewicz M., Stoklosa J., Posuniak P., The application of massing handling theory for evaluation of the application of wharves and loading facilities in the maritime port. “Advances in Science and Technology-Research Journal” 10 (2016), p. 281-288. DOI: 10.12913/22998624/64017.
  • [15] Madlenak R., Dutkova S., Hostakova D., Sarkan B., Reliability enhancement using optimization analysis. “Scientific Journal of Silesian University of Technology-Series Transport” 100 (2018), p.115-125. DOI: 10.20858/sjsutst.2018.100.10.
  • [16] Blatnicky M., Dizo J., Blatnicka M., Svoboda M., Design of a robot manipulator working screw revolutions. In: “Engineering Mechanics, 23rd International Conference on Engineering Mechanics” (2017), Location: Svratka, Czech Republic, May 15-18, 2017.
  • [17] Buc D., Kliestik T., Krizanova A., Description and Quantification of Risks of Intelligent Transport Systems. In: “Transport Means 2013 - Proceedings of the International Conference” (2013), p. 181-184, Kaunas, Lithuania.
  • [18] Neradilova H., Fedorko G., Simulation of the supply of workplaces by the AGV in the digital factory. In: “12th International Scientific Conference of Young Scientists on Sustainable, Modern and Safe Transport - TRANSCOM 2017” (2017), p. 638-643. DOI: 10.1016/j.proeng.2017.06.110.
  • [19] Nowakowski P., Krol A., Mrowczynska B., Supporting mobile WEEE collection on demand: A method for multi-criteria vehicle routing, loading and cost optimisation. “Waste Management” 69 (2017), p. 377-392. DOI:10.1016/j.wasman.2017.07.045.
  • [20] Záhumenská Z., Gašparík J., Supporting the connection the logistics centers to rail network. In: “Procedia Engineering” 192 (2017), p. 976-981. DOI: 10.1016/j.proeng.2017.06.168.
  • [21] Nemec F., Lorincová S., Hitka M., Turínska L., The Storage Area Market in the Particular Territory. “Nase More” 62 (2015), p. 131-138. DOI: 10.17818/NM/2015/SI8.
  • [22] Agarwal D., Singholi A.K.S. Performance analysis of a FLP problem using AHP-TOPSIS and FAHP-FTOPSIS. “International Journal of Industrial and Systems Engineering” 30 (2018), p. 401-424. DOI: 10.1504/IJISE.2018.096159.
  • [23] Behzadian M., Khanmohammadi Otaghsara S., Yazdani M., Ignatius J. A state-of the-art survey of TOPSIS applications. “Expert Systems with Applications” 39 (2012), p. 13051-13069. DOI: 10.1016/j.eswa.2012.05.056.
  • [24] Jurkovič M., Kalina T., Režná N., Bartošová V., Belas J., Smart port model using the global satellite system Galileo. In: “Globalization and its socio-economic consequences” (2017), p. 836-842, Žilina, Slovak Republic. ISBN 978-80-8154-212-1.
  • [25] Gnap J., Varjan P., Semanova S., Logistics of Entry and Parking of Vehicles at Large Production Companies. In: “MATEC Web of Conferences” 134 (2017). DOI: 10.1051/matecconf/201713400016.
  • [26] Mousavi M.M., Ouenniche J., Multi-criteria ranking of corporate distress prediction models: empirical evaluation and methodological contributions. “Annals of Operations Research” 271 (2018), p. 853-886. DOI: 10.1007/s10479-018-2814-2.
  • [27] Petrovic G.S., Madic M., Antucheviciene J., An approach for robust decision making rule generation: Solving transport and logistics decision making problems. “Expert Systems with Applications” 106 (2018), p. 263-276. DOI: 10.1016/j.eswa.2018.03.065.
  • [28] Staszak J., Ludwinek K., Gawecki Z., Kurkiewicz J., Bekier T., Jaskiewicz M., Utilization of Permanent Magnet Synchronous Motors in Industrial Robots. In: International Conference on Information and Digital Technologies (IDT) 2015, Book Group Author: IEEE (2015), p. 342-347, Zilina, Slovakia, July 07-09, 2015. DOI:10.1109/DT.2015.7222995.
  • [29] He Y.D., Wang X., Lin Y., Zhou F.L., Zhou L., Sustainable decision making for joint distribution center location choice. “Transportation Research Part D-Trnsport and Environment” 55 (2017), p. 202-216. DOI: 10.1016/j.trd.2017.07.001.
  • [30] Chou C.C., Integrated Short-Term and Long-Term MCDM Model for Solving Location Selection Problems. “Journal of Transportation Engineering-ASCE” 135 (2009), p. 880-893. DOI: 10.1061/(ASCE)TE.1943-5436.0000057.
Uwagi
EN
This contribution was created within the solution of the Czech research project LTC17040 named "Regionální letiště v České a Slovenské republice a vliv jejich provozu na ekonomický rozvoj regionu" of the INTER-EXCELLENCE program, the INTER-COST subprogram.
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-a242ebe4-c574-4c49-b7f8-1ddc8b69081f
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