Elements of perfect order rate research in logistics chains

Authors

  • Ilona JACYNA-GOŁDA Warsaw University of Technology, Faculty of Production Engineering, Warsaw, Poland Author
  • Michał KŁODAWSKI Warsaw University of Technology, Faculty of Transport, Warsaw, Poland Author
  • Konrad LEWCZUK Warsaw University of Technology, Faculty of Transport, Warsaw, Poland Author
  • Marcin ŁAJSZCZAK Warsaw University of Technology, Faculty of Production Engineering, Warsaw, Poland Author
  • Tomasz CHOJNACKI ESPERTO Logistic systems designing, Sierpc, Poland Author
  • Teresa SIEDLECKA-WÓJCIKOWSKA Warsaw University of Technology, Faculty of Production Engineering, Warsaw, Poland Author

DOI:

https://doi.org/10.5604/01.3001.0013.2771

Keywords:

sight distance, decision, stopping, maneuver, speed, deceleration, logistics chains, order rate research

Abstract

Perfect order rate (POR) is one of the superior measures of the logistics processes quality. POR is at the top of the hierarchy of key performance indicators (KPI) in supply chain and is considered as difficult to define and measure. Perfect order rate is composed of sub-measures touching technical, economic, quality and safety aspects of logistics processes. POR directly defines what the organization considers to be the perfect implementation of its tasks (and thus sets goals for the organization) and, secondly, measures the degree of achievement of these goals. The paper defines the concept of perfect order rate by including new elements to classic definition, so far rarely considered in the literature: possibility of order implementation according to standard procedures in organization and safety aspects. The concept of logistics chain and the impact of its functioning on the POR value have been defined. The picking and replenishment processes were discussed in detail as the basic elements affecting the quality of logistics processes and the value of POR. Next, the issues of logistic processes safety in warehouse facilities were discussed. The large intensity of warehouse operations along with their mechanization and automation very often leads to many hazards in warehouses and logistics chain. These hazard are usually related with warehouse workers safety. However, they can also lead to various delays or downtime in the material flows, as well as damage or reducing the quality of materials. So it was assumed that safety aspects can influencing the value of POR in the logistics chain. Due to conducted research and compiled reports indicate that many accidents in the warehouse are associated with the forklifts use as equipment for material handling. Therefore, in paper main attention was paid to hazards related with forklifts, warehouse safety speed, etc.

References

CECERE, L. 2012. Conquering the Supply Chain Effective Frontier. A Handbook for the Value Chain Leader to Manage Trade-offs in Defining Supply Chain Excellence. Founder and CEO, Supply Chain Insights LLC, 2012.

Forklift safety – reducing the risks; 2010, Government of South Australia,

HORBERRY, T., JOHNSTON, I., LARSSON, T. J., CORBEN, B., LAMBERT, J., 2018, An integrated approach to fork lift safety.

How Automation Technologies Improve Operating Efficiency and Reduce Collisions on Manned Forklifts, SICK, Inc, www.sickusa.com.

JACYNA, M., IZDEBSKI, M., SZCZEPAŃSKI, E., & GOŁDA, P., 2018a. The task assignment of vehicles for a production company. Symmetry, 10(11), 551.

JACYNA, M., LEWCZUK, K., JACHIMOWSKI, R., 2016, The selected aspects of spatial arrangement of warehouse functional areas. Proceedings of MOTSP 2016, June 2016, Poreč, Istria, Croatia.

JACYNA, M., LEWCZUK, K., KŁODAWSKI, M., 2015. Technical and organizational conditions of designing warehouses with different functional structures. Journal of KONES Powertrain and Transport, Institute of Aviation (Aeronautics) BK, 22(3), 49-58. DOI: 10.5604/12314005.1165971

JACYNA, M., LEWCZUK, K., KŁODAWSKI, M., 2018b. Selected aspects of modelling forklifts velocity and work safety, w: 10th International Conference "Managegement of Technology Step to Sustainable Production" / Predrag Cosic (red.), Management of Technology Step to Sustainable Production,, Croation Association for PLM.

JACYNA-GOŁDA I., 2012. Logistics Network Design for Production Service Companies. Proceedings of International Conference on Industrial Logistics. ICIL 2012, Brazil, Finland, USA, Croatia, UK, Austria, ISSN 978-953-7738-16-7, str. 219-224, Zadar 2012.

JACYNA-GOŁDA I., 2013. Chosen aspects of logistics network design method for production service companies. International journal of logistics systems and management. Inderscience, ZDB-ID 21787955. Vol. 15.2013, 2/3, 219-238.

JACYNA-GOŁDA, I, IZDEBSKI, M., SZCZEPAŃSKI, E., GOŁDA, P., 2018. The assessment of supply chain effectiveness. Archives of Transport, 45(1), 43-52. DOI: https://doi.org/10.5604/01.3001.0012.0966

JACYNA-GOŁDA, I. 2015a. Evaluation of operational reliability of the supply chain in terms of the control and management of logistics processes, [in:] Safety and Reliability: Methodology and Applications / Nowakowski T. [i in.] (red.), 2015, CRC Press Taylor & Francis Group, 549-558.

JACYNA-GOŁDA, I. 2015b. Wskaźniki oceny efektywności funkcjonowania obiektów magazynowych w łańcuchach dostaw. Prace Naukowe Politechniki Warszawskiej, seria: Transport, 105, 35-52.

JACYNA-GOŁDA, I., 2014. Projektowanie sieci logistycznych przedsiębiorstw produkcyjnych z uwzględnieniem lokalizacji obiektów magazynowych in: PAZIO N. M., SANTAREK K. Zarządzanie przedsiębiorstwem przemysłowym w dobie turbulencji rynkowych. Zagadnienia wybrane. Warsaw: OWPW, 183-201.

JACYNA-GOŁDA, I., LEWCZUK, K., 2017, The method of estimating dependability of supply chain elements on the base of technical and organizational redundancy of process. Eksploatacja i Niezawodność – Maintenance and Reliability, 19(3), 382-392.

JACYNA-GOŁDA, I., LEWCZUK, K., 2017. The method of estimating dependability of supply chain elements on the base of technical and organizational redundancy of process. Eksploatacja i Niezawodnosc – Maintenance and Reliability, 19(3), 382-392. DOI: 10.17531/ein.2017.3.9

JACYNA-GOŁDA, I., PYZA, D., SZCZEPAŃSKI, E., 2015. Logistics service for companies by warehouse facilities with different configurations in the logistics network, Journal of KONES, 22(3), 67-74.

KŁODAWSKI M., 2018. Modelowanie proce-sów magazynowych w zastosowaniu do oceny wydajności i bezpieczeństwa pracy w magazynach, Warsaw: Oficyna Wydawnicza Politechniki Warszawskiej, 241 p.

KŁODAWSKI, M., JACYNA, M., 2009. Wybrane aspekty problematyki komisjonowania w funkcji pracochłonności procesu, Logistyka 2009(3).

KŁODAWSKI, M., JACYNA, M., LEWCZUK, K., WASIAK, M., 2017b. The Issues of Selection Warehouse Process Strategies, Procedia Engineering 187 (2017b) 451 – 457, TRANSBALTICA 2017: TRANSPORTATION SCIENCE AND TECHNOLOGY: Proceedings of the 10th International Scientific Conference, May 4–5, 2017, Vilnius, Lithuania, ELSEVIER.

KŁODAWSKI, M., LEWCZUK, K., JACYNA-GOŁDA, I., ŻAK, J., 2017a. Decision making strategies for warehouse operations. Archives of Transport 41(1), 43-53. DOI: 10.5604/01.3001.0009.7384.

LEWCZUK, K., 2012. Selected aspects of organizing order-picking process with dynamic assignment of material to locations. Carpathian Logistics Congress, CLC 2012, Czech Republic, 7 - 9 Nov 2012, 565-571, TANGER Ltd.

LEWCZUK, K., 2015. The concept of genetic programming in organizing internal transport processes. Archives of Transport. 34(2), 61-74. DOI: 10.5604/01.3001.0009.7384.

LEWCZUK, K., 2016. Dependability issues in designing warehouse facilities and their functional areas. Journal of KONBiN 2(38). 201 – 228. DOI: 10.1515/jok-2016-0024

LEWCZUK, K., ŻAK, J., KŁODAWSKI, M., 2013. Model of dynamic allocation of resources to the tasks of warehousing process. Conference proceedings, III Carpathian Logistics Congress, Poland 9-11 Dec 2013, 542-548, TAN-GER Ltd.

NOVACK, R. A., THOMAS, D. J., 2004. The challenges of implementing the perfect order concept. Transportation Journal 43(1), 5-16.

NOWAKOWSKI T.: Reliability model of combined transportation system. [in:] Probabilistic Safety Assessment and Management. Spitzer C., Schmocker U., Dang V.N. (ed.), Springer, London 2004.

Occupational Safety & Health Administration. Powered Industrial Trucks: OSHA, 2003.

PFOHL H. Ch.: Zarządzanie logistyką. ILiM, Poznań 1998.

RUSHTON A., CROUCHER P., BAKER P., 2006. The Handbook of Logistics and Distribution Management. Third ed., Kogan Page, London.

Safety Code for Forklift Truck Operators, 1986, No. 2 Order Pickers, Published by the Department of Labour, New Zealand, 1986.

SAULEWICZ, A., FILIPEK, D., NAJMIEC, A., SKONIECKI, S., ZAMOJSKI, A., 2012, Opracowanie wytycznych dotyczących organizacji ruchu podnośnikowych wózków jezdniowych w transporcie wewnątrzzakładowym. Modyfikacja symulatora podnośnikowego wózka jezdniowego. Sprawozdanie z realizacji etapu 2. CIOP-PIB 2012.

TWARÓG J., 2005. Mierniki i wskaźniki logistyczne. Poznań: Biblioteka Logistyka.

UDT: Analiza nieszczęśliwych wypadków i niebezpiecznych uszkodzeń urządzeń technicznych objętych dozorem technicznym. Dozór Techniczny, numery z lat 2000-2011.

ŻAK J., JACYNA-GOŁDA I., WASIAK M., 2014. Effectiveness evaluation criteria of the functioning of the national transport system and its impact on the environment, [w:] Simulation model to support designing a sustainable national transport system / Jacyna M, Wasiak M (red.), Warsaw: Index Copernicus International.

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Published

2019-12-31

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Section

Original articles

How to Cite

JACYNA-GOŁDA, I., KŁODAWSKI, M., LEWCZUK, K., ŁAJSZCZAK, M., CHOJNACKI, T., & SIEDLECKA-WÓJCIKOWSKA, T. (2019). Elements of perfect order rate research in logistics chains. Archives of Transport, 49(1), 25-35. https://doi.org/10.5604/01.3001.0013.2771

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