TY  - JOUR
T1  - Geleneksel Olmayan Yenilikçi Depo Yerleşim Tipleri ve Tasarımları Üzerine Bir Araştırma
TT  - Non-Traditional Innovative Warehouse Layout Types
AU  - Özceylan, Ayca
AU  - Tanyaş, Mehmet
PY  - 2021
DA  - October
Y2  - 2021
DO  - 10.26650/JTL.2021.990430
JF  - Journal of Transportation and Logistics
JO  - JTL
PB  - Istanbul University
WT  - DergiPark
SN  - 2459-1718
SP  - 197
EP  - 216
VL  - 6
IS  - 2
LA  - tr
AB  - Lojistik operasyonların, tedarikçilerin ve işletme modellerinin artan çeşitliliği ile birlikte depolar, tedarik zincirlerinde giderek daha bütünleyici bir rol oynamaya başlamıştır. Bu sebeple, depoların artık her zamankinden daha fazla esneklik, erişilebilirlik ve verimli işlevsellik sağlaması gerekmektedir. Maalesef işletmelerin çoğu halen geleneksel depo yerleşim modellerini kullanmakta ve yerleşimden ziyade depodaki maliyetlere odaklanmaktadırlar. Ancak depolardaki operasyonların daha etkin yürütülmesi, daha az enerji harcanması ve ileriye yönelik olarak daha esnek olunması isteniyor ise geleneksel yerleşim modellerinden ziyade daha modern, yenilikçi ve geleneksel olmayan depo yerleşim şekillerine odaklanılması gerekmektedir. Geleneksel olmayan yenilikçi depo yerleşimlerinde, ürünlere erişimi sağlayan koridor tasarımları geleneksel depo koridor tasarımlarından farklıdır. Geleneksel olmayan depo tasarımları çalışmalarının temel motivasyonu depo içi dolaşım süresinin azaltılması amacı ile ürüne erişim mesafelerinin kısaltılmasıdır. Bu çalışmada hem literatürde hem de pratikte kullanılan veya önerilen geleneksel olmayan yenilikçi depo yerleşimlerinden; Kanat (Flying-V), Kılçık (Fishbone), Ters-Kanat (Inverted-V), Apolet (Chevron), Yaprak (Leaf), Kelebek (Butterfly) koridor tasarımları analiz edilmiş ve her biri literatüre atıfta bulunularak detaylı bir şekilde açıklanmaya çalışılmıştır. Bu sayede araştırmacılar ve sektördekiler için literatürdeki boşluklara da değinerek geleneksel olmayan yenilikçi depo yerleşimlerinin toplu bir şekilde aktarılması amaçlanmıştır.
KW  - Geleneksel olmayan depo
KW  - yenilikçi depo yerleşimleri
KW  - depo koridor tasarımları.
N2  - With the increasing variety of logistics operations, suppliers, and business models, warehouses are increasingly playing an integral role in supply chains. For this reason, warehouses must provide flexibility, accessibility, and efficient functionality more than ever before. Unfortunately, most businesses still use traditional warehouse layout models and focus on warehouse costs rather than the layout. However, if warehouse operations are more effectively performed, less energy will be consumed, leading to increased flexibility in the future. It is necessary to focus on more modern, innovative, and nontraditional warehouse layouts rather than the traditional layout models. Aisle designs that provide access to products in nontraditional innovative warehouse layouts are different from traditional warehouse aisle designs. The main motivation of the nontraditional warehouse design studies is to shorten access distances to the product to reduce the travel time in the warehouse. Aiming to present the nontraditional innovative warehouse layouts focusing on the gaps for researchers and those in the sector, this study analyzes the nontraditional innovative warehouse layouts used or suggested both in the literature and in practice, namely the Flying-V, Fishbone, Inverted-V, Chevron, Leaf, and Butterfly aisle designs, and tries to explain each one in detail with reference to the literature.
CR  - Acar, Z., Çakmak, E. (2013). Depolama ve Depo Yönetimi. Nobel Akademik Yayıncılık, Ankara. google scholar
CR  - Bortolini, M., Faccio, M., Gamberi, M., Manzini, R. (2015). Diagonal cross-aisles in unit load warehouses to increase handling performance. International Journal of Production
CR  - Economics, 170 (Part C), 838-849. google scholar
CR  - Bortolini, M., Faccio, M., Ferrari, E., Gamberi, M., Pilati, F. (2019), Design of diagonal cross-aisle warehouses with class-based storage assignment strategy. The International 
Journal of Advanced Manufacturing Technology, 100, 2521-2536. google scholar
CR  - Bortolini, M., Galizia, F.G., Gamberi, M., Gualano, F., Naldi, L.D. (2021). Non-conventional warehouses: Comparison of the handling performances. SmartInnovation, Systems and 
Technologies, 200, 193-203. google scholar
CR  - Cardona, L.F., Rivera, L., Martmez, H.J. (2012). Analytical study of the fishbone warehouse layout. International Journal of Logistics Research and Applications, 15 (6), 365-388. 
google scholar
CR  - Cardona, L.F., Soto, D.F., Rivera, L., Martmez, H.J. (2015). Detailed design of fishbone warehouse layouts with vertical travel. International Journal of Production Economics, 170, 
825-837. google scholar
CR  - Clark, K.A., Meller, R.D. (2013). Incorporating vertical travel into non-traditional cross aisles for unit-load warehouse designs. IIE Transactions (Institute of Industrial Engineers), 
45 (12), 1322-1331. google scholar
CR  - 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. google scholar
CR  - Çelik, M., Süral, H. (2014). Order picking under random and turnover-based storage policies in fishbone aisle warehouses. IIE Transactions (Institute of Industrial Engineers), 46 
(3), 283-300. google scholar
CR  - Çolak, M., Aydın Keskin, G., Günel, G., Akkaya, D. (2016). Bir cam işletmesinde kimyasal hammadde deposunun etkin yerleşimi için bir model önerisi. Beykent Üniversitesi Fen ve 
Mühendislik Bilimleri Dergisi, 9 (2), 55-76. google scholar
CR  - De Koster, R., Le-Duc, T., Roodbergen, K.J. (2017). Design and control of warehouse order picking: A literature review. European Journal of Operational Research, 182, 481-501. 
google scholar
CR  - Diefenbach, H., Glock, C.H. (2019). Ergonomic and economic optimization of layout and item assignment of a U-shaped order picking zone. Computers and Industrial 
Engineering, 138, 106094. google scholar
CR  - Esmero, A.T., Branzuela, Q.R.S., Paypa, J.T., Rojo, S.M.S., Sacay, E.S., Selerio, E.F., Ocampo, L.A. (2021). Heuristic comparative assessment of non-conventional warehouse designs. 
Engineering Management in Production and Services, 13 (1), 89-103. google scholar
CR  - Feng, L., Qi, M., Hua, S., Zhou, Q. (2019). Picking station location in traditional and flying-V aisle warehouses for robotic mobile fulfillment system. IEEE International Conference 
on Industrial Engineering and Engineering Management, 1436-1440. google scholar
CR  - Glock, C.H., Grosse, E.H. (2012). Storage policies and order picking strategies in U-shaped order-picking systems with a movable base. International Journal of Production 
Research, 50 (16), 4344-4357. google scholar
CR  - Gue, K. (2008). Generac Power Systems fishbone yerleşimi. https://kevingue.wordpress.com/research/aisle-design-for- warehouses/implementations/generac-power-
systems/, Erişim tarihi: 20.06.2021. google scholar
CR  - Gue K.R., Meller R. D. (2009). Aisle configurations for unitload warehouses. IIE Transactions, 41 (3), 171-182. google scholar
CR  - Gue, K.R., Ivanovic, G., Meller, R.D. (2012). A unit-load warehouse with multiple pickup and deposit points and non-traditional aisles. Transportation Research Part E: Logistics 
and Transportation Review, 48 (4), 795-806. google scholar
CR  - Jiang, M.-X., Feng, D.-Z., Zhao, Y.-L., Yu, M.-F. (2013). Optimization of logistics warehouse layout based on the improved Fishbone layout. System Engineering Theory and 
Practice, 33 (11), 2920-2929. google scholar
CR  - Masae, M., Glock, C.H., Vichitkunakorn, P. (2020a). Optimal order picker routing in the chevron warehouse. IISE Transactions, 52 (6), 665-687. google scholar
CR  - Masae, M., Glock, C.H., Grosse, E.H. (2020b). Order picker routing in warehouses: A systematic literature review. International Journal of Production Economics, 224, 107564. 
google scholar
CR  - Masae, M., Glock, C.H., Vichitkunakorn, P. (2021). A method for efficiently routing order pickers in the leaf warehouse. International Journal of Production Economics, 234, 108069. 
google scholar
CR  - Öztürkoğlu, Ö., Gue, K.R., Meller, R.D. (2012). Optimal unitload warehouse designs for single-command operations. IIE Transactions, 44 (6), 459-475. google scholar
CR  - Öztürkoğlu, Ö., Gue, K.R., Meller, R.D. (2014). A constructive aisle design model for unit- load warehouses with multiple pickup and deposit points. European Journal of 
Operational Research, 236 (1), 382-394. google scholar
CR  - Öztürkoğlu, Ö. (2016). Effects of varying input and output points on new aisle designs in warehouses. In 2016 IEEE Congress on Evolutionary Computation (CEC), 3925-3932. 
google scholar
CR  - Öztürkoğlu, Ö., Hoşer, D. (2018a). Yeni bir depo tasarım problemi ve polinomsal zamanlı optimal sipariş toplama algoritması önerisi. Gazi Üniversitesi Mühendislik Mimarlık 
Fakültesi Dergisi, 33 (4), 15691588. google scholar
CR  - Öztürkoğlu, Ö., Kocaman, Y., Gümüşoğlu, Ş. (2018b). Çok kapılı birim yük depolarda Chevron koridor tasarımının değerlendirilmesi. Gazi Üniversitesi Mühendislik Mimarlık 
Fakültesi Dergisi, 33 (3), 793-808. google scholar
CR  - Öztürkoğlu, Ö., Hoşer, D. (2019). A discrete cross aisle design model for order-picking warehouses. European Journal of Operational Research, 275 (2), 411-430. google scholar
CR  - Pohl, L.M., Meller, R.D., Gue, K.R. (2009). Optimizing fishbone aisles for dual-command operations in a warehouse. Naval Research Logistics, 56 (5), 389-403. google scholar
CR  - Pohl, L.M., Meller, R.D., Gue, K.R. (2011). Turnover-based storage in non-traditional unit- load warehouse designs. IIE Transactions (Institute of Industrial Engineers), 43 (10), 703- 
720. google scholar
CR  - Tanyaş, M., Baskak, M. (2012). Farklı açılardan depoların sınıflandırılması. Ulusal Lojistik ve Tedarik Zinciri Kongresi, Konya. google scholar
CR  - Tanyaş, M., Düzgün, M. (2014). Depo yönetimi: Depo sistemlerinin otomasyonu ve organizasyonu. Nobel Akademik Yayıncılık, Ankara. google scholar
CR  - Toktaş Palut, P., Okçuoğlu, F. (2019). Depo tasarımı ve yerleşimi: Bir gerçek hayat uygulaması. Beykent Üniversitesi Fen ve Mühendislik Bilimleri Dergisi, 12 (2), 14-22. google 
scholar
CR  - Venkitasubramony, R., Adil, G.K. (2016). Analytical models for pick distances in fishbone warehouse based on exact distance contour. International Journal of Production 
Research, 54 (14), 4305-4326. google scholar
CR  - Yang, X., Liu, X., Feng, L., Zhang, J., Qi, M. (2021). Non-traditional layout design for robotic mobile fulfillment system with multiple workstations. Algorithms, 14 (7), 203. google 
scholar
CR  - Zhou, L., Li, Z., Shi, N., Liu, S., Xiong, K. (2019a). Performance analysis of three intelligent algorithms on route selection of fishbone layout. Sustainability (Switzerland), 11 (4), 1148. 
google scholar
CR  - Zhou, L., Liu, J., Fan, X., Zhu, D., Wu, P., Cao, N. (2019b). Design of V-type warehouse layout and picking path model based on internet of things. IEEE Access, 7, 58419-58428. 
google scholar
CR  - Zhou, L., Fan, X., Wang, J., Wang, S., Cao, N., Wu, M. (2020). A random classified-storage picking path model for V-type storage layout. Complexity, 2020, 8784910. google 
scholar
UR  - https://doi.org/10.26650/JTL.2021.990430
L1  - https://dergipark.org.tr/en/download/article-file/1954711
ER  -