Research Article
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OTOMATIK DEPOLAMA VE ÇEKME SISTEMLERINDE BEKLEME NOKTASI

Year 2014, Volume: 2 Issue: 2, 258 - 268, 01.12.2014

Abstract

Otomatik
depolama ve
çekme sistemleri
(OD/ÇS'ler), otomatik üretim ve dağıtım merkezlerinde sıklıkla kullanılan ana malzeme yönetim sistemleridir.
OD/ÇS'lerde bekleme noktası politikası kontrol politikalarından birisidir. Boş
bir vincin bekleyeceği yer bekleme noktası politikası tarafından belirlenir.
Gelen depolama ya da
çekme
taleplerine yanıt verme süresini en küçükleme ve çıktı düzeyini en büyükleme
makineler için bekleme
noktasının optimal seçimi ile
sağlanabileceğinden, yapacak işi olmayan makinelerin boş seyahat zamanını azaltmak amacıyla nereye yerleştirileceğini
belirlemek önemli bir kontrol problemidir. Bu çalışmada öncelikle OD/ÇS'lerden bahsedilmekte
daha sonra OD/ÇS'lerde bekleme noktası politikası güncel literatür ile birlikte
ele
alınmaktadır.




References

  • [1]. Singh, N., System Approach to Computer Integrated Design and Manufacturing, John WileySons,1996. [2]. Keserla, A., Peters, B.A., Analysis of Dual-Shuttle Automated Storage/Retrieval Systems, Journal of Manufacturing Systems, 13(6), 424-434, 1994. [3]. Roodbergen, K.J., Vis, I.F.A., A Survey of Literature on Automated Storage and Retrieval Systems, European Journal of Operational Research, 194, 343-362, 2009. [4]. Meller, R.D., Mungwattana, A., Multi-Shuttle Automated Storage/Retrieval Systems, IIE Transactions, 29, 925-938, 1997. [5]. Potrc, L, Lerher, T., Kramberger, J., Sraml, M., Simulation Model of Multi shuttle Automated Storage and Retrieval System, Journal of Materials Processing Technology, 157, 236-244, 2004. [6]. Vasili, M.R., Tang, S. H., Vasili, M., Automated storage and retrieval systems: A review on travel time models and control policies, In Warehousing in the Global Supply Chain, 159-209, 2012. [7]. Chang, S-H., Egbelu, P.J., Relative Pre-Positioning of Storage/Retrieval Machines in Automated Storage/Retrieval Systems to Minimize Maximum System Response Time, IIE Transactions, 29, 303-312, 1997 [8]. Bozer, Y.A., White, J.A., Travel-Time Models for Automated Storage/Retrieval Systems, IIE Transactions, 16(4), 329-338, 1984. [9]. Linn, R.J., Wysk, R.A., An Analysis of Control Strategies for an Automated Storage/Retrieval System, Infor, 25, 66-83, 1987. [10]. Park, B.C.,Analytical modelsand optimal strategies for automated storage/retrieval system operations, Doktora Tezi, Georgia Institute of Technology, 1991. [11]. Egbelu, P.J., Framework for Dynamic Positioning of Storage/Retrieval Machines in an Automated Storage/Retrieval System, InternationalJournal of Production Research, 29(1), 17-37, 1991. [12]. Hwang, H., Lim, J.M., Deriving an Optimal Dwell Point of the Storage/Retrieval Machine in an Automated Storage/Retrieval System, International Journal of Production Research, 31(11), 2591-2602, 1993. [13]. Egbelu, P.J., Wu, C.T, A Comparison of Dwell Point Rules in an Automated Storage/Retrieval System, International Journal of Production Research, 31(11), 2515-2530, 1993. [14]. Peters, B. A., Smith, J.S., Hale, T.S., Closed Form Models for Determining the Optimal Dwell Point Location in Automated Storage and Retrieval Systems, International Journal of Production Research, 34(6), 1757-1771, 1996. [15]. Chang, S-H, Egbelu, P.J., Relative Pre- Positioning of Storage/Retrieval Machines in Automated Storage/Retrieval System to Minimize Expected System Response Time, IIE Transactions, 29, 313-322, 1997. [16]. Egbelu, P.J., Wu, C, Relative Positioning of a Load Extractor for a Storage Carousel, IIE Transactions, 30 (4), 301-317,1998. [17]. Park, B.C., Optimal Dwell Point Policies for Automated Storage/Retrieval Systems with Dedicated Storage, IIE Transactions, 31, 1011-1013, 1999. [18]. Park, B.C., An Optimal Dwell Point Policy for Automated Storage/Retrieval Systems with Uniformly Distributed, Rectangular Racks, International Journal of Production Research, 39(7), 1469-1480, 2001. [19]. Lee, C, Ventura, J.A., Optimal Dwell Point Location ofAutomated Guided Vehicles to Minimize Mean Response Time in a Loop Layout, International Journal of Production Research,39 (17), 4013-4031, 2001. [20]. Van den Berg, J.P, Analytic Expressions for the Optimal Dwell Point in an Automated Storage/Retrieval System, International Journal of Production Economics, 76(1), 13-25, 2002.
  • [21]. Fukunari, M., Bennett, K.P., Malmborg, C.J., Decision-tree Learning in Dwell Point Policies in Autonomous Vehicle Storage and Retrieval Systems Avsrs, Ieee, 81-84, 2004. [22]. Meller, R.D., Mungwattana, A., AS/RS Dwell-Point Strategy Selection at High System Utilization: A Simulation Study to Investigate the Magnitude of the Benefit, International Journal of Production Research, 43(24), 5217-5227, 2005. [23]. Vasili, M.R., Tang, S.H., Homayouni, S.M., Ismail, N., Comparison of Different Dwell Point Policies for Split-Platform Automated Storage and Retrieval System, Intemational Journal of Engineering and Technology, 3(1), 91-106, 2006. [24]. Kuo., P-H., Krishnamurthy, A., Malmborg, C.J., Design Models for Unit Load Storage and Retrieval Systems Using Autonomous Vehicle Technology and Resource Conserving Storage and Dwell Point Policies, Applied Mathematical Modelling, 3, 2332-2346, 2007. [25]. Hale, T.S., Huq, F., Pujari, N.A., Closed Form Models for Dwell Point Locations in Automated Storage Carousel Systems, International Journal of Production Research, 46(4), 1089-1098, 2008. [26]. Yong- jie, MA, Control to Optimum Dwell Point in an aut Storage/Retrieval System, Hoisting and Conveying Machinery, 2008. [27]. Hale, T. S., Hanna, M. E., Huq, R, The Generalized Dwell Point Location Problem, International Journal of Industrial and Systems Engineering, 4(4), 446-454, 2009. [28]. Hale, T. S., Huq, F, Blackhurst, J. V, Cutright, K., Closed Form Models for Dwell Point Locations for Overhead Bridge Cranes, International Journal of Operational Research, 4(4), 412-421,2009b. [29]. Feng, A, Chen, Y., Ding, W., Research on the optimal dwell point location of single stacker in multiple aisles automated storage and retrieval systems, Inernational Conference of Logistics Engineering and Management, 513-518, 2012. [30]. Meneghetti, A., Monti, L., Sustainable Storage Assignment and Dwell-Point Policies for Automated Storage and Retrieval Systems, Production Planning Control, 24(6), 511-520, 2013. [31]. Regattieri, A., Santarelli, G., Manzini, R., Pareschi, A., The Impact of Dwell Point Policy in an Automated Storage/Retrieval System, International Journal of Production Research,51(14),4336-4348, 2013. [32]. Roy, D., Krishnamurthy, A., Heragu, S., Malmborg, C, Queuing Models to Analyze Dwell-Point and Cross-Aisle Location in Autonomous Vehicle-Based Warehouse Systems, European Journal of Operational Research, 242(1), 72-87, 2015.
Year 2014, Volume: 2 Issue: 2, 258 - 268, 01.12.2014

Abstract

References

  • [1]. Singh, N., System Approach to Computer Integrated Design and Manufacturing, John WileySons,1996. [2]. Keserla, A., Peters, B.A., Analysis of Dual-Shuttle Automated Storage/Retrieval Systems, Journal of Manufacturing Systems, 13(6), 424-434, 1994. [3]. Roodbergen, K.J., Vis, I.F.A., A Survey of Literature on Automated Storage and Retrieval Systems, European Journal of Operational Research, 194, 343-362, 2009. [4]. Meller, R.D., Mungwattana, A., Multi-Shuttle Automated Storage/Retrieval Systems, IIE Transactions, 29, 925-938, 1997. [5]. Potrc, L, Lerher, T., Kramberger, J., Sraml, M., Simulation Model of Multi shuttle Automated Storage and Retrieval System, Journal of Materials Processing Technology, 157, 236-244, 2004. [6]. Vasili, M.R., Tang, S. H., Vasili, M., Automated storage and retrieval systems: A review on travel time models and control policies, In Warehousing in the Global Supply Chain, 159-209, 2012. [7]. Chang, S-H., Egbelu, P.J., Relative Pre-Positioning of Storage/Retrieval Machines in Automated Storage/Retrieval Systems to Minimize Maximum System Response Time, IIE Transactions, 29, 303-312, 1997 [8]. Bozer, Y.A., White, J.A., Travel-Time Models for Automated Storage/Retrieval Systems, IIE Transactions, 16(4), 329-338, 1984. [9]. Linn, R.J., Wysk, R.A., An Analysis of Control Strategies for an Automated Storage/Retrieval System, Infor, 25, 66-83, 1987. [10]. Park, B.C.,Analytical modelsand optimal strategies for automated storage/retrieval system operations, Doktora Tezi, Georgia Institute of Technology, 1991. [11]. Egbelu, P.J., Framework for Dynamic Positioning of Storage/Retrieval Machines in an Automated Storage/Retrieval System, InternationalJournal of Production Research, 29(1), 17-37, 1991. [12]. Hwang, H., Lim, J.M., Deriving an Optimal Dwell Point of the Storage/Retrieval Machine in an Automated Storage/Retrieval System, International Journal of Production Research, 31(11), 2591-2602, 1993. [13]. Egbelu, P.J., Wu, C.T, A Comparison of Dwell Point Rules in an Automated Storage/Retrieval System, International Journal of Production Research, 31(11), 2515-2530, 1993. [14]. Peters, B. A., Smith, J.S., Hale, T.S., Closed Form Models for Determining the Optimal Dwell Point Location in Automated Storage and Retrieval Systems, International Journal of Production Research, 34(6), 1757-1771, 1996. [15]. Chang, S-H, Egbelu, P.J., Relative Pre- Positioning of Storage/Retrieval Machines in Automated Storage/Retrieval System to Minimize Expected System Response Time, IIE Transactions, 29, 313-322, 1997. [16]. Egbelu, P.J., Wu, C, Relative Positioning of a Load Extractor for a Storage Carousel, IIE Transactions, 30 (4), 301-317,1998. [17]. Park, B.C., Optimal Dwell Point Policies for Automated Storage/Retrieval Systems with Dedicated Storage, IIE Transactions, 31, 1011-1013, 1999. [18]. Park, B.C., An Optimal Dwell Point Policy for Automated Storage/Retrieval Systems with Uniformly Distributed, Rectangular Racks, International Journal of Production Research, 39(7), 1469-1480, 2001. [19]. Lee, C, Ventura, J.A., Optimal Dwell Point Location ofAutomated Guided Vehicles to Minimize Mean Response Time in a Loop Layout, International Journal of Production Research,39 (17), 4013-4031, 2001. [20]. Van den Berg, J.P, Analytic Expressions for the Optimal Dwell Point in an Automated Storage/Retrieval System, International Journal of Production Economics, 76(1), 13-25, 2002.
  • [21]. Fukunari, M., Bennett, K.P., Malmborg, C.J., Decision-tree Learning in Dwell Point Policies in Autonomous Vehicle Storage and Retrieval Systems Avsrs, Ieee, 81-84, 2004. [22]. Meller, R.D., Mungwattana, A., AS/RS Dwell-Point Strategy Selection at High System Utilization: A Simulation Study to Investigate the Magnitude of the Benefit, International Journal of Production Research, 43(24), 5217-5227, 2005. [23]. Vasili, M.R., Tang, S.H., Homayouni, S.M., Ismail, N., Comparison of Different Dwell Point Policies for Split-Platform Automated Storage and Retrieval System, Intemational Journal of Engineering and Technology, 3(1), 91-106, 2006. [24]. Kuo., P-H., Krishnamurthy, A., Malmborg, C.J., Design Models for Unit Load Storage and Retrieval Systems Using Autonomous Vehicle Technology and Resource Conserving Storage and Dwell Point Policies, Applied Mathematical Modelling, 3, 2332-2346, 2007. [25]. Hale, T.S., Huq, F., Pujari, N.A., Closed Form Models for Dwell Point Locations in Automated Storage Carousel Systems, International Journal of Production Research, 46(4), 1089-1098, 2008. [26]. Yong- jie, MA, Control to Optimum Dwell Point in an aut Storage/Retrieval System, Hoisting and Conveying Machinery, 2008. [27]. Hale, T. S., Hanna, M. E., Huq, R, The Generalized Dwell Point Location Problem, International Journal of Industrial and Systems Engineering, 4(4), 446-454, 2009. [28]. Hale, T. S., Huq, F, Blackhurst, J. V, Cutright, K., Closed Form Models for Dwell Point Locations for Overhead Bridge Cranes, International Journal of Operational Research, 4(4), 412-421,2009b. [29]. Feng, A, Chen, Y., Ding, W., Research on the optimal dwell point location of single stacker in multiple aisles automated storage and retrieval systems, Inernational Conference of Logistics Engineering and Management, 513-518, 2012. [30]. Meneghetti, A., Monti, L., Sustainable Storage Assignment and Dwell-Point Policies for Automated Storage and Retrieval Systems, Production Planning Control, 24(6), 511-520, 2013. [31]. Regattieri, A., Santarelli, G., Manzini, R., Pareschi, A., The Impact of Dwell Point Policy in an Automated Storage/Retrieval System, International Journal of Production Research,51(14),4336-4348, 2013. [32]. Roy, D., Krishnamurthy, A., Heragu, S., Malmborg, C, Queuing Models to Analyze Dwell-Point and Cross-Aisle Location in Autonomous Vehicle-Based Warehouse Systems, European Journal of Operational Research, 242(1), 72-87, 2015.
There are 2 citations in total.

Details

Journal Section Research Article
Authors

Büşra Taşkan

Publication Date December 1, 2014
Published in Issue Year 2014 Volume: 2 Issue: 2

Cite

APA Taşkan, B. (2014). OTOMATIK DEPOLAMA VE ÇEKME SISTEMLERINDE BEKLEME NOKTASI. Mus Alparslan University Journal of Science, 2(2), 258-268.
AMA Taşkan B. OTOMATIK DEPOLAMA VE ÇEKME SISTEMLERINDE BEKLEME NOKTASI. MAUN Fen Bil. Dergi. December 2014;2(2):258-268.
Chicago Taşkan, Büşra. “OTOMATIK DEPOLAMA VE ÇEKME SISTEMLERINDE BEKLEME NOKTASI”. Mus Alparslan University Journal of Science 2, no. 2 (December 2014): 258-68.
EndNote Taşkan B (December 1, 2014) OTOMATIK DEPOLAMA VE ÇEKME SISTEMLERINDE BEKLEME NOKTASI. Mus Alparslan University Journal of Science 2 2 258–268.
IEEE B. Taşkan, “OTOMATIK DEPOLAMA VE ÇEKME SISTEMLERINDE BEKLEME NOKTASI”, MAUN Fen Bil. Dergi., vol. 2, no. 2, pp. 258–268, 2014.
ISNAD Taşkan, Büşra. “OTOMATIK DEPOLAMA VE ÇEKME SISTEMLERINDE BEKLEME NOKTASI”. Mus Alparslan University Journal of Science 2/2 (December 2014), 258-268.
JAMA Taşkan B. OTOMATIK DEPOLAMA VE ÇEKME SISTEMLERINDE BEKLEME NOKTASI. MAUN Fen Bil. Dergi. 2014;2:258–268.
MLA Taşkan, Büşra. “OTOMATIK DEPOLAMA VE ÇEKME SISTEMLERINDE BEKLEME NOKTASI”. Mus Alparslan University Journal of Science, vol. 2, no. 2, 2014, pp. 258-6.
Vancouver Taşkan B. OTOMATIK DEPOLAMA VE ÇEKME SISTEMLERINDE BEKLEME NOKTASI. MAUN Fen Bil. Dergi. 2014;2(2):258-6.