References

We divided the references among the following subgroups:

• Journal articles
• Ph.D. theses
• Books

Journal articles

1. 1. 1. 1. 1. Abdel-Malek, L., and Tang, C. (1994), A heuristic for cyclic stochastic sequencing of tasks on a drum-like storage system, Computers & Operations Research 21(4), 385-396.
                
            2. Abdou, G., and Lee, E. (1992), Contribution to the development of robotics palletization of multiple-box sizes, Journal of Manufacturing Systems 11(3).
                
            3. Abdou, G., and Yang, M. (1994), A systematic approach for the three-dimensional palletization problem, International Journal of Production Research 32(10), 2381-2394.
                
            4. Abdou, G., and Yang, M. (1995), Multi-layer palletisation of multi-size boxes, International Journal of Advanced Manufacturing Technology 10, 292-297.
                
            5. Acaccia, G.M., Marelli, A., Michelini, R.C., and Zuccotti, A. (2003), Automatic fabric
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            6. Ackerman, K.B., and LaLonde, B.K. (1980), Making warehousing more efficient, Harvard
               Business Review, March-April, 94-102.
                
            7. Agrawal, G.K., and Heragu, S.S. (2006),A survey of automated material handling systems in 300-mm SemiconductorFabs, IEEE Transacti ons on Semiconductor Manufacturing
               19(1), 112-120.
                
            8. Amato, F., Basile, F., Carbone, C., and Chiacchio, P. (2005), An approach to control
               automated warehouse systems, Control Engineering Practice 13, 1223-1241
                
            9. Amirhosseini, M.M., and Sharp, G.P. (1996), Simultaneous analysis of products and orders in storage assignment, Manufacturing Science and Engineering ASME 1996 MED-Vol. 4, 803-811.
                
            10. Apple, J.M. (1968), Criteria for investment in handling systems, Journal of Industrial
                Engineering 19(1), 16-20.
                 
            11. Armbruster, D., and Gel, E.S. (2006), Bucket brigades revisited: Are they always effective?, European Journal of Operational Research 172(1), 213-229
                 
            12. Armbruster, D., and Gel, E.S., and Murakami, J. (2007), Bucket brigades with worker
                learning, European Journal of Operational Research 176(1), 264—274
                 
            13. Armstrong, R.D., Cook, W.D., and Saipe, A.L. (1979), Optimal batching in a semiautomated order picking system, Journal of Operational Research Society 30(8), 711-720
                 
            14. Ascheuer, N., Grötschel, M., and Abdel-Hamid, A.A.A. (1999), Order picking in an automatic warehouse: Solving online asymmetric TSPs, Mathematical Methods of Operations
                Research 49(3), 501-515
                 
            15. Ascheuer, N., Fischetti, M., and Grötschel, M. (2001), Solving the Asymmetric Travelling
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                90(3), 475-506
                 
            16. Ashayeri, J., and Gelders, L.F. (1985), Warehouse design optimization, European Journal of Operational Research 21(3), 285-294
                 
            17. Ashayeri, J., Gelders, L.F., and Van Looy, P.M. (1983), A simulation package for automated warehouses, Material Flow 1, 189-19
                 
            18. Ashayeri, J., Gelders, L., and Van Wassenhove, L. (1985), A microcomputer-based optimisation model for the design of automated warehouses, International Journal of Production Research 23(4), 825-839
                 
            19. Ashayeri, J., and Goetschalckx, M. (1988), Analysis and design of order pick systems, In 9th International Conference on Automation in Warehousing , 125-135.
                 
            20. Ashayeri, J., Heuts, R.M., Valkenburg, M.W.T., Veraart, H.C., and Wilhelm, M.R. (2002),
                A geometrical approach to computing expected cycle times for zone-based storage layouts
                in AS/RS, International Journal of Production Research 40(17), 4467-448.
                 
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            22. Ayoub, M.M., Mital, A., Bakken, G.M., Asfour, S.S., and Bethea, N.J. (1980), Development of strength and capacity norms for manual materials handling activities: the state of the art, Human Factors 22, 271-283
                 
            23. Azadivar, F. (1986), Maximization of the throughput of a computerized automated warehousing system under system constraints, International Journal of Production Research
                24(3), 551-566
                 
            24. Azadivar, F. (1987), Minimum-cost modular design of automated warehousing systems,
                Material Flow 4, 177-188
                 
            25. Azadivar, F. (1989), Optimum allocation of resources between the random access and rack storage spaces in an automated warehousing system, International Journal of Production Research 27(1), 119-131
                 
            26. Bachers, R., Dangelmaier, W., and Warnecke, H.J. (1988), Selection and use of orderpicking strategies in a high-bay warehouse, Material Flow 5, 233-24.
                 
            27. Baker, B.S., and Schwarz, J.S. (1983), Shelf-algorithms for two dimensional packing problems, SIAM Journal of Computers 12, 508-525
                 
            28. Baker, P., and Halim, Z. (2007), An exploration of warehouse automation implementations: cost, service and flexibility issues, Supply Chain Management 12(2), 129-138
                 
            29. Ballou, R.H. (1967), Improving the physical layout of merchandise in warehouses, Journal of Marketing 31(3), 60-64
                 
            30. Banks, J. (1990), The simulation of material handling systems, Simulation 55(5), 261-270
                 
            31. Barrett, B.G. (1977), A further digression on the over-automated warehouse: some evidence, Interfaces 8(1), 46-49
                 
            32. Bartholdi, J.J. (1993), Balancing two-sided assembly lines: a case study, International
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            33. Bartholdi, J.J., Bunimovich, L.A., and Eisenstein, D.D. (1999), Dynamics of two- and
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            34. Bartholdi, J.J., and Eisenstein, D.D. (1996), A production line that balances itself, Operations Research 44(1), 21-34
                 
            35. Bartholdi, J.J., Eisenstein, D.D., Foley, R.D. (2001), Performance of bucket brigades when work is stochastic, Operations Research 49(5), 710-719
                 
            36. Bartholdi, J.J., and Gue, K.R. (2000), Reducing labor costs in an LTL crossdocking terminal, Operations Research 48(6), 823-832
                 
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                IIE Transactions 18(2), 166-17.
                 
            38. Bartholdi, J.J., and Platzman, L.K. (1988), Design of efficient bin-numbering schemes for
                warehouses, Material Flow 4, 247-254
                 
            39. Bartholdi, J.J., Vande Vate, J.H., and Zhang, J. (1989), Expected performance of the shelf heuristic for 2-dimensional packing, Operations Research Letters 8(1), 11-1
                 
            40. Bassan, Y., Roll, Y., and Rosenblatt, M.J. (1980), Internal layout design of a warehouse,
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            41. Bastani, A. (1988), Analytical solution of closed-loop conveyor systems with discrete and
                deterministic material flow, European Journal of Operational Research 35(2), 187-192
                 
            42. Bastani, A.S. (1990), Closed-loop conveyor systems with breakdown and repair of unloading stations, IIE Transactions 22(4), 351-360
                 
            43. Beamon, B.M. (1999), System reliability and congestion in a material handling system,
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            44. Bellman, R. (1956), On the theory of dynamic programming - a warehousing problem,
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            45. Bengü, G. (1995), An optimal storage assignment for automated rotating carousels, IIE
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            46. Berger, S.M., and Ludwig, T.D. (2007), Reducing warehouse employee errors using voiceassisted technology that provided immediate feedback, Journal of Organizational Behavior Management 27(1), 1-31
                 
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            48. Bhaskaran, K., and Malmborg, C.J. (1989), Modelling the service process in a multiaddress warehousing system, Applied Mathematical Modelling 13(7), 386-396
                 
            49. Bhaskaran, K., and Malmborg, C.J. (1990), Economic tradeoffs in sizing warehouse reserve storage area, Applied Mathematical Modelling 14(7), 381-385
                 
            50. Bischoff, E.E. (1991), Stability aspects of pallet loading, OR Spektrum 13, 189-197
                 
            51. Bischoff, E.E., Janetz, F., and Ratcliff, M.S.W. (1995), Loading pallets with non-identical
                items, European Journal of Operational Research 84(3), 681-692
                 
            52. Bischoff, E.E. and Ratcliff, M.S.W. (1995), Loading multiple pallets, Journal of the Operaional Research Society 46(11), 1322-1336
                 
            53. Bishu, R.R., Donohue, B., and Murphy, P. (1991), Cognitive ergonomics of a mail order
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                Applied Ergonomics 22(6), 367-372
                 
            54. Bishu, R.R., Donohue, B., and Murphy, P. (1992), Cognitive ergonomics of a mail order
                filling company: Part 2 Influence of shelf coding and address information on acquisition
                time, Applied Ergonomics 23(2), 115-120
                 
            55. Bozarth, C., and Vilarinho, P.M. (2006), Analyzing the impact of space utilization and
                production planning on plant space requirements - A case study and methodology, International Journal of Industrial Engineering 13(1), 81-89
                 
            56. Bozer, Y.A., and Cho, M. (2005), Throughput performance of automated storage/retrieval systems under stochastic demand, IIE Transactions 37(4), 367-378
                 
            57. Bozer, Y.A., Meller, R.D., and Erlebacher, S.J. (1994), An improvement-type layout algorithms for single and multiple floor facilities, Management Science 40(7), 918-932
                 
            58. Bozer, Y.A., Quiroz, M.A., and Sharp, G.P. (1988), An evaluation of alternative control
                strategies and design issues for automated order accumulation and sortation systems,
                Material Flow 4, 265-282
                 
            59. Bozer, Y.A., Schorn, E.C., and Sharp, G.P. (1990), Geometric approaches to solve the
                chebyshev traveling salesman problem, IIE Transactions 22(3), 238-254
                 
            60. Bozer, Y.A., and Sharp, G.P. (1985), An empirical evaluation of general purpose automated order accumulation and sortation system used in batch picking, Material Flow 2(2),
                111-131
                 
            61. Bozer, Y.A., and White, J.A. (1984), Travel-time models for automated storage/retrieval
                systems, IIE Transactions 16(4), 329-338
                 
            62. Bozer, Y.A., and White, J.A. (1990), Design and performance models for end-of-aisle order picking systems, Management Science 36(7), 852-866
                 
            63. Bozer, Y.A., and White, J.A. (1996), A generalized design and performance analysis model for end-of-aisle order-picking systems, IIE Transactions 28(4), 271-28
                 
            64. Braam, I.Th.J., Van Dormolen, M., and Frings-Dresen, M.H.W. (1996), The work load of
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            65. Brady, W. (1973), A comparison of the effect of work-time variation in two types of
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            66. Broekmeulen, R.A.C.M. (1998), Operations management of distribution centers for vegetables and fruits, International Transactions in Operational Research 5(6), 501-508
                 
            67. Brynzér, H., and Johansson, M.I. (1995), Design and performance of kitting and order
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            68. Brynzér, H., and Johansson, M.I. (1996), Storage location assignment: Using the product structure to reduce order picking times, International Journal of Production Economics 46-47, 595-603
                 
            69. Brynzér, H., Johansson, M.I., and Medbo, L. (1994), A methodology for evaluation of
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            70. Burkard, R.E., Fruhwirth, B., and Rote, G. (1995), Vehicle routing in an automated
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            71. Cahn, A.S. (1948), The warehouse problem, Bulletin of the American Mathematical Society 54, 1073
                 
            72. Caputo, A.C., and Pelagagge, P.M. (2006), Management criteria of automated order picking systems in high-rotation high-volume distribution centers, Industrial Management &
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            73. Carlo, H., Hodgson, T.J., Martin-Vega, L.A., and Stern, E.R. (1985), Micro-IPLS: Pallet
                loading on a microcomputer, Computers & Industrial Engineering 9(1), 29-34
                 
            74. Carlson J.G. (1989), JIT applications to warehousing operations, Engineering Costs and
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            75. Carlson, J.G., and Yao, A.C. (1996), A visually interactive expert system for a distribution center environment, International Journal of Production Economics 45(1-3), 101-109
                 
            76. Caron, F., Marchet, G., and Perego, A. (1998) Routing policies and COI-based storage
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            77. Caron, F., Marchet, G., and Perego, A. (2000), Optimal layout in low-level picker-to-part
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            78. Caron, F., Marchet, G., and Perego, A. (2000), Layout design in manual picking system:
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            79. Carpenter, H., and Dowsland, W.B. (1985), Practical considerations of the pallet- loading
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            80. Castillo, I., and Peters, B.A. (2002), Unit load and material-handling considerations in
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            81. Chakraborty, P.S., Majumder, G., and Sarkar, B. (2007), Performance evaluation of material handling system for a warehouse, Journal of Scientific & Industrial Research 66(4),
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            82. Chang, D.T., and Wen, U.P. (1997), The impact on rack configuration on the speed profile of the storage and retrieval machine, IIE Transactions 29, 525-531
                 
            83. Chang, D.T., Wen, U.P., and Lin, J.T. (1993), Picking strategies to the two-carousel-singleserver system in an automated warehouse, Journal of the Chinese Institute of Engineers 16(6), 817-824
                 
            84. Chang, D.T., Wen, U.P., and Lin, J.T. (1995), The impact of acceleration/deceleration
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            85. Chang, S.H., and Egbelu, P.J. (1997), Relative pre-positioning of storage/retrieval machines in automated storage/retrieval systems to minimize maximum system response
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            86. Chang, S.H., and Egbelu, P.J. (1997), Relative pre-positioning of storage/retrieval machines in automated storage/retrieval systems to minimize expected system response time, IIE Transactions 29(4), 313-322
                 
            87. Chang, T.S., Fu, H.P., Hsu, R.C. (2006), The innovative conveying device application for
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            90. Chen, C.S., Sarin, S., and Ram, B. (1991), The pallet packing problem for non-uniform
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            91. Chen, M.C., Huang, C.L., Chen, K.Y., and Wu, H.P. (2005), Aggregation of orders in
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            92. Chen, M.C., and Wu, H.P. (2005), An association-based clustering approach to order
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            93. Chen, Z.L., and Lee, C.Y. (2003), Scheduling of depalletizing and truck loading operations in a food distribution system, Naval Research Logistics 50(3), 239-256
                 
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            95. Chiang, F.C., Wen, U.P., Lin, J.T., and Chang, D.T. (1994), Travel time estimation for the order picking problem in automated warehousing systems, Journal of the Chinese Institute of Engineers 17(2), 205-211
                 
            96. Chincholkar, A.K., and Krishnaiah Chetty, O.V. (1996), Simultaneous optimisation of control factors in automated storage and retrieval systems and FMS using stochastic coloured
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            97. Chincholkar, A.K., Krishnaiah Chetty, O.V., and Kuppuswamy, G. (1994), Analysis of an
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            98. Chow, H.K.H., Choy, K.L., Lee, W.B., and Lau, K.C. (2006), Design of a RFID case-based resource management system for warehouse operations, Expert Systems with Applications 30, 561-576
                 
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            102. Chu, H.K., Egbelu, P.J., and Wu, C.T. (1995), Advisor - A computer-aided material
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            112. Daniels, R.L., Rummel, J.L. and Schantz, R. (1998) A model for warehouse order picking, European Journal of Operational Research 105, 1-17
                  
            113. De Jong, M.J., and Anderson, E.J. (1995), The setting of shelf heights and the distribution of box sizes in two dimensional shelf packing, International Transactions in Operational Research 2(2), 181-186
                  
            114. Dekker, R., De Koster, M.B.M., Roodbergen, K.J., and Van Kalleveen, H. (2004), Improving order-picking response time at Ankor’s warehouse, Interfaces 34(4), 303-313
                  
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Ph.D. theses

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            5. Broekmeulen, R.A.C.M. (1998), Layout and operations management of distribution centers for perishables, Ph.D. thesis, Eindhoven University of Technology, The Netherlands
                
            6. Carlo, H.J. (2007), Door assignment and sequencing problems in crossdocks and container terminals, Ph.D. Thesis, University of Michigan, Ann Arbor, MI
                
            7. Choe, K.-I. (1991), Aisle-based order pick systems with batching, zoning and sorting, Ph.D. thesis, Georgia Institute of Technology, Atlanta, GA
                
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            12. Elsayed, E.A. (1976), Closed-loop conveyor systems with multiple Poisson input and multiple servers, Ph.D. thesis, University of Windsor, Canada
                 
            13. Frazelle, E.H. (1990), Stock location assignment and order batching productivity, Ph.D.
                Thesis, Georgia Institute of Technology, Atlanta, GA
                 
            14. Goetschalckx, M. (1983), Storage and retrieval policies for efficient order picking operations, Ph.D. Thesis, Georgia Institute of Technology, Atlanta, GA
                 
            15. Gue, K.R. (1995), Freight terminal layout and operations, Ph.D. thesis, Georgia Institute
                of Technology, Atlanta, GA
                 
            16. Heikes, R.G. (1971), A Markov chain model of a closed loop conveyor system, Ph.D. thesis, Texas Tech University, Lubbock
                 
            17. Hollingsworth, K.B. (1995), A warehouse benchmarking model utilizing frontier production functions, Ph.D. Thesis, Georgia Institute of Technology, Atlanta, GA
                 
            18. Kim, B.I. (2002), Intelligent agent based planning, scheduling, and control: warehouse
                management application, Ph.D. thesis, Rensselaer Polytechnic Institute, Troy, NY
                 
            19. Lim, S. (1990), Zoning in storage systems, Ph.D. Thesis, Georgia Institute of Technology, Atlanta, GA
                 
            20. Linn, R.J. (1987), An expert system approach to the control of an automated storage/retrieval system, Ph.D. thesis, Department of Industrial Engineering, Pennsylvania State University
                 
            21. Liu, F.F. (1988), Analytical approaches for designing a class of material flow systems, Ph.D. Thesis, Georgia Institute of Technology, Atlanta, GA
                 
            22. Matson, J.O. (1982), The analysis of selected unit load storage systems, Ph.D. Thesis,
                Georgia Institute of Technology, Atlanta, GA
                 
            23. Miebach, J. (1971), Die Grundlagen einer systembezogenen Planung von Stückgutlagern, dargestellt am Beispiel eines Kommisionierlagers, Ph.D. thesis, Technische Universitaet, Berlin
                 
            24. Nawijn, W.M. (1983), Stochastic conveyor systems, Ph.D. thesis, University of Twente,
                Enschede, The Netherlands
                 
            25. Nelißen, J. (1994), Neue Ansätze zur Lösung des Palettenbeladungsproblems, Ph.D. thesis, RWTH Aachen, Germany
                 
            26. Park, B.C. (1991), Analytical models and optimal strategies for automated storage/retrieval system operations, Ph.D. Thesis, Georgia Institute of Technology, Atlanta, GA
                 
            27. Park, Y.H. (1986), Modeling of three dimensional warehouse systems, Ph.D. thesis, Auburn University
                 
            28. Peck, K.E. (1983), Operational analysis of freight terminals handling less than container
                load shipments, Ph.D. thesis, University of Illinois at Urbana-Champaign
                 
            29. Phillips, D.T. (1969), A Markovian analysis of conveyor-serviced ordered entry queuing
                systems with multiple servers and multiple queues, Ph.D. thesis, University of Arkansas
                 
            30. Roberts, S.D. (1968), Warehouse size and design, Ph.D. thesis, Purdue University, West Lafayette, IL
                 
            31. Roodbergen, K.J. (2001), Layout and routing methods for warehouses, Ph.D. thesis, Erasmus University, Rotterdam, The Netherlands
                 
            32. Sadiq, M. (1993), A hybrid clustering algorithm for reconfiguration of dynamic order picking systems, Ph.D. thesis, Industrial Engineering Department, University of Arkansas, Fayetteville, AR
                 
            33. Shieh, J.S. (1985), On the analysis of selected automated storage and retrieval systems,
                Ph.D. thesis, Georgia Institute of Technology, Atlanta, GA
                 
            34. Tabibzadeh, K. (1985), An expert system approach to material handling problems, Ph.D.
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