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Zvýšení efektivity vybraného podniku / Improving efficiency of selected companyBouška, Tomáš January 2013 (has links)
The thesis deals with ways of increasing efficiency in retail with focus on logistics from theoretical as well as practical perspective. Application of the practical part is demonstrated on the example of Dotcom, online store project of Tesco Stores ČR a.s. First aim of the thesis is to identify areas with the biggest potential in increasing efficiency with respect to financial demands of the eventual investment and to propose a potential solution. Second aim is to verify a hypothesis that the delivery of goods to customers is inefficient given that the planning system is not being linked to the tracking system.
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Automation i orderplockprocessen : En kvalitativ intervjustudieZhao, Zaixi, Ivarsson, Simon January 2023 (has links)
Background: With the exponential expansion of E-commerce, rising labor cost and higher customer expectations have pushed the implementation of advanced automation technology in warehouses. The order-picking-process is considered to be the most labor intensive and most expensive labor cost in warehouses. It has a crucial part to determine the lead time and customer satisfaction and because it is the last procedure before the order is shipped it can have negative effects on delivery quality, future customer relations and the overall satisfaction. Purpose: The purpose of this paper is to evaluate how automation can help in the order picking process by studying the companies Shelfless and Exsitec to understand its effect on efficiency, cost and to understand the barriers and motivations to implementing it. Method: This paper is based on a qualitative interview study with a deductive approach. The analysis method is based on within case analysis and cross-case analysis. Within case analysis is used to develop an understanding of each company to then later use a cross-case analysis to examine the difference between the two companies. Conclusion: The conclusion is that automation in the order picking process can increase the productivity whilst lowering the cost at the expense of a high installation fee with some disadvantages during the installation process like lower productivity, less flexibility. Although in the long run automation will be necessary to keep up with the growth of the companies.
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An evaluation of order picking paths and storage strategiesVan Euwen, Jon January 2001 (has links)
No description available.
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Designing Order Picking Systems for Distribution CentersParikh, Pratik J. 06 October 2006 (has links)
This research addresses decisions involved in the design of an order picking system in a distribution center. A distribution center (DC) in a logistics system is responsible for obtaining materials from different suppliers and assembling (or sorting) them to fulfill a number of different customer orders. Order picking, which is a key activity in a DC, refers to the operation through which items are retrieved from storage locations to fulfill customer orders.
Several decisions are involved when designing an order picking system (OPS). Some of these decisions include the identification of the picking-area layout, configuration of the storage system, and determination of the storage policy, picking method, picking strategy, material handling system, pick-assist technology, etc. For a given set of these parameters, the best design depends on the objective function (e.g., maximizing throughout, minimizing cost, etc.) being optimized. The overall goal of this research is to develop a set of analytical models for OPS design. The idea is to help an OPS designer to identify the best performing alternatives out of a large number of possible alternatives. Such models will complement experienced-based or simulation-based approaches, with the goal of improving the efficiency and efficacy of the design process.
In this dissertation we focus on the following two key OPS design issues: configuration of the storage system and selection between batch and zone order picking strategies. Several factors that affect these decisions are identified in this dissertation; a common factor amongst these being picker blocking. We first develop models to estimate picker blocking (Contribution 1) and use the picker blocking estimates in addressing the two OPS design issues, presented as Contributions 2 and 3.
In Contribution 1 we develop analytical models using discrete-time Markov chains to estimate pick-face blocking in wide-aisle OPSs. Pick-face blocking refers to the blocking experienced by a picker at a pick-face when another picker is already picking at that pick-face. We observe that for the case when pickers may pick only one item at a pick-face, similar to in-the-aisle blocking, pick-face blocking first increases with an increase in pick-density and then decreases. Moreover, pick-face blocking increases with an increase in the number of pickers and pick to walk time ratio, while it decreases with an increase in the number of pick-faces. For the case when pickers may pick multiple items at a pick-face, pick-face blocking increases monotonically with an increase in the pick-density. These blocking estimates are used in addressing the two OPS design issues, which are presented as Contributions 2 and 3.
In Contribution 2 we address the issue of configuring the storage system for order picking. A storage system, typically comprised of racks, is used to store pallet-loads of various stock keeping units (SKU) --- a SKU is a unique identifier of products or items that are stored in a DC. The design question we address is related to identifying the optimal height (i.e., number of storage levels), and thus length, of a one-pallet-deep storage system. We develop a cost-based optimization model in which the number of storage levels is the decision variable and satisfying system throughput is the constraint. The objective of the model is to minimize the system cost, which is comprised of the cost of labor and space. To estimate the cost of labor we first develop a travel-time model for a person-aboard storage/retrieval (S/R) machine performing Tchebyshev travel as it travels in the aisle. Then, using this travel-time model we estimate the throughput of each picker, which helps us estimate the number of pickers required to satisfy the system throughput for a given number of storage levels. An estimation of the cost of space is also modeled to complete the total cost model. Results from an experimental study suggest that a low (in height) and long (in length) storage system tends to be optimal for situations where there is a relatively low number of storage locations and a relatively high throughput requirement; this is in contrast with common industry perception of the higher the better. The primary reason for this contrast is because the industry does not consider picker blocking and vertical travel of the S/R machine. On the other hand, results from the same optimization model suggest that a manual OPS should, in almost all situations, employ a high (in height) and short (in length) storage system; a result that is consistent with industry practice. This consistency is expected as picker blocking and vertical travel, ignored in industry, are not a factor in a manual OPS.
In Contribution 3 we address the issue of selecting between batch and zone picking strategies. A picking strategy defines the manner in which the pickers navigate the picking aisles of a storage area to pick the required items. Our aim is to help the designer in identifying the least expensive picking strategy to be employed that meets the system throughput requirements. Consequently, we develop a cost model to estimate the system cost of a picking system that employs either a batch or a zone picking strategy. System cost includes the cost of pickers, equipment, imbalance, sorting system, and packers. Although all elements are modeled, we highlight the development of models to estimate the cost of imbalance and sorting system. Imbalance cost refers to the cost of fulfilling the left-over items (in customer orders) due to workload-imbalance amongst pickers. To estimate the imbalance cost we develop order batching models, the solving of which helps in identifying the number of items unfulfilled. We also develop a comprehensive cost model to estimate the cost of an automated sorting system. To demonstrate the use of our models we present an illustrative example that compares a sort-while-pick batch picking system with a simultaneous zone picking system.
To summarize, the overall goal of our research is to develop a set of analytical models to help the designer in designing order picking systems in a distribution center. In this research we focused on two key design issues and addressed them through analytical approaches. Our future research will focus on addressing other design issues and incorporating them in a decision support system. / Ph. D.
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Order sequencing and SKU arrangement on a unidirectional picking lineMatthews, Jason 03 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: An order picking operation in a distribution centre (DC) owned by Pep Stores Ltd, located in
Durban, South Africa was considered. The order picking operation utilises picking lines and the
concept of wave picking. A picking line is a central area with storage locations for pallet loads
of stock keeping units (SKUs) around a conveyor belt. The system shows many similarities to
unidirectional carousel systems found in literature, however, the unidirectional carousel system
is not common. Sets of SKUs must be assigned to pick waves. The SKUs associated with a
single wave are then arranged on a picking line after which pickers move in a clockwise direction
around the conveyor belt to pick the orders.
The entire order picking operation was broken into three tiers of decision making and three
corresponding subproblems were identi ed. The rst two subproblems were investigated which
focused on a single picking line. The rst subproblem called the order sequencing problem (OSP)
considered the sequencing of orders for pickers and the second called the SKU location problem
(SLP) the assignment of SKUs to locations in the picking line for a given wave.
A tight lower bound was established for the OSP using the concept of a maximal cut. This
lower bound was transformed into a feasible solution within 1 pick cycle of the lower bound.
The solution was also shown to be robust and dynamic for use in practice. Faster solution times,
however, were required for use in solution techniques for the SLP. Four variations of a greedy
heuristic as well as two metaheuristic methods were therefore developed to solve the problem in
shorter times.
An ant colony approach was developed to solve the SLP. Furthermore, four variations of a
hierarchical clustering algorithm were developed to cluster SKUs together on a picking line
and three metaheuristic methods were developed to sequence these clusters. All the proposed
approaches outperformed known methods for assigning locations to SKUs on a carousel.
To test the validity of assumptions and assess the practicality of the proposed solutions an agent
based simulation model was built. All proposed solutions were shown to be applicable in practice
and the proposed solutions to both subporblems outperformed the current approaches by Pep.
Furthermore, it was established that the OSP is a more important problem, in comparison to
the SLP, for Pep to solve as limited savings can be achieved when solving the SLP. / AFRIKAANSE OPSOMMING: 'n Stelsel vir die opmaak van bestellings in 'n distribusiesentrum van Pep Stores Bpk. in Durban,
Suid-Afrika word beskou. Hierdie stelsel gebruik uitsoeklyne waarop bestellings in golwe opgemaak
word. 'n Uitsoeklyn is 'n area met vakkies waarop pallette met voorraadeenhede gestoor
kan word. Hierdie vakkies is rondom 'n voerband gerangskik. Die stelsel het ooreenkomste met
die eenrigting carrousselstelsels wat in die literatuur voorkom, maar hierdie eenrigtingstelsels
is nie algemeen nie. Voorraadeenhede moet aan 'n golf toegewys word wat in 'n uitsoeklyn
gerangskik word, waarna werkers dan die bestellings in die betrokke golf opmaak.
Die hele operasie van bestellings opmaak kan opgebreek word in drie vlakke van besluite met
gepaardgaande subprobleme. Die eerste twee subprobleme wat 'n enkele uitsoeklyn beskou, word
aangespreek. Die eerste subprobleem, naamlik die volgorde-van-bestellings-probleem (VBP)
beskou die volgorde waarin bestellings opgemaak word. Die tweede probeem is die voorraadeenheidaan-
vakkie-toewysingsprobleem (VVTP) en beskou die toewysings van voorraadeenhede aan
vakkies in 'n uitsoeklyn vir 'n gegewe golf.
'n Sterk ondergrens vir die VBP is bepaal met behulp van die konsep van 'n maksimum snit.
Hierdie ondergrens kan gebruik word om 'n toelaatbare oplossing te bepaal wat hoogstens 1
carrousselsiklus meer as die ondergrens het. Hierdie oplossings kan dinamies gebruik word en
kan dus net so in die praktyk aangewend word. Vinniger oplossingstegnieke is egter nodig indien
die VVTP opgelos moet word. Twee metaheuristiese metodes word dus voorgestel waarmee
oplossings vir die VBP vinniger bepaal kan word.
'n Mierkolonie benadering is ontwikkel om die VVTP op te los. Verder is vier variasies van 'n
hi erargiese groeperingsalgoritme ontwikkel om voorraadeenhede saam te groepeer op 'n uitsoeklyn.
Drie metaheuristieke is aangewend om hierdie groepe in volgorde te rangskik. Al hierdie
benaderings vaar beter as bekende metodes om voorraadeenhede op 'n carroussel te rankskik.
Om die geldigheid van die aannames en die praktiese uitvoerbaarheid van die oplossings te toets,
is 'n agent gebaseerde simulasie model gebou. Daar is bevind dat al die voorgestelde oplossings
prakties implementeerbaar is en dat al die metodes verbeter op die huidige werkswyse in Pep.
Verder kon vasgestel word die VBP belangriker as die VVTP vir Pep is omdat veel kleiner
potensiele besparings met die VVTP moontlik is as met die VBP.
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Effektivitet av orderplockning med olika stora artiklar i lagerZetterberg & Neichalani, Adam & Saman January 2023 (has links)
Abstract The purpose of the thesis was to investigate the order picking process for different sized items on different floors. The thesis purpose was also to study how the warehouse layout is affected by different sized items. The study also aimed to identify different ways to streamline order picking by optimizing the layout. To answer the research questions, qualitative studies were conducted where interviews and observations were used to investigate different activities on different floors of the case company. The result revealed the large items on different floors have a great impact on the layout as large items require special handling and can otherwise lead to inefficient picking times. By implementing restructuring of different items on the upper floor and implementing inventory systems such as ABC-analysis, the order picking process can be streamlined. This leads to reduced picking time as the picker doesn’t have to travel unnecessarily long distances. The result of this study can be useful for companies that work with large items and want to improve their order picking process. For further research, it is suggested to evaluate the proposed measures in practice. / Sammanfattning Examensarbetets syfte var att undersöka orderplockningsprocessen för olika stora artiklar på olika våningar samt hur lagerlayouten påverkas av artiklarnas storlek. Arbetet syftade också till att identifiera olika sätt att effektivisera orderplockningen genom att optimera layouten. För att besvara forskningsfrågorna genomfördes kvalitativa studier där intervjuer och observationer använts för att undersöka olika lageraktiviteter på olika våningar hos fallföretaget. Resultatet visade att stora artiklar på olika våningar har en stor påverkan på layouten eftersom de kräver en särskild hantering, vilket kan leda till ineffektiva plocktider. Genom att implementera omstrukturering av olika artiklar på övervåningen och implementera lagersystem som ABC-analys så kan orderplockningsprocessen effektiviseras. Detta leder till minskad plocktid genom att plockaren inte behöver färdas onödigt långa sträckor. Resultaten för denna studie kan vara nytta för företag som jobbar med stora artiklar och vill förbättra sin orderplockningsprocess. För ytterligare forskning så föreslås det att utvärdera de förslagna åtgärderna i praktiken.
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Managing space in forward pick areas of warehouses for small partsSubramanian, Sriram 13 January 2014 (has links)
Many high-volume warehouses for small parts such as pharmaceuticals, cosmetics and office supplies seek to improve efficiency by creating forward pick areas in which many popular products are stored in a small area that is replenished from reserve storage. This thesis addresses the question of how to stock forward pick areas to maximum benefit by answering two key, inter-related decisions that have been called Assignment-Allocation. The assignment question asks which SKUs should be stored in the forward pick area? And the allocation question asks how much space should be allocated to each SKU? We show fast, simple, near-optimal algorithms to answer these questions in a variety of circumstances. To allocate space to SKUS, we introduce a Powers of Two allocation scheme designed to simplify shelf management. In addition, we present a ranking-based algorithm to assign SKUs and allocate space among multiple forward pick areas. We show that a similar algorithm that accounts for constraints on congestion and workload within the forward pick area. We also show how to determine the optimal assignment for warehouses with one or more forward pick areas that allocate space in ways that are common in practice.
Warehouses frequently use the 80-20 rule to manage SKUs based on their popularity. We examine empirical data from thirty warehouses and analyze whether the power law distribution is a suitable fit. We test the hypothesis that the power law fits of warehouses in similar industries are themselves similar. We review explanations for why power laws arise in other settings and identify those that are plausible in the warehouse setting.
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Simulation-based design evaluation of automated storage/retrieval systemsShroff, Raj N. 14 January 1992 (has links)
Automated storage and Retrieval (AS/R) systems have had
a significant impact on storage and retrieval of finished
goods, work-in-process, and raw materials and supplies. A
microcomputer-based simulation model was developed to
evaluate different unit load AS/R systems serving multiple
input sources and output destinations. The simulation results
were statistically analyzed on different performance measures
including throughput, mean waiting times maximum waiting
times and rejects.
The results showed that for single-dock, square-in-time
layouts, the class based arrangement produced significantly
higher throughput for all scheduling policies. Among the
scheduling policies, the relief nearest neighbor produced
consistently higher throughput. Comparing square-in-time
versus non-square-in-time layouts, the square-in-time layout
performance was better; the performance deteriorated as
deviations from square-in-time increased. For the two dual-dock
layouts, at lower arrival rates the dedicated layout
produced higher throughput; there was no significant
difference between the two layouts at higher arrival rates. / Graduation date: 1992
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The Order-picking Problem In Parallel-aisle WarehousesCelik, Melih 01 June 2009 (has links) (PDF)
Order-picking operations constitute the costliest activities in a warehouse. The order-picking problem (OPP) aims to determine the route of the picker(s) in such a way that the total order-picking time, hence the order-picking costs are minimized. In this study, a warehouse that consists of parallel pick aisles is assumed, and various versions of the OPP are considered. Although the single-picker version of the problem has been well studied in the literature, the multiple-picker version has not received much attention in terms of algorithmic approaches. The literature also does not take into account the time taken by the number of turns during the picking route. In this thesis, a detailed discussion is made regarding the computational complexity of the OPP with a single picker. A heuristic procedure, which makes use of the exact algorithm for the OPP with no middle aisles, is proposed for the single-picker OPP with middle aisles, and computational results on randomly generated problems are given. Additionally, an evolutionary algorithm that makes use of the cluster-first, route-second and route-first, cluster-second heuristics for the VRP is provided. The parameters of the algorithm are determined based on preliminary runs and the algorithm is also tested on randomly generated problems, with different weights given to the cluster-first, route-second and route-first, cluster-second approaches. Lastly, a polynomial time algorithm is proposed for the problem of minimizing the number of turns in a parallel-aisle warehouse.
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Minimising the total travel distance to pick orders on a unidirectional picking lineDe Villiers, Anton Pierre 03 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Order picking is the most important activity in distribution centres. It involves the process of
retrieving products from storage in response to a speci c customer request. The order picking
system in a distribution centre used by Pep Stores Ltd. (Pep), located in Durban, South Africa,
is considered. The order picking system in Pep utilises picking lines. The system requires that
the pickers move in a clockwise direction around the picking line. The planning of picking
lines may be divided into three tiers of decisions. The rst tier determines which Stock Keeping
Units (SKUs) should be allocated to which picking line and is known as the SKU to Picking Line
Assignment Problem (SPLAP). The second tier, the SKU Location Problem (SLP), considers
the positioning of the various SKUs in a picking line. The nal tier considers the sequencing of
the orders for pickers within a picking line and is referred to as the Order Sequencing Problem
(OSP). Collectively, these three tiers aim to achieve the objective of picking all the SKUs
for all the orders in the shortest possible time. The decisions associated with each tier are
made sequentially during the planning of a picking line. Each problem therefore relies on the
information generated by its predecessing tier(s).
Initially the OSP is addressed. A number of heuristic and metaheuristic approaches are presented,
together with an exact formulation to solve this tier. The size of the problem is reduced
by using a relaxation of the problem that may be solved exactly. A number of greedy tour
construction heuristics, a scope and ranking algorithm, methods based on awarding starting
locations with respect to preference ratios and a modi ed assignment approach was used to
solve the OSP. Furthermore, a tabu search, simulated annealing, genetic algorithm and a generalised
extremal optimisation approach are used to solve the OSP. The solution quality and
computational times of all the approaches are compared for the data provided by Pep, with the
generalised extremal optimisation approach delivering the best solution quality.
Two methods from the literature was used to model the SLP, whereafter an ant colony system
was used to maximise the number of orders in common between adjacent SKUs. A number of
agglomerative clustering algorithms were used from which dendrograms could be constructed.
Two novel heuristic clustering algorithms were considered. The rst heuristic calculates a distance
between two clusters as the set of orders that have to collect all the SKUs in both clusters,
whereas the second method is based upon the frequency of SKUs within a cluster. Little or no
improvement was achieved in most cases.
The SPLAP was introduced by means of a number of possibilities of how to formulate objectives.
A possible exact formulation is presented, followed by a nearest neighbour search, which was
initially used to construct new picking lines based on all data sets. A di erent approach was
then taken by means of a tabu search where the waves of two or three picking lines were altered.
Signi cant savings may be incurred for large data sets. / AFRIKAANSE OPSOMMING: Die opmaak van bestellings is die belangrikste aktiwiteit in 'n distribusiesentrum. Dit behels
dat geskikte hoeveelhede produkte uit stoorplekke opgespoor en herpak moet word om aan
kleinhandeltakke gestuur te word. Die bedrywighede binne een van Pep Stores Ltd. (Pep) se
distribusiesentrums in Durban, Suid-Afrika, word beskou. Die sisteem vereis dat die werkers in
'n kloksgewyse rigting om 'n uitsoeklyn beweeg. Die beplanning van die uitsoeklyne kan verdeel
word in drie besluite/probleme. Die eerste besluit is watter voorraadeenhede (VEs) toegewys
moet word aan watter uitsoeklyn. Die tweede besluit is in watter vakkies in die uitsoeklyn die
VEs geplaas moet word, en word die VE-plasings probleem (VLP) genoem. Die nale besluit
is in watter volgorde bestellings opgemaak moet word in 'n uitsoeklyn, en staan bekend as
die volgorde-van-bestellings-probleem (VBP). Die doel van al drie hierdie probleme is om al
die bestellings in 'n uitsoeklyn in die kortste moontlike tyd af te handel. Die besluite wat
verband hou met elke vlak van besluit word opeenvolgend gedoen tydens die beplanning van
'n uitsoeklyn. Die oplossing van elke subprobleem berus op die inligting van die voorafgaande
probleme.
Aanvanlik word die VBP beskou. 'n Aantal heuristiese en metaheuristiese benaderings word
aangebied saam met 'n eksakte formulering om die derde vlak op te los. Die grootte van
die probleem is verminder deur die gebruik van 'n verslapping van 'n eksakte formulering. 'n
Aantal toerkonstruksie heuristieke, 'n omvang en rangorde algoritme, metodes wat gebaseer is
op die toekenning van beginpunte met betrekking tot voorkeurverhoudings en 'n veralgemeende
toewysingsprobleem is gebruik om die VBP op te los. 'n Tabu-soektog, gesimuleerde tempering,
genetiese algoritme en 'n veralgemeende-ekstreme-optimering-benadering word ook gebruik om
die VBP op te los. Die oplossingsgehalte en berekeningstye van al die benaderings word vergelyk
vir werklike data wat verskaf is deur Pep. Die veralgemeende-ekstreme-optimering-benadering
lewer die beste oplossingsgehalte.
Twee metodes uit die literatuur is gebruik om die VLP te modelleer, waarna 'n mier kolonie
stelsel gebruik word om die aantal bestellings wat aangrensende VEs in gemeen het te maksimeer.
'n Aantal groeperingsalgoritmes word gebruik wat dendrogramme kan lewer. Twee heuristiese
groeperingsalgoritmes word oorweeg. Die eerste heuristiek bereken die afstand tussen twee
groepe as die aantal bestellings wat al die VEs in beide groepe moet versamel, terwyl die
tweede metode gebaseer is op die frekwensie van VEs binne 'n groep. Min of geen verbeterings
is in die meeste gevalle gevind.
Die eerste besluit word bekend gestel na aanleiding van 'n aantal moontlike maniere om die
doelwitte te formuleer. 'n Moontlike eksakte formulering word aangebied. 'n Alternatiewe benadering
is geneem deur middel van 'n tabu-soektog waar die golwe van twee of drie uitsoeklyne
gewysig word. Beduidende besparings word gerealiseer vir groot datastelle.
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