why warehousing?
DESCRIPTION
MODELING AND ANALYSIS OF MANUFACTURING SYSTEMS Session 14 WAREHOUSING E. Gutierrez-Miravete Spring 2001. WHY WAREHOUSING?. FOR PARTS DISTRIBUTION FOR SPARE PARTS PROVISIONING TO ASSEMBLE PRODUCT BATCHES PRIOR TO DELIVERY CRITICAL PART STOCKPILING FOR REGIONAL DISTRIBUTION FOR QUICK DELIVERY. - PowerPoint PPT PresentationTRANSCRIPT
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MODELING AND ANALYSIS OFMANUFACTURING SYSTEMS
Session 14
WAREHOUSING E. Gutierrez-Miravete
Spring 2001
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WHY WAREHOUSING?
• FOR PARTS DISTRIBUTION
• FOR SPARE PARTS PROVISIONING
• TO ASSEMBLE PRODUCT BATCHES PRIOR TO DELIVERY
• CRITICAL PART STOCKPILING
• FOR REGIONAL DISTRIBUTION FOR QUICK DELIVERY
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WAREHOUSING SYSTEMS
FACILITIES• STORAGE RACKS• QUALITY CONTROL• RECEIVING DOCK• STORE/RETRIEVE• MANUFACTURING• SHIPPING DOCK
ACTIVITIES• STORAGE• INSPECTION• UNLOADING +• TRANSPORT +• PARTS PREP.• PACKING +
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WAREHOUSE TYPES
• FULLY AUTOMATED
• MANUALLY CONTROLLED
• IN BETWEEN
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WAREHOUSE COMPONENTS
• BUILDING SHELL
• STORAGE MEDIUM– PALLET RACKS
• TRANSPORT MECHANISMS– S/R MACHINES
• CONTROLS– DEDICATED STORAGE– OPEN STORAGE
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WAREHOUSE DESIGN• THE 85 PERCENT RULE
• STANDARD WAREHOUSE (F10.3)– RECTANGULAR BUILDING– I/O AT ONE END– TRAVEL ALONG AISLES
• DESIGN GOAL: TO MINIMIZE AVERAGE STORAGE/RETRIEVAL TIMES
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WAREHOUSE DESIGN
• NUMBER OF STORAGE ROWS a
• NUMBER OF BAYS IN A ROW b
• WAREHOUSE LENGTH a
• WAREHOUSE WIDTH b
• NUMBER OF LEVELS n
• TOTAL NUMBER OF NEEDED STORAGE LOCATIONS K
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WAREHOUSE DESIGN
• GOAL
MINIMIZE a/2 + b/4
• SUBJECT TO
n a b > K
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WAREHOUSE DESIGN
• SOLVE FOR a FROM THE CONSTRAINT, SUBSTITUTE IN THE GOAL FUNCTION THEN MINIMIZE WITH RESPECT TO b TO OBTAIN
b* = (2 K/ n)1/2
a* = ( K/2 n)1/2
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QUESTIONS
• WHAT IS THE LENGTH/WIDTH RATIO OF THE OPTIMAL WAREHOUSE?
• WHAT IS THE RATIO OF THE NUMBER OF STORAGE LOCATIONS ALONG THE WIDTH TO THAT ALONG THE LENGTH?
• Ex. 10.1, p. 333
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QUESTIONS
• HOW TO DETERMINE THE HEIGHT OF THE OPTIMAL WAREHOUSE?
• WHAT IS THE CHEBYSHEV MEASURE TRAVEL TIME?
MAX ( z/vz, x/vx )
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QUESTIONS
• WHAT DETERMINES THE OPTIMAL WAREHOUSE SHAPE?
• CONSTANT TRAVEL TIME CONTOURS
• Figs. 10.4a, 10.4b, 10.4c
• WHAT IS THE APPROPRIATE RACK ORIENTATION?
• TRANSVERSE (Fig.10.3) VS LONGITUDINAL (Fig.10.5)
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STACKING PATTERNS
• RACK STACKING
• BLOCK STACKING (Fig. 10.6)
• HONEYCOMB LOSS
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LOCATION IN WAREHOUSES
• HOW TO ASSIGN INCOMING LOADS TO STORAGE LOCATIONS?
• WHAT IS THE EFFECT OF EXPECTED TURNAROUND OF THE LOAD?
• WHAT IS THE EFFECT OF DEDICATED VS OPEN STORAGE ON THE LOCATION DECISION?
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DEDICATED STORAGE
• SIMPLIFIED CONTROL
• SIMPLIFIED STATUS CHECKING
• PRODUCT ORDERS FROM VISUAL INSPECTION
• LOW OCCUPATION LEVELS
• Ex. 10.2, p. 337
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DEDICATED STORAGE
• PRODUCTS TO BE ALLOCATED TO STORAGE LOCATIONS N
• DIVIDE WAREHOUSE SPACE INTO M SQUARE ISOCAPACITY GRIDS
• EACH PRODUCT REQUIRES SOME GRIDS FOR ITS STORAGE
• NUMBER OF SHIPPING/RECEIVING PORTS P
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DEDICATED STORAGE• NUMBER OF TRIPS OF PRODUCT i
THROUGH PORT p wip
• DISTANCE FROM CENTER OF GRID j
TO PORT p dpj
• TRAVEL COST PER PERIOD DUE TO
STORAGE OF i IN j cij
• GOAL: FIND THE SET OF GRIDS Ai TO
ASSIGN TO EACH PRODUCT i
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DEDICATED STORAGE
• DECISION VARIABLE xij
• GOAL
MINIMIZE i j cij xij
• SUBJECT TO
j xij = Ai FOR ALL i
i xij = 1 FOR ALL j
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DEDICATED STORAGE
• PROGRAMMING PROBLEM IS ANALOGOUS TO TRANSPORTATION PROBLEM
• Ex. 10.3; Tables 10.4a, 10.4b, 10.5
• WHAT HAPPENS IF ALL PRODUCTS USE ALL PORTS IN THE SAME PROPORTION?
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DEDICATED STORAGE
• WHAT IS THE FACTORING ASSUMPTION?
wip = ci*wp
– pp 340-341
• Ex. 10.4, p. 341– Table 10.6; Fig. 10.8
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OPEN STORAGE
• COMPUTER CONTROLLED WAREHOUSES
• Ex. 10.5, p. 343
• THROUGHPUT: THE NUMBER OF STORAGE AND RETRIEVAL REQUESTS THAT CAN BE HANDLED BY THE S/R MACHINE PER UNIT TIME
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OPEN STORAGE
• RACK STRUCTURE FOR TRAVEL TIME CALCULATION (Fig. 10.9)
• X, Z HORIZONTAL AND VERTICAL LENGTHS OF STORAGE RACKS
• vx, vz HORIZONTAL AND VERTICAL SPEEDS OF S/R VEHICLE
• tpd FIXED TIME FOR PICKUP/DEPOSIT
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OPEN STORAGE
• TOTAL SINGLE COMMAND TRIP TIME (Eqn. 10.8-10.10)
T = vx Z2/(3 vz2 X) + X/vx + 2 tpd
• Ex. 10.6, p. 344
• DUAL COMMAND TRIP TIME (Eqn. 10.11)
• Ex. 10.7, p. 345
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OPEN STORAGE
• CLASS-BASED STORAGE (OP)– EXPECTED LENGTH OF STAY IN
STORAGE
• STORING COMPLEMENTARY ITEMS (OP)– LOCATING ITEMS WHICH ARE
ORDERED TOGETHER NEAR TO EACH OTHER
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ORDER PICKING
• PICKING SMALL ITEMS FROM A WAREHOUSE TO FILL ORDERS
• DESIGN PROBLEM– SHOULD PARTS COME TO PICKERS?– SHOULD PICKERS GO TO PART
RACKS?
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ORDER PICKING SYSTEM CONSIDERATIONS
• STORAGE HEIGHT
• THROUGHPUT VOLUME
• LEVEL OF COMPUTERIZATION
• PRODUCT WEIGHT
• DEGREE OF PRODUCT PROTECTION REQUIRED
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ORDER-PICKING PROBLEM
COMBINE CUSTOMER ORDERS INTO PICK LISTS THEN PLAN THE SEQUENCING OF VISITS TO STORAGE LOCATIONS IN
EACH LIST
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FORMING PICK LISTS
• KEY: BATCHING ORDERS INTO PICK LISTS
• C CARRYING CAPACITY OF S/R MACHINE
• K TOTAL NUMBER OF ORDERS
• Qk SIZE OF k-th ORDER
• CLUSTERING ALGORITHM
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PICK LISTS
• QUESTION: HOW TO DETERMINE SIMILARITY BETWEEN ORDERS?
• S/R MACHINE PERFORMS CHEBYSHEV TRAVEL (Fig. 10.10)
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PICK LIST CREATION
• FIND THE AREA OF TRAVEL REGIONS FOR ORDERS (Ex. 10.8)
• FIND INTERSECTIONS OF TRAVEL REGIONS (Ex. 10.9)
• FIND SIMILARITY COEFFICIENTS (E10.9)
• BATCH ORDERS INTO LISTS (Ex. 10.10)
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PICK SEQUENCING
• LIKE TRAVELING SALESMAN PROBLEM
• SOLUTION TECHNIQUES– OPTIMIZATION– HEURISTICS (CLOSEST INSERTION
PROCEDURE)
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PICK LISTS
• Ex. 10.8, Table 10.8
• Ex. 10.9, Tables 10.9, 10.10