Presentation is loading. Please wait.

Presentation is loading. Please wait.

Transportation General Concepts Lecture 15 ESD.260 Fall 2003 Caplice.

Published byTobias Richards Modified over 9 years ago

Similar presentations

Presentation on theme: "Transportation General Concepts Lecture 15 ESD.260 Fall 2003 Caplice."— Presentation transcript:

1 Transportation General Concepts Lecture 15 ESD.260 Fall 2003 Caplice

2 MIT Center for Transportation & Logistics - ESD.2602 Transportation Operations Consolidated operations (CO) Bus/rail transit LTL Rail Airlines Ocean carriers/liner service Package delivery Direct operations (DO) Taxi TL Unit trains Charter/private planes Tramp services Courier DO conveyances on CO carriers (sub-consolidation) Rail cars Ocean containers Air “ igloos ”

3 MIT Center for Transportation & Logistics - ESD.2603 Core Transportation Activities

4 MIT Center for Transportation & Logistics - ESD.2604 Types of Transportation Systems Based on Consolidation Used w/o TranshipmentPoint One to One One to Many Many to One Many to Many With TranshipmentPoint One to Many Many to One Many to Many Other Issues Dynamic TranshipmentPoints Interleavenedtrips Planning versus Execution

5 MIT Center for Transportation & Logistics - ESD.2605 Solutions Approach Math Programming Approach Develop detailed objective function and constraints Requires substantial data Solve MILP to optimality Simulation Approach Develop detailed rules and relationships Simulate the expected demand patterns Observe results and rank different scenarios Continuous Approximation Approach Develop a Logistics Cost Function (LCF) that incorporates the relevant decision variables Obtain reasonable results with as little information as possiblein order to gain insights Detailed data can actually make the optimization process harder

6 MIT Center for Transportation & Logistics - ESD.2606 Time Space Diagram

7 MIT Center for Transportation & Logistics - ESD.2607 Cumulative Count Curve

8 MIT Center for Transportation & Logistics - ESD.2608 Logistics Cost Function Nomenclature D = Annual demand (items/time) C r = Rent cost ($/item-time) C i = Inventory cost ($/item-time) C f = Fixed transport cost ($/shipment) C v = Variable transport cost (#/item) H MAX = Maximum headway (time) V = Shipment size (items) V = Total number of units shipped=Σv v MAX = Maximum capacity for transport mode (items) C s = Fixed cost per stop ($/stop) C d = Cost per distance ($/distance) C vd = Marginal cost per item per distance C vs = Marginal cost per item per stop N s = Number of deliverystops C vh = Variable handling costs ($/item) C fh = Fixed handling costs ($/pallet) v hMAX = Maximum capacity for pallet or box (items)

9 MIT Center for Transportation & Logistics - ESD.2609 Holding Costs = R + I

10 MIT Center for Transportation & Logistics - ESD.26010 Move Costs = T + H

11 MIT Center for Transportation & Logistics - ESD.26011 Transport Costs

12 MIT Center for Transportation & Logistics - ESD.26012 Transport Costs Relation to Capacity f t (V) is sub-additive: f t (V 1 +V 2 )≤ f t (V 1 )+f t (V 2 ) C v V MAX <<C f

13 MIT Center for Transportation & Logistics - ESD.26013 Transport Costs Multiple Modes

14 MIT Center for Transportation & Logistics - ESD.26014 Handling Costs

15 MIT Center for Transportation & Logistics - ESD.26015 Total Logistics Cost Function

Download ppt "Transportation General Concepts Lecture 15 ESD.260 Fall 2003 Caplice."

Similar presentations

Facility Location Decisions

Facility Location Decisions
Inventory Management II Lot Sizing Lecture 5 ESD.260 Fall 2003 Caplice.

Inventory Management II Lot Sizing Lecture 5 ESD.260 Fall 2003 Caplice.
Inventory Management III EOQ Notes & Some Extensions Lecture 6 ESD.260 Fall 2003 Caplice.

Inventory Management III EOQ Notes & Some Extensions Lecture 6 ESD.260 Fall 2003 Caplice.
The optimum shipment size. Empirical observations The observed cost per ton of a given vehicle or vessel is generally linear with distance. The observed.

The optimum shipment size. Empirical observations The observed cost per ton of a given vehicle or vessel is generally linear with distance. The observed.
Unilink Transportation.  Unilink Transportation offers a variety of services in the transportation industry, we proud our self’s at delivering the best.

Unilink Transportation.  Unilink Transportation offers a variety of services in the transportation industry, we proud our self’s at delivering the best.
Chapter 3 Network Planning.

Chapter 3 Network Planning.
Logistics Network Configuration

Logistics Network Configuration
ShipSmart TM : The Model and the Computer Science Jonathan Sheffi University of Maryland College Park April 17, 2000.

ShipSmart TM : The Model and the Computer Science Jonathan Sheffi University of Maryland College Park April 17, 2000.
Network Planning.

Network Planning.
OMSAN LOJİSTİK. Optimum Quantities for Procurement (Replenishment Methods) Procurement and Supplier Relationship Management Latin America Logistics Center.

OMSAN LOJİSTİK. Optimum Quantities for Procurement (Replenishment Methods) Procurement and Supplier Relationship Management Latin America Logistics Center.
CDAE 266 - Class 24 Nov. 28 Last class: 4. Queuing analysis and applications 5. Inventory analysis and applications Today: Results of problem set 4 and.

CDAE Class 24 Nov. 28 Last class: 4. Queuing analysis and applications 5. Inventory analysis and applications Today: Results of problem set 4 and.
Inventory Cost Captures time-value of holding product Captures time-value of holding product Perishability, theft, opportunity cost of cash, insurance,

Inventory Cost Captures time-value of holding product Captures time-value of holding product Perishability, theft, opportunity cost of cash, insurance,
1 Dickson K.W. Chiu PhD, SMIEEE Text: Ballou - Business Logistics Management, 5/E (Chapter 6,7)Business Logistics Management, 5/E Transportation.

1 Dickson K.W. Chiu PhD, SMIEEE Text: Ballou - Business Logistics Management, 5/E (Chapter 6,7)Business Logistics Management, 5/E Transportation.
Business Logistics Management 6. Transport Fundementals.

Business Logistics Management 6. Transport Fundementals.
Transportation in a Supply Chain

Transportation in a Supply Chain
LOG 408: Global Logistics Management Lecture 7: Transportation in Supply Chain.

LOG 408: Global Logistics Management Lecture 7: Transportation in Supply Chain.
Logistics Cost Part II Professor Goodchild Spring 11.

Logistics Cost Part II Professor Goodchild Spring 11.
Inventory Management Ross L. Fink.

Inventory Management Ross L. Fink.
Supply Chain Logistics Management

Supply Chain Logistics Management
An Inventory-Location Model: Formulation, Solution Algorithm and Computational Results Mark S. Daskin, Collete R. Coullard and Zuo-Jun Max Shen presented.

An Inventory-Location Model: Formulation, Solution Algorithm and Computational Results Mark S. Daskin, Collete R. Coullard and Zuo-Jun Max Shen presented.

Similar presentations

Ads by Google