• Transportno inženjerstvo, konstrukcije i logistika, Semester 2, position 2

Introducing the students into the advanced transport, warehouse and logistic (warehouse-distributive) systems design process logic is the main goal. Development of the student system design creative and innovative abilities in order to increase the material flow, warehouse and logistic activities efficiency, contributing to the overall country industrial development is also the main issue.

Upon successful completion of this course, students should be able to: - Specify elementary subsystems, elementary subsystem variables, elementary subsystem performance variables and environment variables of the flexible transport systems. - Calculate the basic elementary subsystems performance variables (by queueing systems modeling) of the flexible transport and logistic systems. - Make a comparison of different flexible transport system applications. - Make a calculation of needed capacity, technological and additional storage equipment, working power, working places, needed areas and material flow of the storage and logistic systems.

System, elementary subsystem and environment variables and performance variables of the flexible transport system (FTS). FTS elementary subsystems. "Power and free" system main design characteristic. Flexible monorail system main design characteristic. Rail automated vehicle system main design characteristic. Automated guided vehicle system (AGVS) main design characteristic. Required flexible transport systems vehicle fleet estimation. Warehouse and logistic (warehouse-distributive) systems fundamental design characteristics: goods receiving subsystem, main warehouse subsystem, order picking subsystem, goods dispatching subsystem. One dimensional non strategy and strategy order picking models. Two dimensional order picking models. Case studies (with pointing out most important design parameters). Exercises of lectures.

Exercises of order picking models. Concept design of conventional warehouses with different warehouse technologies, hay-bay warehouses with different automation level and logistic (warehouse-distributive) systems: Goods receiving and dispatching subsystems аrеа estimation, goods receiving and dispatching subsystems technology choosing, main warehouse subsystem technology choosing and capacity estimation,order picking subsystem technology choosing and capacity estimation; Storage equipment technical specification; Required applied transport systems vehicle fleet estimation; System performance variable estimation; Storage system layout design; Warehouse and logistic systems design recommendation and consultation.

Needed: Passed Subject: Mathematical probability and statistics, Material handling equipment, Facility layout and industrial logistics.

Queuing models software package, Faculty of mechanical engineering, University of Belgrade, 1999., lab, 459. 6. Lecture handouts.

Total assigned hours: 75

New material: 24
Elaboration and examples (recapitulation): 6

Auditory exercises: 0
Laboratory exercises: 0
Calculation tasks: 0
Seminar paper: 10
Project: 20
Consultations: 0
Discussion/workshop: 0
Research study work: 0

Review and grading of calculation tasks: 0
Review and grading of lab reports: 0
Review and grading of seminar papers: 2
Review and grading of the project: 3
Test: 5
Test: 0
Final exam: 5

Activity during lectures: 10
Test/test: 30
Laboratory practice: 0
Calculation tasks: 0
Seminar paper: 10
Project: 20
Final exam: 30
Requirement for taking the exam (required number of points): 35

1, Dj. Zrnic, Facility layout design, Faculty of mechanical engineering, University of Belgrade, 1993.; 2, Dj. Zrnic, М. Prokic, P. Milovic, Foundry layout design, Faculty of mechanical engineering, University of Belgrade, 1998.; 3, Dj. Zrnic, D. Savic, Material flow simulation, Faculty of mechanical engineering, University of Belgrade, 1997.; 4, Dj. Zrnic, D. Petrovic, Facility layout design solved example problems, Faculty of mechanical engineering, University of Belgrade,, 1992.; Lecture Handouts, 2023.