• Industry Engineering, Semester 2, position 1

Achieving competency and academic skills in the process of industrial system design. Special emphasis is focused on development of creative skills and overwhelm with specific practical skills needed for professional practice using operational research methods, procedures of analysis and synthesis for obtaining final goal which is optimal practical solution.

Curriculum overcome enables converge of the following skills: analysis, synthesis and prediction of solutions in design process based on knowledge applying in practice using professional ethics as well as development of crucial and self-critical thinking and approach.

Logistic system in industrial environment (role of logistic system in industry, functions which system must achieved and its benefit for industry). Elements of logistic system (production based on end user demand, distribution and warehouse systems). Basic sub-systems of logistic system (production with defined capacity, transport with defined technology and distribution warehouse system). Place and role of the warehouse in logistic system. Application and effects of application of logistic systems in industry (territory coverage with defining location of production and end user, reduction of transport and storage costs and increase of flexibility towards end user).

Audit lessons (Introduction in design process for defined logistic system – defining elements of logistic system and basic sub-systems for chosen logistic system. Introduction in warehouse design of palletized goods – defining of: reception area, main warehouse, distribution – order picking, shipping and warehouse management system). Project workmanship (Determining of the optimal location of the logistic system in macro surrounding – positioning of warehouse regarding to production and end user as a function of transport system. Project of warehouse for palletized goods - defining of: packing and capacity, work technology, layout, reception and shipping and warehouse management system).

There is no special conditions needed for course attending.

1. Bugarić, U.: Lecture handouts, Faculty of Mechanical engineering Belgrade, Belgrade, 2008-2011. 2. Bugaric, U., Petrovic, D.: Servicing system modelling, Faculty of Mechanical engineering Belgrade, Belgrade, 2011. (in print) 3. Zrnić, Đ., Petrović, D.: Factory design – assortment of solved examples, Faculty of Mechanical engineering Belgrade, Belgrade, 1990. 4. Zrnić, Đ., Petrović, D.: Stochastic process in transport, Faculty of Mechanical engineering Belgrade, Belgrade, 1994. 5. Bloomberg, D. J., LeMay, S. B., Hanna, J. B.: Logistics, Prentice Hall, New York, 2002. 6. Practical instruction in industrial environment. 7. Personal computers.

Total assigned hours: 75

New material: 20
Elaboration and examples (recapitulation): 10

Auditory exercises: 10
Laboratory exercises: 15
Calculation tasks: 0
Seminar paper: 0
Project: 5
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: 0
Review and grading of the project: 6
Test: 4
Test: 0
Final exam: 5

Activity during lectures: 10
Test/test: 20
Laboratory practice: 0
Calculation tasks: 0
Seminar paper: 0
Project: 40
Final exam: 30
Requirement for taking the exam (required number of points): 30

Asimow, M.: Introduction to Design, Prentice-Hall, Englewood Cliffs, New Jersey, 1962.; Hall, A. D.: A methodology for systems engineering, Van Nostrand, Princeton, New Jersey, 1962.; Cooper, B. R.: Introduction to queueing theory (second edition), Elsevier North Holland, New York, 1981.