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Lecturer(s)
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Navrátil Petr, Ing. Ph.D.
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Course content
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- Introduction, What is product. What is logistics. logistic relation supplier -consumer description What it's logistics chain. Examples! Logistic system. Examples. logistics system distinguishing level idea. system concept description its basic common proprieties description example.input and output term. Amplifying and balancing system coupling. Their consequences. - graph of a function idea and its association with function idea. function term derivation geometric meaning. integral function conception and its geometric meaning. Conjunctive and disjunctive conducting elements and distributing elements. neighbourhood conception and input and output system element conception. Minimum and maximum density of system coupling. -Dynamic first-order system and its equation. Its solution.Graph describing function of system behaviour with oscillation (second - order system). System control. Difference in operating and regulation. typical control system with one input and one output block structure. controlled system regulator, control strategies. - Function extreme (smallest or biggest value) of one changing parameter. Solution by means of graph in Excel. Examples. Bivariant function extreme (smallest or biggest value) by means of graphic instruments. Course graph of two parameters quantity x, y. Bivariant function constrained extremes. Solving in case, that we can determine function y = F (x) from coupling equation. - material product logistics system structure, What are separate parts (sublogistics). services company product production and distribution dissimilarities. What processes optimalization makes possible to us in logistic chain? What is the supply logistics. What task it fulfils in material production and which in the services. material flow disconnection point. Push and pull production system. Examples. disconnection point main functions, its placing in the produce chain. Five disconnection points basic placing types and explication. Connection with expenses. -Standard types of charges rising at inventory existence. Their dependence on inventory sizes. P system and Q- system of resupply. Q -system scheme and explication. P -system of resupply operation. Equation for costs on inventory at constant output. -Produce logistics. Its place in logistics system. machine placement in material production. Sankey diagram and P- Q diagram. just - in -time productionsystem basic principle. What's Kanban. -Distribution logistics. distribution channels types. distribution position localization. Basic function of casing. Direct distribution, Comparison with Hub and Spoke strategy distribution. Cross Docking strategy. Examples of its application in purveyance, production and transportation. Deconsolidation and consolidation procedure conception and basic principle. -Reverse (backward) logistics and its exercise areas. Basic processes of reverse logistics. What is the wastes treatment and from what activity consists . Communal waste and who is its generator and who is its owner. What are its particular components according to origin point. Integrated system treatment with wastes. its fundamental structure sketch. What's a way the wastes eliminating. Waste combustion and its basic phases. What kind of instruments to carry out. Standard types. -Two basic cross - sectional activities in logistics systems. Examples of its application in provision, production, distribution and reverse logistics. Difference between transport and transportation and example in in provision, production, distribution and reverse logistics. Transport principal functions (part of logistics strings). transport delay conception and examples in provision, production, distribution and reverse logistics. Whereas we use it for transformation procedure formulation from logistics viewpoint. What is the transporter what about shipper of goods and examples. How is it in personal transportation. What is the combined transportation?
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Learning activities and teaching methods
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Lecturing, Practice exercises
- Preparation for examination
- 36 hours per semester
- Term paper
- 12 hours per semester
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| prerequisite |
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| Knowledge |
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| Mathematics basic knowledge on gymnasium level, Excel as data processor active familiarity. |
| Mathematics basic knowledge on gymnasium level, Excel as data processor active familiarity. |
| learning outcomes |
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| Student will develop the basic knowledge about typical logistics chains and logistics systems structure and parameters. Substantial acquired competency is the consistent system access to the logistics systems description and quantitative description ability including analysis, synthesis and static optimalization basic tools utilization possibility. |
| Student will develop the basic knowledge about typical logistics chains and logistics systems structure and parameters. Substantial acquired competency is the consistent system access to the logistics systems description and quantitative description ability including analysis, synthesis and static optimalization basic tools utilization possibility. |
| teaching methods |
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| Lecturing |
| Lecturing |
| Practice exercises |
| Practice exercises |
| assessment methods |
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| Written examination |
| Written examination |
| Analysis of seminar paper |
| Analysis of seminar paper |
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Recommended literature
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Gros, I. Základy logistiky ve schématech a prezentacích. Vysoká škola logistiky o.p.s. v Přerově, 2008. ISBN 978-80-87179-07-9.
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PERNICA, P. Logistika pro 21. století: Supply Chain Management. Praha: Radix, spol. s r.o, 2005. ISBN 80-86031-59-4.
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STEHLÍK, A. Logistika I. MU ESF, Brno, 1995. ISBN 80-210-1217-X.
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Úředníček,Z. Logistika a plánování. Zlín, 2014. ISBN 978-80-7454-409-5.
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