Education

The Institute of Logistics has always aimed to adjust its educational and research structure and palette to the all-time needs of the economy. It mainly provides education at the Faculty of Mechanical Engineering and Informatics, moreover also at the Faculty of Economics.

At the Faculty of Mechanical Engineering and Informatics, it coordinates the Logistics and production-planning Specialization in the frame of the Mechanical Engineering BSc program, the Logistics systems Specialization in the frame of the Information Engineering BSc program, moreover since 2014 it coordinates the Logistics Engineering BSc program as well. Since 2010 the Institute also coordinates the Logistics Engineering MSc program. It also conducts educational activities in both doctoral schools of the faculty.


At the Faculty of Economics, the Institute has a significant educational role in the Logistics Management MSc program.


Besides the previous, the Institute has numerous logistics subjects in different programs at both faculties.
Currently operating laboratories of the Institute are: the hightech automated logistics laboratory, the product identification laboratory and the virtual logistics design laboratory.


The significance and popularity of the field of logistics is well represented by the fact that more than 100 students defend their thesis every year in the Institute.

 

Erasmus Subjects in the Institute:

Course name Lang. Neptun code Teacher, email Level Credits, Semester Short description
Beschaffung- und Distributionslogistik  DE GEALT046B-n Prof. Dr. Béla Illés, altilles@uni-miskolc.hu Bachelor 3, both Funktionen der Beschaffung. Rolle der Beschaffung in der Unternehmenslogistik. Systeme und Strategien der Beschaffung. Beschaffung und Distribution aus dem Aspekt von Produktion. 
Computer Design of Material Handling Equipment EN GEALT003B-a Dr. Péter Telek , alttelek@uni-miskolc.hu Bachelor 3, both Operation characteristics and problems of material handling machines. Design of material handling systems. Dynamic phenomenon simulation and computer aided solutions in the design process.
Design of Material Flow Systems EN GEALT001B-a Dr. Tamás Bányai, alttamas@uni-miskolc.hu Bachelor 3, both Design conceptions. Palettisation. Facility allocation planning. Unit loads. Transportation. IT and logistics. Enterprise resource planning. E-commerce. MRP.
LEAN Logistics EN GEALT062B-A Dr. Péter Tamás, tamas.peter@uni-miskolc.hu Bachelor 4, autumn This courses students can get acquainted with the LEAN philosophy and its devices (5S SMED JIT Andon systems Heijunka Jidoka Poka-Joke etc). The end of course the students will be suited to analysis and developement of material flow systems on the basis of LEAN philosophy.
Logistics EN GEALT045B-a Dr. Róbert Skapinyecz, altskapi@uni-miskolc.hu Bachelor 3, autumn General fields and objectives of logistics. Procurement logistics: objectives and tasks. Production logistics: production systems push- and pull systems Lean philosophy JIT principle Kanban system. Distribution logistics: warehousing transportation. Material flow systems: belt conveyors roller conveyors overhead conveyors trolley conveyors trucks cranes., 
Logistics and Quality Management EN GEALT008B-a Dr. Róbert Skapinyecz, altskapi@uni-miskolc.hu Bachelor 3, spring The course introduces a selection of well-established methodologies from the field of quality management together with their corresponding applications in logistics. Besides of the detailed explanation of these methods their interrelations and the relevant mathematical tools are also explained.
Mechatronics in material flow EN GEALT180M-a Dr. Ákos Cservenák, cservenak.akos@uni-miskolc.hu Bachelor 3, both Connection between mechatronics and logistics. Material handling devices (forklifts, carriers, cranes, conveyors, etc.). Mechatronical elements (sensors, actuators) used in these devices. Industry 4.0 techniques.
Automated material handling EN GEALT026B-a Dr. Ákos Cservenák, cservenak.akos@uni-miskolc.hu Bachelor 3, both Basic of automatization, and its connection to logistics. Automated material handling devices (AGVs, automated cranes, conveyors, etc.). Robotization. Robot programming. Robot simulation in Visual Components.
Logistik DE GEALT045B-n Ágota Dr. Bányainé Dr. Tóth, altagota@uni-miskolc.hu Bachelor 3, both Hintergrund der Logistik. Horizontale und vertikale Integration von Logistikfunktionen. Aufgaben der Beschaffung Produktion Distribution und Wiederverwertung. Informationstechnologie und Logistik. Logistik in der Produktion und Dienstleistung. Just in Time. Problemen von „Make or buy. Integrierte Logistik. CIL. Logistik der virtuellen Unternehmen. 
Logistik und Qualitätsmanagement  DE GEALT008B-n Prof. Dr. Béla Illés, altilles@uni-miskolc.hu Bachelor 3, both Der Kurs enthält eine Auswahl etablierter Methoden des Qualitätsmanagement und deren Anwendung im Applikationsgebiet der Logistik. Dabei wird neben der Vermittlung von Einzelmethoden auch deren Verknüpfung zu ganzheitlichen Strategien Rechnung getragen.
Planung von Materialflusssystemen DE GEALT001B-n Dr. Tamás Bányai, alttamas@uni-miskolc.hu Bachelor 3, both Planungskonzeptionen. Ladeeinheitsbildung. Layoutplanung. Transportsystemen. Logistik und Informatik. PPS. E-commerce. MRP
Purchasing and Distribution Logistics EN GEALT046B-a Ágota Dr. Bányainé Dr. Tóth, altagota@uni-miskolc.hu Bachelor 3, spring Purchasing logistics process. Typical purchasing logistics strategies. Distribution logistics process. Strategic issues in distribution logistics. Inventory management for finished products. Loading units and packaging systems in distribution. First mile and last mile solutions.
Simulation of Material Flow Systems EN GEALT061B-a  Dr. Péter Tamás, tamas.peter@uni-miskolc.hu Bachelor 4, spring Grouping and characteristics of material flow systems. Mathematical description of the operation of material flow systems. Concept and objectives of simulation modeling. Types of simulation models, steps of implementing simulation testing. Modeling of material flow systems. Description of process development methods for material flow systems. Case studies.