Department of Technology and Economics

Head of department: Endre Horváth Dr., PhD., college professor

E-mail: horvathe (at) gdf.hu
Phone: +36 (1) 203-0304 (ext.: 2231)


Research workshops

Workshop for Environmental Sciences

Targets
Analysis and proving the profitability of investments based on renewable energy sources using theoretical economic models and empiric studies.


Workshop for Accounting-Controlling

Targets
Application opportunities of the Balanced Scorecard methodology in the non-profit sector and in fields of traditionally not profit-oriented services. Using of management accounting methods in the agricultural sector.


Methodology workshop

Targets
Explore and disseminate the methodology opportunities of education, measuring and assessment systems which support - using online methods - the efficiency improvement of competence-based education, especially distance learning (blended learning) and the career success of alumni taking into account the requirements of the job market against human resources
.


 3D Modelling and Production Science Workshop

Workshop objectives

To develop procedures facilitating the production of single or complex structures with the help of 3D modelling. A specific case is the development of the dragon structure and some electronic board units of unmanned aerial vehicles.

Research work

  • Flying devices used for data collection can have a variety of prices, with huge differences.  DGC researchers have ventured to prove that they are able to create, from limited resources, a mini UAV capable of taking pictures of its surroundings within a one kilometre radius.

Interdisciplinary Applications of Mathematics Science Workshop

Workshop objectives

To develop and implement applications that use different areas of mathematics
The two main areas of research and development:
(A) Educational applications, methodology, participation in projects.   
(B) Flow modelling and analysis.

Research work

  • Research in the field of physical and biological applications of mathematical analysis (mainly differential equations).
  • Development and application of mathematical methods in digital image processing.
  •  Achieving new practical results in probability theory and mathematical statistics, focusing on the fields of reliability and risk theory (e.g. entropy-based risk analysis) and on economic and social sciences.
  • Physical applications: dissipative and non-dissipative thermal processes. Thermodynamic applications. Dynamic systems.
  • Mathematical modelling of logistic processes (A and B).