For details of this working group, see Certilab.
For details of this working group, see the Dispatching and Information Systems Laboratory.
In this area, the Department of Transport Telematics deals with general, theoretical and systematic approaches to telematics. This includes work in the areas of telematics system architecture (mainly at the European level), system safety and reliability (see LSS laboratory), human machine interfaces, predictive diagnostics, the area of traffic data and its reliability, and others. We also deal with the general organization of telematics systems and the systems (holistic) approach to telematics systems. Also, from a systems perspective (planning, efficiency, etc.) we are looking at alternative drives and electromobility with an emphasis on energy sources (batteries).
Ing. Zuzana BĚLINOVÁ, Ph.D.
In our department we are engaged in a wide range of activities in the field of Geographic Information Systems (GIS), which include not only working with modern software (ArcGIS Pro, QGIS, PostgreSQL), but also working in environments and programming languages for statistical analysis of spatial data and their graphical display. We work with spatial data in the form of raster and vector models, which allow modelling the real world in a digital environment. We conduct exploratory analyses of spatial data to identify specific configurations (patterns) of data elements and understand the mechanisms of their generation, identify outliers, and select appropriate data models. Specific activities include analysis of satellite images, working with GNSS systems and their application for precise location, use of GIS in transportation planning, for example for route optimization, indoor navigation, BIM, etc. The whole work process, from data measurement, data processing, analysis and final presentation, is addressed in the course.
We use geographic data of various themes, from vector data with a transport theme to raster data from remote sensing mapping various spatial phenomena at a larger scale. We use these data both for problem solving in different areas such as environmental protection, traffic management or spatial planning, and for our own research on possible applications in other areas related to transport issues.
Overall, GIS is used in many industries where it is necessary to work with spatial data and create analyses, models and visualizations that help better understanding, decision-making, but also visualization and presentation of issues to unbiased persons.
doc. Ing. Pavel HRUBEŠ, Ph.D.
For details of this working group, see the Transportation Hall of the Faculty of Transportation Sciences.
For details of this working group, see Certilab.
See the Transport Management and Modelling Laboratory for details of this working group.
See the Tunnel Systems Laboratory for details of this working group.
For details of this working group, see the Laboratory of Urban Engineering and Lighting Technology (LAMIST).