Nowadays, the technology is evolving rapidly, several vehicle manufacturer has partly self-driving cars in the traffic. Current solutions have a big disadvantage, namely that they can’t or only partly can communicate with each other and with the environment. Created the Cooperative Intelligent Transport Systems (C-ITS), which is present in lot of area of the world, resolves this problem. C-ITS system parts can communicate and exchange data with each other in real time, using a new, standardized communication protocol family. However, such systems efficiency depends largely on the vehicle’s speed of advance, the orientation of the antennas and other environment parameters. For the most of the C-ITS applications, packet loss and/or erroneous packet reception is impermissible. Therefore my goal in this thesis is to design and develop an application that helps C-ITS software engineers to easily verify the content of the received packets and extract additional information from them to create appropriate statistics.
In the first part of this thesis, I introduce C-ITS building blocks, architecture and protocols, focusing on the ones which I used in my applications.
In the second part I will describe the details of the implementation and the operation of the developed applications.