@article{Andraši_Radišić_Novak_Juričić_2019, title={Subjective Air Traffic Complexity Estimation Using Artificial Neural Networks}, volume={31}, url={https://traffic.fpz.hr/index.php/PROMTT/article/view/3018}, DOI={10.7307/ptt.v31i4.3018}, abstractNote={<p class="Abs-Text-ZIRP"><span style="background-color: #ffffff;">Air traffic complexity is usually defined as difficulty of monitoring and managing a specific air traffic situation. Since it is a psychological construct, best measure of complexity is that given by air traffic controllers. However, there is a need to make a method for complexity estimation which can be used without constant controller input. So far, mostly linear models were used. Here, the possibility of using artificial neural networks for complexity estimation is explored. Genetic algorithm has been used to search for the best artificial neural network configuration. The conclusion is that the artificial neural networks perform as well as linear models and that the remaining error in complexity estimation can only be explained as inter-rater or intra-rater unreliability. One advantage of artificial neural networks in comparison to linear models is that the data do not have to be filtered based on the concept of operations (conventional vs. trajectory-based).</span></p&gt;}, number={4}, journal={Promet - Traffic&Transportation}, author={Andraši, Petar and Radišić, Tomislav and Novak, Doris and Juričić, Biljana}, year={2019}, month={Aug.}, pages={377-386} }