Title :
Impact of the average network delay on the operator capacity for FANETs
Author :
Oren, Alper ; Temel, Camil
Author_Institution :
Hava Trafik Kontrol Programi, Hava Astsubay Meslek Yuksek Okulu, İzmir, Turkey
Abstract :
Over the past decade, the quantities and types of unmanned systems (US) have grown immersely and they become to augment substitute the manned systems. Also, the Air Traffic Control (ATC) systems have a vital responsibility to sustain an efficient and safe air space usage of manned and US together. However, in literature suggested ATC systems for this integration is very limited. Moreover, need for the determination of the maximum number of Unmanned Air Vehiches (UAVs) that can be controlled by an operator is still an untouched research field. In this paper, we tailor the well known Fan-Out model. In our proposed model, we add the network delays caused by the mobility infrastructure of the Flying Adhoc Network (FANET) which is formed by the UAVs up in the sky. In addition, we analyze the effects of the velocities of the UAVs and the dimension of the operator controller zone to the maximum number of UAVs that a controller can operate.
Keywords :
air safety; air traffic control; aircraft communication; autonomous aerial vehicles; delays; vehicular ad hoc networks; FANET; air traffic control system; average network delay; fan-out model; flying ad hoc network; mobility infrastructure; operator capacity; unmanned air vehiche; unmanned system; Ad hoc networks; Air traffic control; Conferences; Delays; Mathematical model; Signal processing; Supervisory control; Air Traffic Control; FANET; Unmanned Aerial Vehicle;
Conference_Titel :
Signal Processing and Communications Applications Conference (SIU), 2014 22nd
Conference_Location :
Trabzon
DOI :
10.1109/SIU.2014.6830475
