Methods of increasing of wireless ad-hoc networks throughput using telecommunication aerial platforms
It is proposed a method for operational planning and re-planning of telecommunication aeroplatform network topology that allows through the optimal placement of drones in space to create such a network structure, which has a large throughput. It is proposed a method for the rapid deployment of telecommunication aeroplatform networks that allows using wireless sensor networks quickly gather data about the current coordinates of mobile subscribers and through a specially designed remote control devices to direct the position of unmanned aerial vehicles to achieve the desired throughput. It is proposed a method for operational control of telecommunication aeroplatform network that will allow through adaptive management procedures of multiple access, processing and routing data on a board of previously placed unmanned aerial vehicles to adapt to a given type and level of traffic and thus even increase the value of the network throughput. It is proposed a method for the synthesis of adaptive optimal law energy consumption control of small aircraft type UAV, which is used as a high-altitude relay aeroplatform for ad-hoc radio networks, characterized by a combination of the method of Lyapunov functions and gradient method of adaptive systems, depending on the intensity of external stochastic disturbances and the rate of change of the parameters of control object. On the basis of the proposed methods it is developed an experimental model of adaptive remote control system, navigation and orientation in space of telecommunications aeroplatform to achieve the desired indicators for the ad-hoc network.