Hedge transfer learning routing for dynamic searching and reconnoitering applications in 3D multimedia FANETs

Abstract: With the fast development of unmanned aerial vehicles (UAVs) and the user increasing demand of UAV video transmission, UAV video service is widely used in dynamic searching and reconnoitering applications. Video transmissions not only consider the complexity and instability of 3D UAV network topology but also ensure reliable quality of service (QoS) in flying ad hoc networks (FANETs). We propose hedge transfer learning routing (HTLR) for dynamic searching and reconnoitering applications to address this problem… Show more

“…These protocols cannot make effective communications in FANETs and must be improved to obtain good performance in these networks because they ignore the specific features of FANET such as the high dynamic topology, highly mobile nodes, and limited energy resources. Hence, it is very challenging to develop a routing protocol that provides reliable communication in FANETs [13][14][15].…”

“…⃗ V max is the maximum relative velocity of one-hop neighbors in N is known as an unstable node, and vice versa. θ ip is calculated based on Equation (14).…”

A Novel Optimized Link-State Routing Scheme with Greedy and Perimeter Forwarding Capability in Flying Ad Hoc Networks

“…These protocols cannot make effective communications in FANETs and must be improved to obtain good performance in these networks because they ignore the specific features of FANET such as the high dynamic topology, highly mobile nodes, and limited energy resources. Hence, it is very challenging to develop a routing protocol that provides reliable communication in FANETs [13][14][15].…”

“…⃗ V max is the maximum relative velocity of one-hop neighbors in N is known as an unstable node, and vice versa. θ ip is calculated based on Equation (14).…”

A Novel Optimized Link-State Routing Scheme with Greedy and Perimeter Forwarding Capability in Flying Ad Hoc Networks