The proposed Internet paradigm The Flying Ad Hoc Network (FANET), Named Data Network (NDN), and Software Defined Network (SDN) have attracted the interest of the scientific community. The TCP/IP protocol is the present Internet standard, while NDN is the future internet architecture that builds on it. Data availability is improved via NDN, which substitutes named data for the nodes' addresses. SDN is a good option for communicating effectively, utilizing resources effectively, and supporting developing technologies. The SDN has attracted interest because of its high-level programmability and flexibility. Numerous applications in the military, business, and civil sectors make extensive use of FANE T. The broadcast characteristic of NDN causes an issue known as a broadcast storm in dense FANET environments. The issue is caused by duplicate packets, which raises the overall amount of traffic and retransmissions. FANET has a problem with the timely and quick transmission of essential packets. In this paper, we suggested a new scheme named “Novel Adaptive Broadcast Storm Avoidance (NABA)” for SDN and NDN-enabled FANET, which uses a controller to lessen the broadcast issue. Our scheme made use of the SDN controller's effective flow management to regulate the broadcast storm and facilitate packet transfers. Additionally, we divided up the packet into categories based on priority. The priority of the packet is determined by the naming criterion. In terms of the overall number of Interests and content retrieval time, the findings show that NAB A performs better than native NDN floods.