Flying Ad-Hoc Networks Research Topics

Flying Ad-Hoc Network research topics is the research topic here discussed in this paper. It is a kind of wireless communication network which is developed for vehicles to interact with each other in a distinct manner. Then below we provide the details about our proposed technology.

1. Define Flying Ad-Hoc Networks

At the initial stage we first see the definition for our proposed technology FANET. It is an independent network of unmanned aerial vehicle (UAVs) which interact with everyone to achieve the combined works not with the requirement for any stable framework.

2. What is Flying Ad-Hoc Networks?

After the definition we look for the detailed description for FANETs technology. To perform some general goals like data collection or surveillance, not to depend on any previous frameworks, by the assistance of automated networks of UAVs which can interact with everyone.

3. Where Flying Ad-Hoc Networks used?

Next we converse about where to utilize the FANET technology; it is employed in different conditions like military operations, agricultural management, disaster response, entertainment events and environmental monitoring, for the uses of data gathering, surveillance, coordination and communication delay.

4. Why Flying Ad-Hoc Networks technology proposed? , previous technology issues

In this research, the conditions when conventional infrastructure-based networks are impossible or absent, the ideas of FANETs is brought out to face the need for communication capabilities and adaptable and mobile networking. Due to their scalability, robustness and adjustability, FANETs are the best fit for different applications, like surveillance, military operations, remote sensing and disaster relief.

5. Algorithms / protocols

We propose a FANET technique in this research and this overcomes some of the previous technology issues. Here we offer some algorithms or protocols for FANETs technologies: Mobility patterns, Multi –hop communication and Distance vector routing algorithm.

6. Comparative study / Analysis

For the comparative analysis section we have to compare the different methods or techniques to be utilized for this research. Some of the methods to be compared are as follows:

• Identify the impacts of different mobility models like waypoint-based and random on the routing efficiency, connectedness of the FANET and coverage.
• Recognize the policies and a law governs the functions and installation of FANETs in different regions, by considering the things such as availability of spectrum, privacy issues and airspace restrictions.
• Examine the security and the vulnerability of different FANET protocols against the denial-of- service attacks, eavesdropping and manipulation.

7. Simulation results / Parameters

Now our proposed technology is compared with various performance metrics or parameters to get the appropriate findings. The metrics that we compared are Packet-delivery ratio, Energy Consumption, End-to-End delay, and Throughput.

8. Dataset LINKS / Important URL

Succeeding the methods to be compared with various performance metrics, now we see the links that are provided to go through the process, applications or other relevant details related to this proposed research.

• https://ieeexplore.ieee.org/abstract/document/9576126/
• https://www.mdpi.com/2079-9292/9/4/543
• https://ieeexplore.ieee.org/abstract/document/9382025/
• https://ieeexplore.ieee.org/abstract/document/9932013/

9. Flying Ad-Hoc Networks Applications

Let’s see the applications to be employed in this proposed research FANET technology. The applications utilized are Delivery services, Security and Surveillance, Scientific Research, Disaster Response and Search & Rescue, Event Coverage and Entertainment, Precision Agriculture, Communication Relay, Environmental monitoring and Traffic Management.

10. Topology for Flying Ad-Hoc Networks

Now we see the topology to be employed for this proposed research FANET technology. The topologies that we used are Hierarchical Topology, Hybrid Topology, Mesh Topology, Cluster-Based Topology, Star Topology and Dynamic Topology.

11. Environment in Flying Ad-Hoc Networks

Environment that is utilized by our proposed research FANET is as follows. Maritime Environments, Rural and Remote Areas, Natural Reserves and Conservation Areas, Event Venues, Urban Areas, Agricultural Fields, Disaster Zones and Military Operations are the environments that were used for FANET technique.

12. Simulation tools

In this we utilize the succeeding software requirements to be implemented for this proposed technology FANET. Our proposed technique is simulated by using the tool NS 3.26-32 bit. Then the proposed technique can be executed by using the operating system Ubuntu 16.04.

13. Results

The proposed Flying Ad-Hoc Network technique is broadly used in many applications and it has been employed in different regions. We also utilize this to obtain clear findings by comparing the methods or metrics to get the best result. Then this work is executed by incorporating the operating system Ubuntu 16.04.

Flying Ad-Hoc Networks Research Ideas:

The following are the research topics that are relevant to our proposed technique FANETs. These topics give assistance to us, when we go through the FANET related concepts, techniques, applications or any other information related to this proposed technology.

1. Flying Ad Hoc Network (FANET): Opportunities, Trending Applications and Simulators
2. Design of Network Rejoin Policy in Multi-UAVs Flying Ad-hoc Network and Robust Tracking Control Scheme
3. On the Application of Blockchain technology for securing Flying Ad-Hoc Networks (FANET)
4. Empirical Analysis of Packet-loss and Content Modification based detection to secure Flying Ad-hoc Networks (FANETs)
5. An Energy-Aware and Predictive Fuzzy Logic-Based Routing Scheme in Flying Ad Hoc Networks (FANETs)
6. Design of Path Tracking Control and Flying Ad-hoc Network Rejoin Policy in Multi-UAV System
7. A Bibliometric Analysis to Detect the Research Status in Flying Ad-Hoc Networks
8. Design of Network Rejoin Policy in Multi-UAVs Flying Ad-hoc Network using Finite Time Convergent Position Control Scheme
9. A Novel Adaptive Backoff Algorithm Based on Active Nodesfor Flying Ad Hoc Networks
10. Elastic Routing Mechanism for Flying Ad Hoc Network
11. An Optimization Method of Dynamic Source Routing Protocol in Flying Ad Hoc Network
12. Energy Efficient Bio-Inspired Clustering in Flying Ad-Hoc Network
13. Cluster-Based Routing Protocols for Flying Ad Hoc Networks (FANETs)
14. 3D Location Oriented Routing in Flying Ad-Hoc Networks for Information Dissemination
15. Swarm of Drones Using LoRa Flying Ad-Hoc Network
16. Medium Access Control Protocols for Flying Ad Hoc Networks: A Review
17. A Hop-count and Neighbor-count based Routing Protocol for Flying Ad-hoc Networks
18. Tailoring Routing Protocols for Flying Ad Hoc Networks: Challenges and Possible Countermeasures
19. Controller Failure Recovery Strategy for Software Defined Flying Ad-hoc Network Based on Latency and Node State
20. Detection of Malicious Nodes in Flying Ad-hoc Network with Supervised Machine Learning
21. Intent-Driven QoS-Aware Routing Management for Flying Ad hoc Networks
22. An Efficient and Secure Certificate-Based Access Control and Key Agreement Scheme for Flying Ad-Hoc Networks
23. New Geographical Routing Protocol for Three-Dimensional Flying Ad-Hoc Network Based on New Effective Transmission Range
24. A Stochastic Packet Forwarding Algorithm in Flying Ad Hoc Networks: Design, Analysis, and Evaluation
25. Distributed Channel Access in Flying Ad Hoc Network: A Potential Game Perspective
26. Path Loss Modeling for Flying Ad-Hoc Networks:An Ensemble Learning Approach
27. Multi-Source Markovian Model for Video Streaming in Flying Ad hoc Networks
28. Optimizing Routing Performance in Flying Ad hoc Networks using an Adaptive Hello Interval Scheme
29. A Brief Review on Position-based Routing Protocols in Flying Ad-hoc Networks
30. A Q-Learning-Based Topology-Aware Routing Protocol for Flying Ad Hoc Networks
31. A Position-Based Modified OLSR Routing Protocol for Flying Ad Hoc Networks
32. A Study on the Flying Ad-hoc Networks: Related Challenges, Routing Protocols and Mobility Models
33. Study on Proactive and Reactive Routing Approaches for Flying Ad-hoc Networks
34. Investigative Study on Routing Protocols in Flying Ad Hoc Networks Environment
35. Clustering-Based Energy Efficient Routing for Flying Ad Hoc Networks
36. Direction-Aware Greedy Routing Protocol with Recovery Mechanism (DAGR-R) For Flying Ad-Hoc Networks
37. Software-Defined Networking for Flying Ad-hoc Network Security: A Survey
38. Design and Implementation of Physical Layer Synchronization Technology in Flying Ad-Hoc Network
39. Blockchain-Based Key Management for Heterogeneous Flying Ad Hoc Network
40. A cluster unmanned Flying Ad hoc Network
41. On Detecting GPS Spoofing Attack in Flying Ad-hoc Networks: A Comparative Study
42. A Novel Mobility and Connectivity Aware Stable Clustering Approach for Effective Communication in Flying Ad-Hoc Network
43. On connectivity of flying ad hoc networks in the presence of ground terminal
44. A Hybrid Routing Algorithm based on Destruction Resistance Cost and Reliability in Flying Ad-Hoc Networks
45. MAD for FANETs: Movement Assisted Delivery for Flying Ad-hoc Networks
46. Beam Aware Stochastic Multihop Routing for Flying Ad-hoc Networks
47. An Improved Identity-Based Generalized Signcryption Scheme for Secure Multi-Access Edge Computing Empowered Flying Ad Hoc Networks
48. An Efficient and Privacy-Preserving Federated Learning Scheme for Flying Ad Hoc Networks
49. Adaptive Routing Design for Flying Ad Hoc Networks
50. Unlocking the Power of Reinforcement Learning: Investigating Optimal Q-Learning Parameters for Routing in Flying Ad Hoc Networks