RSS-Based Route Selection Scheme for Improved Packet Delivery Ratio in MANETs
Problem Definition
Problem Description: The current route selection schemes in MANETs focusing on RSS-based calculations fail to consider the mobility of nodes. This can lead to unreliable route selections, decreased packet delivery ratio, and potential network congestion. As a result, there is a need for a new approach that incorporates both RSS variations and node mobility to ensure a reliable and efficient route selection in MANETs.
Proposed Work
The research work proposed in this study is titled "A Reliable Route Selection Scheme Based on Caution Zone and Nodes' Arrival Angle." The project aims to enhance the reliability of packet delivery in Mobile Ad hoc Networks (MANETs) through the use of a novel RSS-based route selection scheme. By calculating the node's arrival angle based on RSS variations, the proposed approach determines the route lifetime and incorporates the proximity of neighbor nodes into the decision-making process. Unlike existing methods, the results obtained through RSS factors in the mobility of nodes, thereby improving the overall performance of the network. This project falls under the categories of NS2 Based Thesis | Projects and Wireless Research Based Projects, focusing on subcategories such as Mobile Computing Thesis, Routing Protocols Based Projects, and Wireless security.
The software used for this research includes NS2.
Application Area for Industry
The proposed project's reliable route selection scheme based on caution zone and nodes' arrival angle can find applications in various industrial sectors, especially those that rely heavily on mobile communication networks. Industries such as transportation and logistics, where vehicle-to-vehicle communication is essential for efficient routing and navigation, can benefit from the improved packet delivery and reduced network congestion offered by this new approach. In the healthcare sector, where mobile devices are used for patient monitoring and data transmission, a more reliable route selection scheme can ensure timely and accurate information exchange. Additionally, in emergency response and disaster recovery scenarios, where quick and reliable communication is crucial, this project's solutions can help in establishing efficient communication networks. Overall, by addressing the challenges of unreliable route selections and network congestion, this project can enhance the performance and reliability of mobile ad hoc networks in a variety of industrial domains, leading to improved operational efficiency and better communication systems.
Application Area for Academics
MTech and PhD students can utilize the proposed project in their research by exploring innovative methods for enhancing route selection in Mobile Ad hoc Networks (MANETs). By incorporating both RSS variations and node mobility into the route selection scheme, researchers can analyze the impact on packet delivery ratio, network congestion, and overall network performance. This project provides a new approach that considers the node's arrival angle and proximity of neighbor nodes, leading to more reliable and efficient route selections. MTech and PhD scholars focusing on Mobile Computing Thesis, Routing Protocols Based Projects, and Wireless security can use the code and literature of this project for their dissertation, thesis, or research papers. The use of NS2 software for simulations allows for in-depth data analysis and evaluation of the proposed route selection scheme.
By leveraging this project, researchers can explore new avenues for improving the reliability and performance of MANETs, while also contributing to advancements in wireless communication technology. The future scope of this project includes further optimization of route selection algorithms, integration of machine learning techniques for predictive analysis, and evaluating the scheme's scalability in larger network deployments.
Keywords
Keywords: - MANETs - Mobile Ad hoc Networks - Route Selection Scheme - RSS-based calculations - Node Mobility - Packet Delivery Ratio - Network Congestion - Reliable Route Selection - Caution Zone - Nodes' Arrival Angle - Route Lifetime - Neighbor Nodes - RSS Variations - Node Mobility - Performance Improvement - NS2 Based Thesis - Wireless Research Based Projects - Mobile Computing Thesis - Routing Protocols Based Projects - Wireless Security - NS2 Software
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