Ad Hoc Networks Final Year Projects with Source Code
Ad Hoc Networks Final Year Projects for BE, BTech, ME, MSc, MCA and MTech final year engineering students. These Ad Hoc Networks projects give practical experience and help complete final-year submissions. All projects follow IEEE standards and each project includes source code, project thesis report, presentation, project execution and explanation.
Ad Hoc Networks Final Year Projects
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Event Detection Through Differential Pattern Mining in Cyber-Physical Systems
This project focuses on finding important events in sensor networks, like detecting damage in buildings or vehicles. It creates a system called DPminer that analyzes sensor data efficiently. The system looks for meaningful patterns across sensors while using less communication and computation. Tests show it detects events better than traditional methods. -
A Cross-Layer Solution for Contention Control to Enhance TCP Performance in Wireless Ad-Hoc Networks
This project focuses on improving data transmission in wireless ad-hoc networks, which are used in IoT, vehicle networks, and sensor networks. It introduces a method called CSCC that helps control network congestion by adjusting how many packets are sent. The system ensures fair sharing of the network among users and reduces packet loss. Simulations show that CSCC performs better than traditional TCP methods in speed, fairness, and reliability. -
A New Unsupervised Validation Index Model Suitable for Energy-Efficient Clustering Techniques in VANET
This project focuses on improving how clusters in data are evaluated. It introduces a new method called M2I that measures both how similar nodes are within a cluster and how separate clusters are from each other. This method works better than existing techniques, especially in dynamic networks like VANETs. Tests show that M2I gives very accurate results in both simulated and real-world data. -
An Anonymous Authentication With Received Signal Strength Based Pseudonymous Identities Generation for VANETs
This project focuses on allowing mobile users to securely verify their identity without revealing personal information. It creates temporary pseudonymous identities that are unique and can be revoked if needed. The system generates shared secret keys using signal strength and ensures fast and reliable authentication, even when users move at different speeds or network traffic varies. Tests show the method is accurate, efficient, and practical for real-world mobile networks. -
Link Characterization and Edge-Centric Predictive Modeling in an Ocean Network
This project focuses on improving internet communication for fishing vessels at sea. It studies how weather, waves, and antenna movement affect wireless signals. The researchers use a combination of past and real-time data to predict signal strength using a smart learning system. This helps make sea communication more reliable and efficient. -
Methodology and Performance Assessment of Three-Dimensional Vehicular Ad-Hoc Network Simulation
This project improves how we simulate communication between moving vehicles in cities. It adds realistic 3D factors, such as buildings and multi-floor environments, to make simulations closer to real traffic conditions. The authors show that 3D simulations can give very different results compared to basic 2D ones. They also propose methods to speed up the simulations so they run efficiently. -
Optimized MAC Protocol Using Fuzzy-Based Framework for Cognitive Radio AdHoc Networks
This project focuses on improving cognitive radio ad hoc networks, which help share limited radio spectrum efficiently. It uses a fuzzy-based system to adjust network settings like packet length and contention window. By doing this, the network can send data faster and reduce delays. The results show significant improvement in both speed and response time compared to traditional methods.
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Ad Hoc Networks Project Synopsis & Presentation
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