NS2 Final Year IEEE Projects
NS2 (Network Simulator 2) is an open-source simulation tool that is widely used for research and education in the field of computer networks. It allows users to simulate various network protocols and evaluate their performance in different scenarios. Final year projects using NS2 provide students with an opportunity to apply their theoretical knowledge to real-world problems and gain hands-on experience in network simulation. These projects typically involve the design, implementation, and evaluation of a specific network protocol or application using NS2.
WSN (Wireless Sensor Networks) Projects in NS2
Explore the forefront of wireless technology with our WSN (Wireless Sensor Networks) Projects in NS2. At JP INFOTECH, we offer a comprehensive range of cutting-edge projects in the field of WSN, all meticulously developed using the NS2 platform. Our projects empower students and researchers to delve into the exciting world of wireless sensor networks, addressing real-world challenges and leveraging the power of NS2 for simulation and analysis. With our expert readymade project and innovative project ideas, you can embark on a journey of research and innovation that will set you on the path to academic excellence and a successful career in the realm of wireless technology.”
Sl. No. | Project Code | NS2 Project Title | Output Video | Domain | Simulation Tool | Cost (in Indian Rupees) |
1 | JPN1928 | Energy Efficient Routing Algorithm with Mobile Sink Support for Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
2 | JPN1930 | A Low-Latency Communication Scheme for Mobile Wireless Sensor Control Systems | Link | WSN | NS2 | Rs.3000/ |
3 | JPN1830 | Location Verification Assisted by a Moving Obstacle for Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
4 | JPN1710 | A Self-Adaptive Sleep/Wake-Up Scheduling Approach for Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
5 | JPN1711 | E2HRC: An Energy-Efficient Heterogeneous Ring Clustering Routing Protocol for Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
6 | JPN1712 | Energy Efficient Clustering Algorithm for Multi-Hop Wireless Sensor Network Using Type-2 Fuzzy Logic | Link | WSN | NS2 | Rs.3000/ |
7 | JPN1721 | SEND: A Situation-Aware Emergency Navigation Algorithm with Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
8 | JPN1724 | A Novel Authentication and Key Agreement Scheme for Implantable Medical Devices Deployment | Link | WSN | NS2 | Rs.3000/ |
9 | JPN1725 | A Secure and Efficient ID-Based Aggregate Signature Scheme for Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
10 | JPN1727 | Lightweight Three-factor Authentication and Key Agreement Protocol for Internet-integrated Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
11 | JPN1731 | ROSE: Robustness Strategy for Scale-Free Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
12 | JPN1755 | A Cooperative Clustering Protocol With Duty Cycling for Energy Harvesting Enabled Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
13 | JPN1756 | An Improved Routing Algorithm Based on Ant Colony Optimization in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
14 | JPN1609 | A Kautz-Based Wireless Sensor and Actuator Network for Real-Time, Fault-Tolerant and Energy-Efficient Transmission | Link | WSN | NS2 | Rs.3000/ |
15 | JPN1611 | Cluster-Based Routing for the Mobile Sink in Wireless Sensor Networks With Obstacles | Link | WSN | NS2 | Rs.3000/ |
16 | JPN1613 | DaGCM: A Concurrent Data Uploading Framework for Mobile Data Gathering in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
17 | JPN1615 | Distributed Emergency Guiding with Evacuation Time Optimization Based on Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
18 | JPN1617 | Fair Routing for Overlapped Cooperative Heterogeneous Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
19 | JPN1618 | Geographic and Opportunistic Routing for Underwater Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
20 | JPN1619 | iPath: Path Inference in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
21 | JPN1624 | Mobile Coordinated Wireless Sensor Network: An Energy Efficient Scheme for Real-Time Transmissions | Link | WSN | NS2 | Rs.3000/ |
22 | JPN1626 | Privacy-Preserving Data Aggregation in Mobile Phone Sensing | Link | WSN | NS2 | Rs.3000/ |
23 | JPN1629 | DTMAC: A Delay Tolerant MAC Protocol for Underwater Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
24 | JPN1631 | ActiveTrust: Secure and Trustable Routing in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
25 | JPN1632 | Adaptive and Channel-Aware Detection of Selective Forwarding Attacks in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
26 | JPN1634 | Energy and Memory Efficient Clone Detection in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
27 | JPN1636 | Reliable and Efficient Data Acquisition in Wireless Sensor Networks in the Presence of Transfaulty Nodes | Link | WSN | NS2 | Rs.3000/ |
28 | JPN1668 | Detecting Node Failures in Mobile Wireless Networks: A Probabilistic Approach | Link | WSN | NS2 | Rs.3000/ |
29 | JPN1676 | ESync: Energy Synchronized Mobile Charging in Rechargeable Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
30 | JPN1677 | On the Construction of Data Aggregation Tree with Minimum Energy Cost in Wireless Sensor Networks: NP-Completeness and Approximation Algorithms | Link | WSN | NS2 | Rs.3000/ |
31 | JPN1501 | A Historical-Beacon-Aided Localization Algorithm for Mobile Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
32 | JPN1512 | A Virtual Coordinate-Based Bypassing Void Routing for WSN | Link | WSN | NS2 | Rs.3000/ |
33 | JPN1514 | An Energy Efficient Cross-Layer Network Operation Model for IEEE 802.15.4-Based Mobile WSN | Link | WSN | NS2 | Rs.3000/ |
34 | JPN1515 | Cost-Aware SEcure Routing (CASER) Protocol Design for WSN | Link | WSN | NS2 | Rs.3000/ |
35 | JPN1517 | Geographic Routing in Clustered WSN Among Obstacles | Link | WSN | NS2 | Rs.3000/ |
36 | JPN1520 | Joint Virtual MIMO and Data Gathering for WSN | Link | WSN | NS2 | Rs.3000/ |
37 | JPN1521 | Mobile Data Gathering with Load Balanced Clustering and Dual Data Uploading in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
38 | JPN1523 | PWDGR: Pair-Wise Directional Geographical Routing Based on Wireless Sensor Network | Link | WSN | NS2 | Rs.3000/ |
39 | JPN1526 | A Lightweight Secure Scheme for Detecting Provenance Forgery and Packet Drop Attacks in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
40 | JPN1527 | A Secure Scheme Against Power Exhausting Attacks in Hierarchical Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
41 | JPN1528 | An Efficient Distributed Trust Model for Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
42 | JPN1529 | An Encryption Scheme Using Chaotic Map and Genetic Operations for Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
43 | JPN1530 | Effective Key Management in Dynamic Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
44 | JPN1531 | Secure and Distributed Data Discovery and Dissemination in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
45 | JPN1541 | Secure Data Aggregation Technique for Wireless Sensor Networks in the Presence of Collusion Attacks | Link | WSN | NS2 | Rs.3000/ |
46 | JPN1543 | E2R2 Energy-Efficient and Reliable Routing for Mobile Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
47 | JPN1407 | ALBA-R Load-Balancing Geographic Routing Around Connectivity Holes in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
48 | JPN1408 | Hop-by-Hop Message Authentication and Source Privacy in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
49 | JPN1410 | Secure and Efficient Data Transmission for Cluster-Based Wireless sensor Networks | Link | WSN | NS2 | Rs.3000/ |
50 | JPN1412 | Transmission-Efficient Clustering Method for Wireless sensor networks using Compressive Sensing | Link | WSN | NS2 | Rs.3000/ |
51 | JPN1413 | An Energy-Balanced Routing Method Based on Forward-Aware Factor for Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
52 | JPN1415 | R3E Reliable Reactive Routing Enhancement for Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
53 | JPN1428 | Secure Data Aggregation in Wireless Sensor Networks: Filtering out the Attacker’s Impact | Link | WSN | NS2 | Rs.3000/ |
54 | JPN1316 | Target Tracking and Mobile Sensor Navigation in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
55 | JPN1317 | Toward a Statistical Framework for Source Anonymity in Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
56 | JPN1318 | Mobile Relay Configuration in Data-Intensive Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
57 | JPN1323 | On the Node Clone Detection in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
58 | JPN1325 | A Highly Scalable Key Pre-Distribution Scheme for Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
59 | JPN1202 | A Trigger Identification Service for Defending Reactive Jammers in WSN | Link | WSN | NS2 | Rs.3000/ |
60 | JPN1229 | Secure Data Aggregation in Wireless Sensor Networks | Link | WSN | NS2 | Rs.3000/ |
MANET (Mobile Ad-hoc Networks) Projects in NS2
Discover the dynamic world of Mobile Ad-hoc Networks (MANET) through our specialized projects in NS2. At JP INFOTECH, we provide a wide range of innovative projects tailored to MANET, all meticulously crafted using the NS2 platform. Our projects enable students and researchers to explore the complexities of mobile ad-hoc networks, addressing real-world challenges and harnessing the power of NS2 for simulation and analysis. With our unique project ideas, you can embark on a journey of research and innovation, paving the way for academic excellence and a promising career in the realm of wireless communication. The Projects contains both MANET based Routing and MANET based Security concepts.
Sl. No. | Project Code | NS2 Project Title | Output Video | Domain | Simulation Tool | Cost (In Indian Rupees) |
1 | JPN1803 | M-LionWhale: multi-objective optimization model for secure routing in mobile ad-hoc network | Link | MANET | NS2 | Rs.3000/ |
2 | JPN1831 | Reputation and Trust Based Selfish Node Detection System in MANETs | Link | MANET | NS2 | Rs.3000/ |
3 | JPN1701 | A Delay-Sensitive Multicast Protocol for Network Capacity Enhancement in Multirate MANETs | Link | MANET | NS2 | Rs.3000/ |
4 | JPN1703 | Contradiction Based Gray-Hole Attack Minimization for Ad-Hoc Networks | Link | MANET | NS2 | Rs.3000/ |
5 | JPN1705 | Energy Efficient Multipath Routing Protocol for Mobile ad-hoc Network Using the Fitness Function | Link | MANET | NS2 | Rs.3000/ |
6 | JPN1707 | SUPERMAN: Security Using Pre-Existing Routing for Mobile Ad hoc Networks | Link | MANET | NS2 | Rs.3000/ |
7 | JPN1601 | A Novel Approach for Efficient Usage of Intrusion Detection System in Mobile Ad Hoc Networks | Link | MANET | NS2 | Rs.3000/ |
8 | JPN1605 | Mitigating Denial of Service Attacks in OLSR Protocol Using Fictitious Nodes | Link | MANET | NS2 | Rs.3000/ |
9 | JPN1607 | Top-k Query Processing and Malicious Node Identification Based on Node Grouping in MANETs | Link | MANET | NS2 | Rs.3000/ |
10 | JPN1608 | Resisting Blackhole Attacks on MANETs | Link | MANET | NS2 | Rs.3000/ |
11 | JPN1502 | CoCoWa: A Collaborative Contact-Based Watchdog for Detecting Selfish Nodes | Link | MANET | NS2 | Rs.3000/ |
12 | JPN1503 | Cooperative Load Balancing and Dynamic Channel Allocation for Cluster-Based Mobile Ad Hoc Networks | Link | MANET | NS2 | Rs.3000/ |
13 | JPN1504 | Defending Against Collaborative Attacks by Malicious Nodes in MANETs: A Cooperative Bait Detection Approach | Link | MANET | NS2 | Rs.3000/ |
14 | JPN1510 | Privacy-Preserving and Truthful Detection of Packet Dropping Attacks in Wireless Ad Hoc Networks | Link | MANET | NS2 | Rs.3000/ |
15 | JPN1539 | Passive IP Traceback: Disclosing the Locations of IP Spoofers from Path Backscatter | Link | MANET | NS2 | Rs.3000/ |
16 | JPN1540 | Time-Delayed Broadcasting for Defeating Inside Jammers | Link | MANET | NS2 | Rs.3000/ |
17 | JPN1417 | AASR Authenticated Anonymous Secure Routing Protocol for MANETs in Adversarial Environment | Link | MANET | NS2 | Rs.3000/ |
18 | JPN1418 | PSR A Lightweight Proactive Source Routing Protocol for Mobile Ad Hoc Networks | Link | MANET | NS2 | Rs.3000/ |
19 | JPN1423 | STARS A Statistical Traffic Pattern Discovery System for MANETs | Link | MANET | NS2 | Rs.3000/ |
20 | JPN1429 | A Model Approach to the Estimation of Peer-to-Peer Traffic Matrices | Link | MANET | NS2 | Rs.3000/ |
21 | JPN1301 | A Rank Correlation Based Detection against Distributed Reflection DoS Attacks | Link | MANET | NS2 | Rs.3000/ |
22 | JPN1302 | Adaptive Position Update for Geographic Routing in Mobile Ad Hoc Networks | Link | MANET | NS2 | Rs.3000/ |
23 | JPN1303 | ALERT: An Anonymous Location-Based Efficient Routing Protocol in MANETs | Link | MANET | NS2 | Rs.3000/ |
24 | JPN1308 | Discovery and Verification of Neighbor Positions in Mobile Ad Hoc Networks | Link | MANET | NS2 | Rs.3000/ |
25 | JPN1310 | EAACK—A Secure Intrusion-Detection System for MANETs | Link | MANET | NS2 | Rs.3000/ |
26 | JPN1311 | Efficient Algorithms for Neighbor Discovery in Wireless Networks | Link | MANET | NS2 | Rs.3000/ |
27 | JPN1312 | Enhanced OLSR for Defense against DOS Attack in Ad Hoc Networks | Link | MANET | NS2 | Rs.3000/ |
28 | JPN1313 | Opportunistic MANETs: Mobility Can Make Up for Low Transmission Power | Link | MANET | NS2 | Rs.3000/ |
29 | JPN1321 | Vampire Attacks: Draining Life from Wireless Ad Hoc Sensor Networks | Link | MANET | NS2 | Rs.3000/ |
30 | JPN1322 | Detection and Localization of Multiple Spoofing Attackers | Link | MANET | NS2 | Rs.3000/ |
31 | JPN1328 | Performance Evaluation of Ad Hoc Routing Protocols Using NS2 Simulation | Link | MANET | NS2 | Rs.3000/ |
VANET (Vehicular Ad Hoc Networks) Projects in NS2
With the help of our specialist VANET (Vehicular Ad Hoc Networks) Projects in NS2, discover the world of cutting-edge technology. JP INFOTECH provides a wide array of cutting-edge projects designed for VANET that are painstakingly developed with the NS2 platform. With the help of our initiatives, researchers and students can explore the dynamic realm of vehicular ad hoc networks, solve practical problems, and harness the potential of NS2 for analysis and simulation. You can embark on a journey of research and innovation with our professional advice and innovative project ideas, laying the foundation for academic achievement and a bright future in the field of wireless communication.
Sl. No. | Project Code | NS2 Project Title | Output Video | Domain | Simulation Tool | Cost (In Indian Rupees) |
1 | JPN1739 | MoZo: A Moving Zone Based Routing Protocol Using Pure V2V Communication in VANETs | Link | VANET | NS2 | Rs.3000/ |
2 | JPN1744 | Enhancing Security and Privacy for Identity-based Batch Verification Scheme in VANET | Link | VANET | NS2 | Rs.3000/ |
3 | JPN1746 | REPLACE: A Reliable Trust-based Platoon Service Recommendation Scheme in VANET | Link | VANET | NS2 | Rs.3000/ |
4 | JPN1754 | Safety-aware Location Privacy in VANET: Evaluation and Comparison | Link | VANET | NS2 | Rs.3000/ |
5 | JPN1640 | ART: An Attack-Resistant Trust Management Scheme for Securing Vehicular Ad Hoc Networks | Link | VANET | NS2 | Rs.3000/ |
6 | JPN1644 | Dual Authentication and Key Management Techniques for Secure Data Transmission in Vehicular Ad Hoc Networks | Link | VANET | NS2 | Rs.3000/ |
7 | JPN1645 | LORA: Loss Differentiation Rate Adaptation Scheme for Vehicle-to-Vehicle Safety Communications | Link | VANET | NS2 | Rs.3000/ |
8 | JPN1646 | SCRP: Stable CDS-Based Routing Protocol for Urban Vehicular Ad Hoc Networks | Link | VANET | NS2 | Rs.3000/ |
9 | JPN1647 | Secure and Robust Multi-Constrained QoS Aware Routing Algorithm for VANETs | Link | VANET | NS2 | Rs.3000/ |
10 | JPN1673 | A Multi-Hop Broadcast Protocol for Emergency Message Dissemination in Urban VANET | Link | VANET | NS2 | Rs.3000/ |
11 | JPN1740 | Trustworthiness Evaluation-based Routing Protocol for Incompletely Predictable Vehicular Ad hoc Networks | Link | VANET | NS2 | Rs.3000/ |
12 | JPN1688 | Traffic Congestion Detection and Broadcasting by Using AODV in VANET | Link | VANET | NS2 | Rs.3000/ |
13 | JPN1534 | ACPN: A Novel Authentication Framework with Conditional Privacy-Preservation and Non-Repudiation for VANETs | Link | VANET | NS2 | Rs.3000/ |
14 | JPN1535 | BUS-VANET: A BUS Vehicular Network Integrated with Traffic Infrastructure | Link | VANET | NS2 | Rs.3000/ |
15 | JPN1537 | VANET Modeling and Clustering Design Under Practical Traffic, Channel and Mobility Conditions | Link | VANET | NS2 | Rs.3000/ |
16 | JPN1234 | We Can Deliver Messages to Far Vehicles | Link | VANET | NS2 | Rs.3000/ |
17 | JPN1734 | Adaptive Quality of Service based Routing for Vehicular Ad hoc Networks with Ant Colony Optimization | Link | VANET | NS2 | Rs.3000/ |
18 | JPN1736 | DIVERT: A Distributed Vehicular Traffic Re-routing System for Congestion Avoidance | Link | VANET | NS2 | Rs.3000/ |
19 | JPN1306 | BAHG: Back-Bone-Assisted Hop Greedy Routing for VANET’s City Environments | Link | VANET | NS2 | Rs.3000/ |
Other Projects in NS2
At JP INFOTECH, we bring you a comprehensive array of NS2 Projects, designed to fuel your passion for networking and simulation. Our projects leverage the powerful NS2 platform, enabling students, researchers, and technology enthusiasts to explore the dynamic world of network simulation. Whether you’re interested in wireless communication, ad hoc networks, WSN, our NS2 projects offer hands-on experience, expert guidance, and innovative solutions. Join us to embark on a journey of research and innovation, advancing your academic and professional aspirations in the field of network simulation.
Sl. No. | Project Code | NS2 Project Title | Output Video | Domain | Simulation Tool | Cost (In Indian Rupees) |
1 | JPN1603 | Detecting Colluding Blackhole and Greyhole Attacks in Delay Tolerant Networks | Link | Networks | NS2 | Rs.3000/ |
2 | JPN1648 | A Hop-by-Hop Routing Mechanism for Green Internet | Link | Networks | NS2 | Rs.3000/ |
3 | JPN1655 | Dynamic Network Control for Confidential Multi-Hop Communications | Link | Networks | NS2 | Rs.3000/ |
4 | JPN1665 | Security Analysis and Improvements on Two Homomorphic Authentication Schemes for Network Coding | Link | Networks | NS2 | Rs.3000/ |
5 | JPN1544 | Wormhole Attack Detection Algorithms in Wireless Network Coding Systems | Link | Networks | NS2 | Rs.3000/ |
6 | JPN1401 | A QoS-Oriented Distributed Routing Protocol for Hybrid Wireless Networks | Link | Networks | NS2 | Rs.3000/ |
7 | JPN1403 | Autonomous Mobile Mesh Networks | Link | Networks | NS2 | Rs.3000/ |
8 | JPN1409 | Neighbor Table Based Shortcut Tree Routing in ZigBee Wireless Networks | Link | Networks | NS2 | Rs.3000/ |
9 | JPN1427 | Secure Data Retrieval for Decentralized Disruption-Tolerant Military Networks | Link | Networks | NS2 | Rs.3000/ |
10 | JPN1309 | Distributed Cooperative Caching in Social Wireless Networks | Link | Networks | NS2 | Rs.3000/ |
11 | JPN1320 | A Distributed Control Law for Load Balancing in Content Delivery Networks | Link | Networks | NS2 | Rs.3000/ |
12 | JPN1324 | Resource Allocation for QoS Support in Wireless Mesh Networks | Link | Networks | NS2 | Rs.3000/ |
Why NS2:
NS2 (Network Simulator 2) is a popular tool for simulating computer networks because it allows users to model and evaluate the performance of various network protocols and applications in a controlled and repeatable environment. Some of the key features and benefits of using NS2 include:
Open-source and freely available:
NS2 is an open-source tool, which means that users can access the source code, modify it, and distribute it without incurring any additional costs.
Extensibility:
NS2 is written in C++ and TCL (Tool Command Language), which allows users to easily create new protocols and applications by writing their own code in these languages.
Large community of users and developers:
NS2 has a large and active community of users and developers who contribute to the development of the tool and provide support to other users.
Support for various network types:
NS2 can simulate various types of networks, including wired and wireless networks, mobile networks, and ad-hoc networks, which makes it a versatile tool for research and education in the field of computer networks.
Large library of existing protocols:
NS2 includes a large library of existing network protocols, such as TCP, UDP, and IP, which can be used as building blocks for creating new protocols or testing existing ones.
Ability to generate detailed trace and statistics:
NS2 can generate detailed trace and statistics of the simulated network, which allows users to analyze the performance of different protocols and applications and identify bottlenecks or issues.
Network Simulator 2 (NS2) projects with Source Code:
Network Simulator 2 (NS2) is a powerful open-source tool that is widely used for research and education in the field of computer networks. It allows users to simulate various network protocols and evaluate their performance in different scenarios. In JP INFOTECH, we provide readymade Final year IEEE Projects in NS2 with complete source code and basic documents. Here we have listed the projects which are ready to deliver with source code that you can use as a starting point for your own research or educational projects.
Wireless Sensor Network (WSN) Simulation:
This NS2 project simulates a wireless sensor network and evaluates the performance of different routing protocols, such as AODV and DSR. The source code for WSN project can be purchased at JP INFOTECH from the WSN list of NS2 projects which are available here.
Mobile Ad-hoc Network (MANET) Simulation:
This NS2 project simulates an Mobile ad-hoc network with both security related project and routing related projects and evaluates the performance of different communication protocols. The source code for Mobile Ad-hoc Network (MANET) project can be purchased at JP INFOTECH from the MANET list of NS2 projects which are available here.
Vehicular Ad-hoc Network (VANET) Simulation:
This NS2 project simulates a vehicular ad-hoc network and evaluates the performance of different routing protocols, such as AODV and DSR. The source code for VANET project can be purchased at JP INFOTECH from the VANET list of NS2 projects which are available here.
NS2 simulator projects for Major projects / Mini Projects
These are just a few examples of the many NS2 projects with source code that are available online. By using these projects as a starting point, you can gain a better understanding of how NS2 works and how to use it to simulate different types of networks. Additionally, you can also use these projects as a reference for your own research or educational projects.
It’s worth noting that using these projects as a reference can be a good starting point, but it’s important to understand the network you are trying to simulate, and make sure the code you are using is well commented and easily understandable, also it’s a good practice to cite the source code used in your work.
In conclusion, NS2 is a powerful tool that allows users to simulate various network protocols and evaluate their performance in different scenarios. By using NS2 projects with source code as a starting point, you can gain a better understanding of how NS2 works and how to use it to simulate different types of networks. You can use these projects for your Major Projects or for your Mini Projects in your Final Year Projects using NS2 simulator.