Network security is the one of the best feilds of the research which deals with securing the privacy . Here i have selected some papers from IEEE Transactions 2014 for implementing .may be helpful for the scholars looking for their final year projects . These papers can be implemented using ns2 or other network simulators .Internet of Things and Cloud storage is two emerging technologies .I have mentioned some topics on the security of these technologies too .

1.A Bayesian-MRF Approach for PRNU-Based Image Forgery Detection
2.Adaptively Splitted GMM With Feedback Improvement for the Task of Background Subtraction
3.A Method for Mining Infrequent Causal Associations and Its Application in Finding Adverse Drug Reaction Signal Pairs
4.A Methodology for Direct and Indirect Discrimination Prevention in Data Mining
5.DDoS Detection Method Based on Chaos Analysis of Network Traffic Entropy
6.Dynamic Multiservice Load Balancing in Cloud-Based Multimedia System
7.Efficient Algorithms for Mining High Utility Itemsets from Transactional Databases
8.Enabling P2P One-View Multiparty Video Conferencing
9.Key-Aggregate Cryptosystem for Scalable Data Sharing in Cloud Storage
10.Meeting Deadlines of Scientific Workflows in Public Clouds with Tasks Replication
11.Mona Secure Multi-Owner Data Sharing for Dynamic Groups in the Cloud
12.Optimal Multiserver Configuration for Profit Maximization in Cloud Computing
13.Preventing Private Information Inference Attacks on Social Networks
14.Privacy-Preserving Authenticated Key-Exchange Over Internet
15.Privacy-Preserving Public Auditing for Secure Cloud Storage
16.Private Searching on Streaming Data Based on Keyword Frequency 
17.Scalable Distributed Service Integrity Attestation for Software-as-a-Service Clouds
18.Secure Two-Party Differentially Private Data Release for Vertically Partitioned Data
19.SORT: A Self-ORganizing Trust Model for Peer-to-Peer Systems
20.Temporal Load Balancing with Service Delay Guarantees for Data Center Energy Cost Optimization 
21.Topic-Sensitive Influencer Mining in Interest-Based Social Media Networks via Hypergraph Learning
22.Toward Optimal Fusion Algorithms With Security Against Wolves and Lambs in Biometrics
23.Trustworthiness Management in the Social Internet of Things
24.User Authentication Through Mouse Dynamics

If you feel difficulty in implementing any of these just ping me 




Modeling, Design & Simulation of an Adaptive Neuro- Fuzzy Inference System (ANFIS) for Speed Control of Induction Motor

A novel design of an adaptive neuro fuzzy inference strategy  (ANFIS) for controlling some of the parameters, such as speed,  torque, flux, voltage, current, etc. of the induction motor is  presented in this paper. Induction motors are characterized by  highly non-linear, complex and time-varying dynamics and
inaccessibility of some of the states and outputs for  measurements. Hence it can be considered as a challenging  engineering problem in the industrial sector. Various advanced  control techniques has been devised by various researchers across  the world. Some of them are based on the fuzzy techniques.

 Fuzzy logic based controllers are considered as potential candidates for such an application. Fuzzy based controllers develop a control signal which yields on the firing of the rule base, which is written on the previous experiences & these rules are fired which is random in nature. As a result of which, the  outcome of the controller is also random & optimal results may not be obtained. Selection of the proper rule base depending
 upon the situation can be achieved by the use of an ANFIS  controller, which becomes an integrated method of approach for the control purposes & yields excellent results, which is the  highlight of this paper. In the designed ANFIS scheme, neural network techniques are used to select a proper rule base, which is
 achieved using the back propagation algorithm. This integrated  approach improves the system performance, cost-effectiveness, efficiency, dynamism, reliability of the designed controller. The simulation results presented in this paper show the effectiveness of the method developed & has got faster response time or settling
times. Further, the method developed has got a wide number of advantages in the industrial sector & can be converted into a real time application using some interfacing cards.

Wireless Sensor Networks Project IEEE 2014 Papers and Titles


1. AASR: Authenticated Anonymous Secure Routing for MANETs in Adversarial Environments

2.Energy-Efficient Reliable Routing Considering Residual Energy in Wireless Ad Hoc Networks

3.Joint Topology-Transparent Scheduling and QoS Routing in Ad Hoc Networks

4.Leveraging Social Networks for P2P Content-Based File Sharing in Disconnected MANETs

5.Multicast Capacity in MANET with Infrastructure Support

6.Optimally Adaptive Power-Saving Protocols for Ad Hoc Networks Using the Hyper Quorum System

7.PSR: A Lightweight Proactive Source Routing Protocol For Mobile Ad Hoc Networks

8.PSR: A Lightweight Proactive Source Routing Protocol For Mobile Ad Hoc Networks

9.Security Enhancements for Mobile Ad Hoc Networks with Trust Management Using Uncertain Reasoning

10.Video Dissemination over Hybrid Cellular and Ad Hoc Networks


1. Autonomous Mobile Mesh Networks

2.Location-Aware Chord-Based Overlay for Wireless Mesh Networks

1.A Disturbance-Adaptive Design for VANET-Enabled Vehicle Platoon

2.Efficient Privacy-Preserving Authentication for Vehicular Ad Hoc Networks

3.Safety-Message Broadcast in Vehicular Ad Hoc Networks Based on Protocol Sequences

wireless networks

1.Approach-and-Roam (AaR): A Geographic Routing Scheme for Delay/Disruption Tolerant Networks

2.A QoS-Oriented Distributed Routing Protocol for Hybrid Wireless Networks

3.Cooperative Caching for Efficient Data Access in Disruption Tolerant Networks

4.Efficient Location Privacy-Aware Forwarding in Opportunistic Mobile Networks

5.Neighbor Table Based Shortcut Tree Routing in ZigBee Wireless Networks

6.Secure Data Retrieval for Decentralized Disruption-Tolerant Military Networks

Wireless Sensor Networks

1.An Alternative Perspective on Utility Maximization in Energy-Harvesting Wireless Sensor Networks

2.An Energy-Balanced Routing Method Based on Forward-Aware Factor for Wireless Sensor Networks

3.An Energy-Efficient Mobile-Sink Path Selection Strategy for Wireless Sensor Networks

4.A Two-Phase Dispatch Heuristic to Schedule the Movement of Multi-Attribute Mobile Sensors in a Hybrid Wireless Sensor Network

5.Constructing Load-Balanced Data Aggregation Trees in Probabilistic Wireless Sensor Networks

6.Contiguous Link Scheduling for Data Aggregation in Wireless Sensor Networks

7.R3E: Reliable Reactive Routing Enhancement for Wireless Sensor Networks

8.Sleep Scheduling for Geographic Routing in Duty-Cycled Mobile Sensor Networks

9.WizSync: Exploiting Wi-Fi Infrastructure for Clock Synchronization in Wireless Sensor Networks


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