Secret Communication Using PCS based WFRFT
In this letter, a parallel-combinatory-spreading-based weighted fractional Fourier transform (PCS-WFRFT) system aiming to guarantee physical layer (PHY) security is proposed. In this system, the transmission data are first divided into two groups. Based on the first group of data, a set of pseudonoise sequences is generated and then used to spread and encrypt the second group of data.
In general, the proposed system is spread and dynamically encrypted by the message information itself, whereby both high bandwidth efficiency and high security performance are obtained. Numerical simulations are conducted to evaluate the performance of the proposed system in terms of the average bit error rate.
Similar IEEE Project Titles:
1.Chaotic Cryptography Using Augmented Lorenz Equations Aided by Quantum Key Distribution.
2.Measurement-Device-Independent Quantum Cryptography.
3.Entanglement Sampling and Applications.
4.Quantum Photonic Network: Concept, Basic Tools, and Future Issues.
5.A High-Speed FPGA Implementation of an RSD-Based ECC Processor.
6.Safeguarding Quantum Key Distribution Through Detection Randomization.
7.Risk Analysis of Trojan-Horse Attacks on Practical Quantum Key Distribution Systems.
8.Fast and Generic Inversion Architectures over GF(2m) Using Modified Itoh-Tsujii Algorithms.
9.Time-Bound Anonymous Authentication for Roaming Networks.
10.Implementation of a New Lightweight Encryption Design for Embedded Security.
11.The Error Tolerance Bound for Secure Multi-Qubit QKD Against Incoherent Attack.
12.Scalable Elliptic Curve Cryptosystem FPGA Processor for NIST Prime Curves.
13.Minimizing Pixel Expansion in Visual Cryptographic Scheme for General Access Structures.
14.Customized Certificate Revocation Lists for IEEE 802.11s-Based Smart Grid AMI Networks.
15.User-Defined Privacy Grid System for Continuous Location-Based Services.
16.Effective Key Management in Dynamic Wireless Sensor Networks.
17 Effectively Exploiting Parasitic Arrays for Secret Key Sharing.
18.High-Speed Polynomial Multiplication Architecture for Ring-LWE and SHE Cryptosystems.
19.Adaptively Secure Identity-Based Broadcast Encryption with a Constant-sized Ciphertext.
Subscribe Our Youtube Channel
You can Watch all Subjects Matlab & Simulink latest Innovative Project Results
We want to support Uncompromise Matlab service for all your Requirements Our Reseachers and Technical team keep update the technology for all subjects ,We assure We Meet out Your Needs.
- Matlab Research Paper Help
- Matlab assignment help
- Matlab Project Help
- Matlab Homework Help
- Simulink assignment help
- Simulink Project Help
- Simulink Homework Help
- Matlab Research Paper Help
- NS3 Research Paper Help
- Omnet++ Research Paper Help
- Customised Matlab Assignments
- Global Assignment Knowledge
- Best Assignment Writers
- Certified Matlab Trainers
- Experienced Matlab Developers
- Over 400k+ Satisfied Students
- Ontime support
- Best Price Guarantee
- Plagiarism Free Work
- Correct Citations
Expert Matlab services just 1-click
Unlimited support we offer you
For better understanding purpose we provide following Materials for all Kind of Research & Assignment & Homework service.
- Result snapshot
- Video Tutorial
- Instructions Profile
- Sofware Install Guide
- Execution Guidance
- Implement Plan
Matlab projects innovators has laid our steps in all dimension related to math works.Our concern support matlab projects for more than 10 years.Many Research scholars are benefited by our matlab projects service.We are trusted institution who supplies matlab projects for many universities and colleges.
Reasons to choose Matlab Projects .org???
Our Service are widely utilized by Research centers.More than 5000+ Projects & Thesis has been provided by us to Students & Research Scholars. All current mathworks software versions are being updated by us.
Our concern has provided the required solution for all the above mention technical problems required by clients with best Customer Support.
- Novel Idea
- Ontime Delivery
- Best Prices
- Unique Work