Master Thesis Wireless Networks Projects
Master Thesis Wireless Networks Projects is a framework of high achievements in the path of your research journey. Our prodigious knowledgeable ecosphere initiate with the high motivation of provide uptrend wireless networks projects in the middle of students and research professorates in low cost. Today, our momentous service is wide-reaching among students and research colleagues due to our standard and quality of approaches. If you aspire to join with us, you can immediately take your mobile and call us.
Highbrowed Wireless Networks Projects Highlighted in Below:
- OHDP: Optimized handover with direction prediction scheme using linear regression for femtocell networks
- A simple stochastic geometry model to test a simple adaptive CSMA protocol: Application for VANETs
- Convergence in trusted computing and virtualized systems: A new dimension towards trusted intelligent system
- Improvement of GPSR protocol by using future position estimation of participating nodes in vehicular ad-hoc Networks [Master Thesis Wireless Networks Projects]
- An improved GPSR protocol to enhance the video quality transmission over vehicular ad hoc networks
- Enhancement to the Ad hoc on demand Distance Vector routing protocol for vehicular communications in a Smart City
- Efficient secure and privacy preserving data access control scheme for multi authority personal health record systems in cloud computing
- Path loss characterization of horn-to-horn and textile-to-textile on-body mmWave channels at 60 GHz
- Spectrum sensing technique for Cognitive Radio of multiple OFDM Signals based on Singular Value Decomposition
- Study of magnitude and extended relative phase information for color texture retrieval in L*a*b* color space
- Design and optimization of an inset fed circular micro strip patch antenna using DGS structure for applications in the millimeter wave band
- User driven policy for selecting wireless communication technologies in intelligent transportation systems
- Enhanced traffic classification design through a randomized approach for more secure 3G mobile networks
- Blind identification of FIR MIMO systems driven by cyclostationary inputs in wireless communications using joint block diagonalization
- Extended measurement tests of dual polarization radio over fiber and radio over FSO front haul in LTE C-RAN architecture [Master Thesis Wireless Networks Projects]
