In addtion to the regular courses
that will be
offered, there is also a set of research topics available for the
students undertaking their Master Thesis. These topics allow for both
fundamental and applied research, as well as technology transfer,
depending on the case . These research directions will be availabe for
two purposes: a) research work to be done during the Master Thesis, b)
for those students deciding later to pursue a PhD. within the Doctoral
Program "Information Technologies, Communications and Computational
Mathematics" of Universitat de Valčncia or the Doctoral Program
"Information, Communication and Audiovisual Technologies", where the
Master Thesis will be ideally a preliminary work for the subsequent
PhD. research.
This is a preliminary list of updated
generic research topics that are available for the students:
- Collaborative signal processing in
Networks
- Decentralized, Self-Organized and
Adaptive Communications
- Communication Algorithms and Protocols
for Wireless Sensor Networks
- Software Architectures for Wireless Sensor
Networks
- Testbed Design and Deployment of
Wireless Sensor Networks
- Modeling Tools and Analysis of
Decentralized Large-scale Networks
- Advanced Iterative Coding Systems
- Code Design on Graphs for Communication
channels
- Multi-antenna Space-Time Coding for
Wireless MIMO Systems
- Co-operative Diversity Techniques in
Communications
- Advanced array signal processing and
Beamforming techniques
- Statistical Inference and Estimation
under communication constraints
- Advanced Optimization for problems in
Communications and Signal Processing
- Adaptive processing algorithms for
Communication Systems
- Advanced Multidimensional Signal, Image
and Video Processing
- Advanced Processing Systems in Optical
Communications
- Novel Statistical Processing Algorithms for
Wireless Communications
- Advanced Channel estimation Techniques
- Cognitive Radios and Self-Configurable
Radios
- Optimization of Self-Organized networks
based on Game Theory
- Software-Defined Radios
- Wide-Band and Ultra-Wide-Band Communications
- Fundamental performance limits in Communications
- Network Information Theory
- Robust and Adaptive algorithms for
Capacity maximization in Communications
- Stochastic Modeling and Exact Stochastic
Simulation
- Cross-Layer design for ad-hoc Networks
- Distributed Algorithms for Detection,
Estimation and Control in Networks
- Heterogeneous Networks, Interconnection
and Network Co-operation
- Decentralized MAC and Synchronization
Algorithms
- Intelligent and Adaptive Routing
Algorithms
- Advanced Network Tomography and Network
Traffic Sampling
- Design and Analysis of novel compact
antennas for wireless networks
- Complexity Characterization for
Communication and Signal Processing problems
- Analysis and Performance Evaluation in
Packet Networks
- Distributed Computing
- Virtual and Distributed Environments
- Networks on chips
