2011 - IEEE Fellow For contributions to wireless communication systems
Marco Chiani mainly focuses on Algorithm, Fading, Rayleigh fading, Electronic engineering and Statistics. His biological study spans a wide range of topics, including Single antenna interference cancellation and Antenna. Communication channel covers Marco Chiani research in Fading.
His Rayleigh fading study combines topics from a wide range of disciplines, such as Phase-shift keying, Keying, Detection theory, Noise and MIMO. His Electronic engineering research is multidisciplinary, incorporating elements of Spread spectrum, Amplitude modulation, Upper and lower bounds and Multipath propagation. His research integrates issues of Theoretical computer science and Turbo code in his study of Low-density parity-check code.
His primary scientific interests are in Algorithm, Electronic engineering, Low-density parity-check code, Communication channel and Fading. As part of his studies on Algorithm, Marco Chiani frequently links adjacent subjects like Theoretical computer science. His studies in Electronic engineering integrate themes in fields like Cognitive radio, Interference and Mobile radio.
He works mostly in the field of Low-density parity-check code, limiting it down to topics relating to Discrete mathematics and, in certain cases, Combinatorics and Upper and lower bounds, as a part of the same area of interest. His Fading research focuses on Rayleigh fading in particular. His study in Rayleigh fading is interdisciplinary in nature, drawing from both MIMO, Phase-shift keying and Topology.
Marco Chiani focuses on Algorithm, Eigenvalues and eigenvectors, Electronic engineering, Random matrix and Communication channel. Marco Chiani is interested in Decoding methods, which is a branch of Algorithm. His Electronic engineering research is multidisciplinary, relying on both Detector, Radar, Clutter, Cognitive radio and Energy.
Many of his research projects under Communication channel are closely connected to SIGNAL with SIGNAL, tying the diverse disciplines of science together. His Channel capacity research includes elements of MIMO, Demodulation, Rayleigh fading and Signal-to-noise ratio. His MIMO research includes themes of Metric and Topology.
Random matrix, Algorithm, Electronic engineering, Multistatic radar and Computer network are his primary areas of study. In general Algorithm, his work in Decoding methods is often linked to Bipartite graph linking many areas of study. His Decoding methods study combines topics in areas such as Aloha, Binary erasure channel, Single antenna interference cancellation and Random access.
His studies deal with areas such as Acoustics, Ground-penetrating radar, Ultra wideband radar, Nondestructive testing and Randomness as well as Electronic engineering. His Computer network study incorporates themes from Key distribution in wireless sensor networks, Throughput and Radio Link Protocol. His research integrates issues of Spatial correlation, Rayleigh fading, Control theory, Signal-to-noise ratio and MIMO in his study of Wireless.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
New exponential bounds and approximations for the computation of error probability in fading channels
M. Chiani;D. Dardari;M.K. Simon.
IEEE Transactions on Wireless Communications (2003)
On the capacity of spatially correlated MIMO Rayleigh-fading channels
M. Chiani;M.Z. Win;A. Zanella.
IEEE Transactions on Information Theory (2003)
Network localization and navigation via cooperation
M Z Win;A Conti;S Mazuelas;Yuan Shen.
IEEE Communications Magazine (2011)
Protograph LDPC Codes Design Based on EXIT Analysis
G. Liva;M. Chiani.
global communications conference (2007)
Effects of Noise Power Estimation on Energy Detection for Cognitive Radio Applications
A. Mariani;A. Giorgetti;M. Chiani.
IEEE Transactions on Communications (2011)
Coded Slotted ALOHA: A Graph-Based Method for Uncoordinated Multiple Access
Enrico Paolini;Gianluigi Liva;Marco Chiani.
IEEE Transactions on Information Theory (2015)
On the marginal distribution of the eigenvalues of wishart matrices
A. Zanella;M. Chiani;M.Z. Win.
IEEE Transactions on Communications (2009)
Coexistence Between UWB and Narrow-Band Wireless Communication Systems
M. Chiani;A. Giorgetti.
Proceedings of the IEEE (2009)
The effect of narrowband interference on wideband wireless communication systems
A. Giorgetti;M. Chiani;M.Z. Win.
IEEE Transactions on Communications (2005)
On the capacity of doubly correlated MIMO channels
H. Shin;M.Z. Win;J.H. Lee;M. Chiani.
IEEE Transactions on Wireless Communications (2006)
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University of Arizona
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Profile was last updated on December 6th, 2021.
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