His primary areas of investigation include Electronic engineering, Wireless sensor network, Telecommunications, Multipath propagation and Real-time computing. Particularly relevant to Wideband is his body of work in Electronic engineering. His Wireless sensor network research is within the category of Computer network.
His work deals with themes such as Distributed computing and Function, which intersect with Telecommunications. Davide Dardari has researched Multipath propagation in several fields, including Transmitter, Ranging and Time of arrival. The concepts of his Real-time computing study are interwoven with issues in Node and Global Positioning System.
Davide Dardari mainly focuses on Electronic engineering, Computer network, Wireless, Wireless sensor network and Real-time computing. The study incorporates disciplines such as Communication channel, Orthogonal frequency-division multiplexing, Ranging, Signal and Antenna in addition to Electronic engineering. As a member of one scientific family, Davide Dardari mostly works in the field of Ranging, focusing on Multipath propagation and, on occasion, Time of arrival and Bandwidth.
His Computer network research incorporates elements of Wireless lan, Wireless ad hoc network, Modulation, Wireless network and Robustness. His Wireless study is associated with Telecommunications. Davide Dardari has included themes like Distributed computing, Network topology, Key distribution in wireless sensor networks, Node and Algorithm in his Wireless sensor network study.
His primary scientific interests are in Electronic engineering, Real-time computing, Radar, Wireless and Communication channel. His studies deal with areas such as Transmitter, Identification, Energy, Extremely high frequency and Antenna as well as Electronic engineering. His research in Real-time computing focuses on subjects like Tracking, which are connected to Ranging.
His Radar study deals with Perspective intersecting with Reinforcement learning. His biological study deals with issues like Topology, which deal with fields such as Transmission, Quality of service, Mobility model and Telecommunications link. His study in MIMO is interdisciplinary in nature, drawing from both Directivity and Multipath propagation.
Real-time computing, Radar, Electronic engineering, Beamforming and Identification are his primary areas of study. His Real-time computing study often links to related topics such as Tracking. In his study, Perspective, Ranging, Detection theory and Phase shift module is strongly linked to Radiation pattern, which falls under the umbrella field of Radar.
His Electronic engineering research includes themes of Extremely high frequency and Antenna array, Antenna. His research in Beamforming intersects with topics in Algorithm, MIMO and Service. His study on Identification also encompasses disciplines like
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Ranging With Ultrawide Bandwidth Signals in Multipath Environments
D. Dardari;A. Conti;U. Ferner;A. Giorgetti.
Proceedings of the IEEE (2009)
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)
An Overview on Wireless Sensor Networks Technology and Evolution
Chiara Buratti;Andrea A. Conti;Davide Dardari;Roberto Verdone.
Sensors (2009)
A theoretical characterization of nonlinear distortion effects in OFDM systems
D. Dardari;V. Tralli;A. Vaccari.
IEEE Transactions on Communications (2000)
Wireless Sensor and Actuator Networks: Technologies, Analysis and Design
Roberto Verdone;Davide Dardari;Gianluca Mazzini;Andrea Conti.
(2008)
Network localization and navigation via cooperation
M Z Win;A Conti;S Mazuelas;Yuan Shen.
IEEE Communications Magazine (2011)
Indoor Tracking: Theory, Methods, and Technologies
Davide Dardari;Pau Closas;Petar M. Djuric.
IEEE Transactions on Vehicular Technology (2015)
Position error bound for UWB localization in dense cluttered environments
D. Jourdan;D. Dardari;M. Win.
IEEE Transactions on Aerospace and Electronic Systems (2008)
Threshold-Based Time-of-Arrival Estimators in UWB Dense Multipath Channels
D. Dardari;Chia-Chin Chong;M.Z. Win.
IEEE Transactions on Communications (2008)
Time of arrival estimation for UWB localizers in realistic environments
Chiara Falsi;Davide Dardari;Lorenzo Mucchi;Moe Z. Win.
EURASIP Journal on Advances in Signal Processing (2006)
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