Henk Wymeersch mainly investigates Wireless network, Electronic engineering, Distributed computing, Algorithm and Wireless sensor network. His work carried out in the field of Wireless network brings together such families of science as Cellular network, Computer network, Censoring and Communication channel. His research on Electronic engineering also deals with topics like
His work on Message passing is typically connected to Mobile device as part of general Distributed computing study, connecting several disciplines of science. Henk Wymeersch interconnects Phase-shift keying, Pulse-amplitude modulation, Carrierless amplitude phase modulation and MIMO in the investigation of issues within Algorithm. His work is dedicated to discovering how Wireless sensor network, Probabilistic logic are connected with Information transfer, Object and Simulation and other disciplines.
Henk Wymeersch mostly deals with Algorithm, Electronic engineering, Communication channel, Real-time computing and Wireless network. His Algorithm study which covers Base station that intersects with Beamforming. His Electronic engineering study integrates concerns from other disciplines, such as Extremely high frequency, MIMO, Orthogonal frequency-division multiplexing and Transmission.
His study in Communication channel is interdisciplinary in nature, drawing from both Wireless, Resource allocation and Telecommunications link. His research in Wireless network intersects with topics in Mathematical optimization, Computer network and Distributed computing. While the research belongs to areas of Distributed computing, Henk Wymeersch spends his time largely on the problem of Belief propagation, intersecting his research to questions surrounding Factor graph and Wireless sensor network.
The scientist’s investigation covers issues in Algorithm, Electronic engineering, Communication channel, Base station and Telecommunications link. The various areas that Henk Wymeersch examines in his Algorithm study include Mean squared error, Estimator, Multipath propagation and Synchronization. The concepts of his Electronic engineering study are interwoven with issues in Wireless, MIMO, Spectral efficiency, Orthogonal frequency-division multiplexing and Extremely high frequency.
The study incorporates disciplines such as Radio propagation, Transmission, Beamforming and Data transmission in addition to Communication channel. Henk Wymeersch combines subjects such as Maximum likelihood and Joint with his study of Base station. His study on Telecommunications link also encompasses disciplines like
His scientific interests lie mostly in Algorithm, Electronic engineering, Beamforming, Wireless and Communication channel. His work on Estimation theory as part of general Algorithm research is often related to Tensor decomposition, thus linking different fields of science. Henk Wymeersch is involved in the study of Electronic engineering that focuses on Bandwidth in particular.
His Beamforming research is multidisciplinary, relying on both Location awareness, Signal, Focus and Base station. His Wireless study combines topics from a wide range of disciplines, such as Radio frequency, Service and Antenna. In his study, which falls under the umbrella issue of Communication channel, Wireless network, Terminal and Emerging technologies is strongly linked to Radio propagation.
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.
Cooperative Localization in Wireless Networks
H. Wymeersch;J. Lien;M.Z. Win.
Proceedings of the IEEE (2009)
NLOS identification and mitigation for localization based on UWB experimental data
Stefano Maranò;Wesley M Gifford;Henk Wymeersch;Moe Z Win.
IEEE Journal on Selected Areas in Communications (2010)
Fundamental Limits of Wideband Localization— Part II: Cooperative Networks
Yuan Shen;H Wymeersch;M Z Win.
IEEE Transactions on Information Theory (2010)
Log-domain decoding of LDPC codes over GF(q)
H. Wymeersch;H. Steendam;M. Moeneclaey.
international conference on communications (2004)
Location-Aware Communications for 5G Networks: How location information can improve scalability, latency, and robustness of 5G
Rocco Di Taranto;Srikar Muppirisetty;Ronald Raulefs;Dirk Slock.
IEEE Signal Processing Magazine (2014)
Massive MIMO is a reality—What is next?: Five promising research directions for antenna arrays
Emil Björnson;Luca Sanguinetti;Henk Wymeersch;Jakob Hoydis.
Digital Signal Processing (2019)
Position and Orientation Estimation Through Millimeter-Wave MIMO in 5G Systems
Arash Shahmansoori;Gabriel E. Garcia;Giuseppe Destino;Gonzalo Seco-Granados.
IEEE Transactions on Wireless Communications (2018)
5G mmWave Positioning for Vehicular Networks
Henk Wymeersch;Gonzalo Seco-Granados;Giuseppe Destino;Davide Dardari.
IEEE Wireless Communications (2017)
A Machine Learning Approach to Ranging Error Mitigation for UWB Localization
H. Wymeersch;S. Marano;W. M. Gifford;M. Z. Win.
IEEE Transactions on Communications (2012)
Direct Localization for Massive MIMO
Nil Garcia;Henk Wymeersch;Erik G. Larsson;Alexander M. Haimovich.
IEEE Transactions on Signal Processing (2017)
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