D-Index & Metrics Best Publications
Bertrand M. Hochwald

Bertrand M. Hochwald

University of Notre Dame
United States

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Electronics and Electrical Engineering D-index 33 Citations 20,566 126 World Ranking 4015 National Ranking 1518

Research.com Recognitions

Awards & Achievements

2019 - Fellow, National Academy of Inventors

2008 - IEEE Fellow For contributions to multiple-input-multiple-output wireless communications

Overview

What is he best known for?

The fields of study Bertrand M. Hochwald is best known for:

  • Fading
  • Array processing
  • Antenna diversity

Bertrand M. Hochwald performs multidisciplinary study on Signal processing and Algorithm in his works. Bertrand M. Hochwald integrates Algorithm and Signal processing in his research. He undertakes multidisciplinary investigations into Sensor array and Array processing in his work. In his work, Bertrand M. Hochwald performs multidisciplinary research in Array processing and Sensor array. Many of his studies on Digital signal processing apply to Computer hardware as well. His work on Digital signal processing expands to the thematically related Computer hardware. He regularly links together related areas like Identifiability in his Machine learning studies. His Identifiability study often links to related topics such as Machine learning. Bertrand M. Hochwald connects Telecommunications link with Computer network in his study.

His most cited work include:

  • A transmitter diversity scheme for wideband CDMA systems based on space-time spreading (398 citations)
  • Identifiability in array processing models with vector-sensor applications (169 citations)

What are the main themes of his work throughout his whole career to date

Measure (data warehouse) is closely connected to Data mining in his research, which is encompassed under the umbrella topic of Data stream mining. His Measure (data warehouse) study frequently draws parallels with other fields, such as Data mining. Bertrand M. Hochwald works mostly in the field of Dimension (graph theory), limiting it down to concerns involving Combinatorics and, occasionally, Topology (electrical circuits). His Topology (electrical circuits) study frequently links to related topics such as Combinatorics. Bertrand M. Hochwald is involved in relevant fields of research such as Block (permutation group theory) and Flow (mathematics) in the field of Geometry. Flow (mathematics) is closely attributed to Geometry in his study. His research brings together the fields of Estimation theory and Algorithm. While working in this field, he studies both Estimation theory and Parametric statistics. In his research, Bertrand M. Hochwald undertakes multidisciplinary study on Parametric statistics and Parametric model.

Bertrand M. Hochwald most often published in these fields:

  • Algorithm (66.67%)
  • Telecommunications (66.67%)
  • Channel (broadcasting) (50.00%)

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.

Best Publications

Achieving near-capacity on a multiple-antenna channel

B.M. Hochwald;S. ten Brink.
IEEE Transactions on Communications (2003)

2778 Citations

How much training is needed in multiple-antenna wireless links?

B. Hassibi;B.M. Hochwald.
IEEE Transactions on Information Theory (2003)

2559 Citations

A vector-perturbation technique for near-capacity multiantenna multiuser communication-part I: channel inversion and regularization

C.B. Peel;B.M. Hochwald;A.L. Swindlehurst.
IEEE Transactions on Communications (2005)

1928 Citations

High-rate codes that are linear in space and time

B. Hassibi;B.M. Hochwald.
IEEE Transactions on Information Theory (2002)

1862 Citations

Capacity of a mobile multiple-antenna communication link in Rayleigh flat fading

T.L. Marzetta;B.M. Hochwald.
IEEE Transactions on Information Theory (1999)

1800 Citations

Unitary space-time modulation for multiple-antenna communications in Rayleigh flat fading

B.M. Hochwald;T.L. Marzetta.
IEEE Transactions on Information Theory (2000)

1402 Citations

Differential unitary space-time modulation

B.M. Hochwald;W. Sweldens.
IEEE Transactions on Communications (2000)

1244 Citations

Systematic design of unitary space-time constellations

B.M. Hochwald;T.L. Marzetta;T.J. Richardson;W. Sweldens.
IEEE Transactions on Information Theory (2000)

921 Citations

A vector-perturbation technique for near-capacity multiantenna multiuser communication-part II: perturbation

B.M. Hochwald;C.B. Peel;A.L. Swindlehurst.
IEEE Transactions on Communications (2005)

871 Citations

Multiple-antenna channel hardening and its implications for rate feedback and scheduling

B.M. Hochwald;T.L. Marzetta;V. Tarokh.
IEEE Transactions on Information Theory (2004)

778 Citations

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Frequent Co-Authors

Thomas L. Marzetta

Thomas L. Marzetta

New York University

Babak Hassibi

Babak Hassibi

California Institute of Technology

J Nicholas Laneman

J Nicholas Laneman

University of Notre Dame

Wim Sweldens

Wim Sweldens

Nokia (United States)

David J. Love

David J. Love

Purdue University West Lafayette

Arye Nehorai

Arye Nehorai

Washington University in St. Louis

Chau Yuen

Chau Yuen

Singapore University of Technology and Design

Jian-Ming Jin

Jian-Ming Jin

University of Illinois at Urbana-Champaign

Constantinos B. Papadias

Constantinos B. Papadias

American College of Greece

Patrick Fay

Patrick Fay

University of Notre Dame

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