• Linkedin
  • RSS Feeds

Transmission Systems Group (TrSys)

  • Home
  • Members
    • Current Members
    • Previous Members
    • Research Visits / Interns
  • Research
    • Research Interests
      • Physical Layer Security
      • Nonstationary Interference
      • Neural Networks & LDPC Codes
      • xDSL DMT and OFDM
      • Unequal Error Protection (UEP)
      • Analog Codes and Iterative Decoding
      • Network Coding and Routing
      • MIMO and Multiuser
      • DNA Coding
      • Acoustic Transmissions
      • Powerline Communications
    • Current Student Projects
    • Previous Student Projects
  • Publications
  • Teaching
    • Information Theory
    • Coding Theory
    • Digital Signal Processing
    • Signals and Systems Lecture
    • Signals and Systems Lab
    • Wireline Communications
    • Basics of Electrical Eng. II
    • Basics of Electrical Eng. III
    • ITS II – Systems of Information Technology II
    • Mathematics Preparation
    • 3rd-Year Specialization Lab
    • Statistical Analysis and Simulation (ODU ECE 651)
    • Basic Electrical Circuit Analysis
    • Networks & Protocols
    • Data Compression, Compressive Sensing, and Modern Coding
  • Resources
    • Calendar
    • Events
    • Jobs
    • Printers
    • Servers
    • VPN Access
    • Eduroam
  • Contact

Posts Categorized / Massive MIMO

  • In: Massive MIMO, MIMO and Multiuser, PAR reduction, Research Interests

Massive MIMO

  Reserving spatial dimensions proved to be very efficient for PAR reduction. With a high numbers of transmit antennas, the corresponding rate loss can be neglected.


:
:

Recent Posts

  • DoA estimation using sub-array structures of a circular antenna array
  • Iterative treatment of impulse noise and LDPC decoding
  • Joint equalization and LDPC decoding
  • Physical-layer key generation in powerline networks
  • Physical-Layer Security: Algorithms for FDD key generation (MSc thesis)
  • Simulation of Impulse-noise Suppression in a HomePlug-AV-like Powerline Connection
  • Channel Distribution Measurements for Physical-Layer Security using RECAP Antennas
  • Neural Networks and LDPC Codes
  • Receiver Optimization of the L-Band Digital Aeronautical Communication System (MSc. Thesis )
  • Aspects of Density Evolution in LDPC Key Reconciliation

Categories

  • Acoustic transmissions
  • Analog Codes and Iterative Decoding
  • Current Projects
  • DNA Coding
  • DoA
  • Equalization
  • Impusle Noise
  • Joint source-channel coding
  • LDPC codes
  • Massive MIMO
  • MIMO and Multiuser
  • Network Coding and Routing
  • Neural Networks & LDPC Codes
  • Nonstationary Interference
  • PAR reduction
  • Physical Layer Security
  • Powerline Communications
  • Previous Projects
  • Research Interests
  • Uncategorized
  • Unequal Error Protection (UEP)
  • xDSL DMT and OFDM

Archives

  • February 2019
  • November 2018
  • January 2018
  • July 2017
  • January 2017
  • July 2016
  • May 2016
  • August 2015
  • June 2015
  • December 2014
  • November 2014
  • May 2014
  • March 2014
  • February 2014
  • January 2014
  • December 2013

Contact

Prof. Dr.-Ing. Werner Henkel
Professor of Electrical Engineering
Jacobs University Bremen

Research I, Room 61
P.O. Box 750 561
Campus Ring 1
D-28725 Bremen
Germany +49 (0) 421 200-3157 w.henkel@jacobs-university.de

  • Home
  • Members
  • Publications
  • Research Interests
  • Current Student Projects
  • Previous Student Projects
  • Teaching
  • Resources
  • Contact
  • Data Privacy

:
:


↑ © Copyright 2017 Transmission Systems Research Group. All Rights Reserved.