Multiuser Information and Communications Theory



Zeit/Ort n.V.:

  • Mo 14:15-15:45, Raum E 1.12
  • Do 16:15-17:45, Raum E 1.12

Studienfächer / Studienrichtungen

  • WF CE-MA-TA-IT ab Sem. 2
  • WPF EEI-BA-INT ab Sem. 5
  • WPF EEI-MA-INT ab Sem. 1
  • WPF CME-MA ab Sem. 2
  • WPF IuK-MA-ÜTMK-EEI ab Sem. 1
  • WPF BPT-MA-E ab Sem. 1
  • WF ASC-MA ab Sem. 1

Prerequisites / Organizational information

Recommended: A basic course on information theory


Linear vs. nonlinear multiple-access, CDMA as a canoncal framework for any multiple-access schemes, optimum multiuser detection, linear multiuser detection, interference cancellation, rate region, multiuser source coding, time sharing, multiuser channel codes, multiple-access channel (MAC), capacity region, mutual information versus minimum-mean squared error, Gaussian MAC, power region, Gaussian vector MAC, source coding with side information, degraded broadcast channel, Gaussian broadcast-MAC duality, Gaussian vector broadcast channel, dirty-paper coding, physically degraded relay channel, scalar Gaussian relay channel, Gaussian interference channel, cut-set bound, network coding, fading channels, multiuser water filling, block fading, diversity, user diversity, capacity versus outage, near-far gain, dual antenna arrays

Empfohlene Literatur

- El Gamal, A., Kim, Y.: Network Information Theory, Cambridge University Press, 2011 - Cover, T., Thomas, J.: Elements of Information Theory, 2nd ed., Wiley, Hoboken, 2006 - Verdú, S.: Multiuser Detection, Cambridge Univ. Press, Cambridge, 1998 - Tse, D., Viswanath, P.: Fundamentals of Wireless Communications, Cambridge University Press, 2005.

Zusätzliche Informationen

Erwartete Teilnehmerzahl: 20