Faculty Profiles

Achilleas Anastasopoulos
Division: ECE
Address: 4411 EECS
Phone: (734) 615-4024
Fax: (734) 763-8041
Email:
Degree: Ph.D. University of Southern California
Title: Associate Professor
Research Interests: Communication theory (detection in uncertain environments, iterative detection based on soft-decision algorithms), Coding (turbo codes, TCM for non-interleaved fading channels)
Research Areas: Communications.
Areas of Specialty: Channel Coding Theory and Applications; Communication Networks; Information Theory; Wireless Communication Systems.
Selected Projects: Capacity and Coding for the Block-Independent Noncoherent AWGN Channel; Error Exponent Regions for Gaussian Broadcast and Multiple Access Channels; Error Exponent Region for Gaussian Multiple Access Channels; Iterative Detection for Channels With Memory; Analysis and Design of LDPC Codes for Time-Selective Complex-Fading Channels; Code and Receiver Design for the Noncoherent Fast-Fading Channel; Pilot-Symbol-Assisted Coded Transmission over the Block-Noncoherent AWGN Channel; Rotationally Invariant and Rotationally Robust Codes for the AWGN and the Noncoherent Channel; Sequence Error Probability Lower Bounds for Joint Detection and Estimation; Maximum Likelihood Decoding of Trellis Codes in Fading Channels with No Receiver CSI Is a Polynomial-Complexity Problem; Asymptotic Weight Distributions of Irregular Repeat Accumulate Codes; Polynomial-Complexity Noncoherent Symbol-by-Symbol Detection with Application to Adaptive Iterative Decoding of Turbo-like Codes; Capacity Achieving LDPC Codes through Puncturing; Energy and Delay Analysis of Wireless Networks with ARQ; ITR - (ASE+ECS) - (dmc+soc): A Framework for Heterogenious Quality-of-Service Guarantees in Wireless Networks: A Communication-theoretic Approach; Energy-Delay Analysis of Wireless Systems with Random Coding [WLAN]; A Decision Theoretic Framework for Real-Time Communication; BER Calculation for Multiple-Antenna Systems in Ricean Fading Channels; Diversity Gain Region for MIMO Fading Broadcast Channels; Design and Analysis of Joint Data Detection and Frequency/Phase Estimation Algorithms; Multi-Ricean Modeling of Site-Specific Indoor Channel in Wireless Communications; Adaptive Iterative Detection for the Phase-Uncertain Channel: Limited-Tree-Search Versus Truncated-Memory Detection; Propagation Studies Using Rigorous Methods for Indoor Wireless Connectivity; Statistical Modeling of Site-specific Indoor Channels in Wireless Communications; Subexponential-Complexity Exact Sequence Detection in the Presence of Frequency and Phase Uncertainty; Indoor Propagation Models Based on Rigorous Methods for Site-Specific Multipath Environments; Pilot Symbol Assisted Schemes: A Better Alternative to Systematic Unitary Constellations for the Non-Coherent Fast Fading Channel; On Symbol Error Probability Bounds for ISI-Like Channels.
 
 
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