The maximum-likelihood (ML) sequence detection problem for channels with memory is investigated. The Viterbi algorithm (VA) provides an exact solution. Its computational complexity is linear in the length of the transmitted sequence, but exponential in the channel memory length. On the other hand, the sphere decoding (SD) algorithm also solves the ML detection problem exactly, and has expected complexity which is a low-degree polynomial (often cubic) in the length of the transmitted sequence over a wide range of signal-to-noise ratios. We combine the sphere-constrained search strategy of SD with the dynamic programming principles of the VA. The resulting algorithm has the worst-case complexity determined by the VA, but often significantly l...
It is well known that maximum-likelihood (ML) decoding in many digital communication schemes reduces...
In this contribution we explore a novel Optimized Hierarchy Reduced Search Algorithm (OHRSA)-aided s...
The mobile wireless communication systems has been growing fast and continuously over the past two d...
The maximum-likelihood (ML) detection problem for channels with memory is investigated. The Viterbi ...
In multi-antenna communication systems, channel information is often not known at the receiver. To ...
In this paper, we consider a low-complexity detection technique referred to as a reduced dimension m...
In many communications problems, maximum-likelihood (ML) decoding reduces to finding the closest (sk...
Maximum-likelihood (ML) decoding often reduces to finding the closest (skewed) lattice point in N-d...
Abstract—It is well known that suboptimal detection schemes for multiple-input multiple-output (MIMO...
In many communications problems, maximum-likelihood (ML) decoding reduces to nding the closest (skew...
It is well known that maximum-likelihood (ML) decoding in many digital communication schemes reduces...
In Part 1, we found a closed-form expression for the expected complexity of the sphere-decoding algo...
We consider joint maximum-likelihood (ML) detection and decoding in multiple-input multiple-output (...
The search for the closest lattice point arises in many communication problems, and is known to be N...
International audienceMaximum-Likelihood (ML) joint detection has been proposed as an optimal strate...
It is well known that maximum-likelihood (ML) decoding in many digital communication schemes reduces...
In this contribution we explore a novel Optimized Hierarchy Reduced Search Algorithm (OHRSA)-aided s...
The mobile wireless communication systems has been growing fast and continuously over the past two d...
The maximum-likelihood (ML) detection problem for channels with memory is investigated. The Viterbi ...
In multi-antenna communication systems, channel information is often not known at the receiver. To ...
In this paper, we consider a low-complexity detection technique referred to as a reduced dimension m...
In many communications problems, maximum-likelihood (ML) decoding reduces to finding the closest (sk...
Maximum-likelihood (ML) decoding often reduces to finding the closest (skewed) lattice point in N-d...
Abstract—It is well known that suboptimal detection schemes for multiple-input multiple-output (MIMO...
In many communications problems, maximum-likelihood (ML) decoding reduces to nding the closest (skew...
It is well known that maximum-likelihood (ML) decoding in many digital communication schemes reduces...
In Part 1, we found a closed-form expression for the expected complexity of the sphere-decoding algo...
We consider joint maximum-likelihood (ML) detection and decoding in multiple-input multiple-output (...
The search for the closest lattice point arises in many communication problems, and is known to be N...
International audienceMaximum-Likelihood (ML) joint detection has been proposed as an optimal strate...
It is well known that maximum-likelihood (ML) decoding in many digital communication schemes reduces...
In this contribution we explore a novel Optimized Hierarchy Reduced Search Algorithm (OHRSA)-aided s...
The mobile wireless communication systems has been growing fast and continuously over the past two d...