Although the mean square error (MMSE) approach is recognized to be near optimal for uplinking large-scale multiple-input-multiple-output (MIMO) systems, there are certain difficulties in the procedure related to matrix inversion. The long recurrence enlarged conjugate gradient (LRE-CG) approach is proposed in this study as a way to iteratively realize the MMMS algorithm while avoiding the complications of matrix inversion. In addition, a diagonal-approximate starting solution to the LRE-CG approach was used to speed up the conversion rate and reduce the complications required. It has been discovered that the LRE-CG-based approach has the ability to significantly reduce computational complexity. By comparing simulation results, it is clear t...
In this paper, we consider deep unfolding the standard iterative conjugate gradient (CG) algorithm t...
Deep learning (DL) is attracting considerable attention in the design of communication systems. This...
In this paper, we discuss the implementation strategies of an explicit matrix inversion technique ba...
Although the mean square error (MMSE) approach is recognized to be near optimal for uplinking large-...
Being a crucial aspect of fifth-generation (5G) mobile communications systems, massively multiple-inp...
Maximum likelihood detection is infeasible in uplink multiuser massive multiple-input and multiple-o...
Abstract Massive multiple-input multiple-output (MIMO) systems have been proposed to meet the user ...
In this paper, we will represent several methods that can reduce the computational complexity to det...
This paper deals with iterative detection for uplink large-scale MIMO systems. The well-known iterat...
Signal detection is a serious challenge for uplink massive multiple-input multiple-output (MIMO) sys...
Massive (or large-scale) MIMO is an emerging technology to improve the spectral efficiency of existi...
Abstract Several approximate matrix inversion methods have been used in linear massive MIMO uplink ...
Massive multiple-input-multiple-output (MIMO) is one of the key technologies in the fifth generation...
Abstract In this letter, we propose an algorithm based on the alternating minimization technique to...
In MIMO applications, the minimum mean square error parallel interference cancellation (MMSE-PIC) ba...
In this paper, we consider deep unfolding the standard iterative conjugate gradient (CG) algorithm t...
Deep learning (DL) is attracting considerable attention in the design of communication systems. This...
In this paper, we discuss the implementation strategies of an explicit matrix inversion technique ba...
Although the mean square error (MMSE) approach is recognized to be near optimal for uplinking large-...
Being a crucial aspect of fifth-generation (5G) mobile communications systems, massively multiple-inp...
Maximum likelihood detection is infeasible in uplink multiuser massive multiple-input and multiple-o...
Abstract Massive multiple-input multiple-output (MIMO) systems have been proposed to meet the user ...
In this paper, we will represent several methods that can reduce the computational complexity to det...
This paper deals with iterative detection for uplink large-scale MIMO systems. The well-known iterat...
Signal detection is a serious challenge for uplink massive multiple-input multiple-output (MIMO) sys...
Massive (or large-scale) MIMO is an emerging technology to improve the spectral efficiency of existi...
Abstract Several approximate matrix inversion methods have been used in linear massive MIMO uplink ...
Massive multiple-input-multiple-output (MIMO) is one of the key technologies in the fifth generation...
Abstract In this letter, we propose an algorithm based on the alternating minimization technique to...
In MIMO applications, the minimum mean square error parallel interference cancellation (MMSE-PIC) ba...
In this paper, we consider deep unfolding the standard iterative conjugate gradient (CG) algorithm t...
Deep learning (DL) is attracting considerable attention in the design of communication systems. This...
In this paper, we discuss the implementation strategies of an explicit matrix inversion technique ba...