MMV-based sequential AoA and AoD estimation for millimeter wave MIMO channels
The fact that the millimeter-wave (mmWave) multiple-input multiple-output (MIMO) channel has sparse support in the spatial domain has motivated recent compressed sensing (CS)-based mmWave channel estimation methods, where the angles of arrivals (AoAs) and angles of departures (AoDs) are quantized us...
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sg-ntu-dr.10356-1626052022-11-01T02:25:02Z MMV-based sequential AoA and AoD estimation for millimeter wave MIMO channels Zhang, Wei Dong, Miaomiao Kim, Taejoon School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Millimeter Wave Communications Compressed Sensing The fact that the millimeter-wave (mmWave) multiple-input multiple-output (MIMO) channel has sparse support in the spatial domain has motivated recent compressed sensing (CS)-based mmWave channel estimation methods, where the angles of arrivals (AoAs) and angles of departures (AoDs) are quantized using angle dictionary matrices. However, the existing CS-based methods usually obtain the estimation result through one-stage channel sounding that have two limitations: (i) the requirement of large-dimensional dictionary and (ii) unresolvable quantization error. These two drawbacks are irreconcilable; improvement of the one implies deterioration of the other. To address these challenges, we propose, in this paper, a two-stage method to estimate the AoAs and AoDs of mmWave channels. In the proposed method, the channel estimation task is divided into two stages, Stage I and Stage II. Specifically, in Stage I, the AoAs are estimated by solving a multiple measurement vectors (MMV) problem. In Stage II, based on the estimated AoAs, the receive sounders are designed to estimate AoDs. The dimension of the angle dictionary in each stage can be reduced, which in turn reduces the computational complexity substantially. We then analyze the successful recovery probability (SRP) of the proposed method, revealing the superiority of the proposed framework over the existing one-stage CS-based methods. We further enhance the reconstruction performance by performing resource allocation between the two stages. We also overcome the unresolvable quantization error issue present in the prior techniques by applying the atomic norm minimization method to each stage of the proposed two-stage approach. The simulation results illustrate the substantially improved performance with low complexity of the proposed two-stage method. The work of Taejoon Kim was supported in part by the National Science Foundation (NSF) under Grant CNS1955561 and in part by the Office of Naval Research (ONR) under Grant N00014-21-1-2472. 2022-11-01T02:25:02Z 2022-11-01T02:25:02Z 2022 Journal Article Zhang, W., Dong, M. & Kim, T. (2022). MMV-based sequential AoA and AoD estimation for millimeter wave MIMO channels. IEEE Transactions On Communications, 70(6), 4063-4077. https://dx.doi.org/10.1109/TCOMM.2022.3168886 0090-6778 https://hdl.handle.net/10356/162605 10.1109/TCOMM.2022.3168886 2-s2.0-85128677002 6 70 4063 4077 en IEEE Transactions on Communications © 2022 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Millimeter Wave Communications Compressed Sensing Zhang, Wei Dong, Miaomiao Kim, Taejoon MMV-based sequential AoA and AoD estimation for millimeter wave MIMO channels |
| description |
The fact that the millimeter-wave (mmWave) multiple-input multiple-output (MIMO) channel has sparse support in the spatial domain has motivated recent compressed sensing (CS)-based mmWave channel estimation methods, where the angles of arrivals (AoAs) and angles of departures (AoDs) are quantized using angle dictionary matrices. However, the existing CS-based methods usually obtain the estimation result through one-stage channel sounding that have two limitations: (i) the requirement of large-dimensional dictionary and (ii) unresolvable quantization error. These two drawbacks are irreconcilable; improvement of the one implies deterioration of the other. To address these challenges, we propose, in this paper, a two-stage method to estimate the AoAs and AoDs of mmWave channels. In the proposed method, the channel estimation task is divided into two stages, Stage I and Stage II. Specifically, in Stage I, the AoAs are estimated by solving a multiple measurement vectors (MMV) problem. In Stage II, based on the estimated AoAs, the receive sounders are designed to estimate AoDs. The dimension of the angle dictionary in each stage can be reduced, which in turn reduces the computational complexity substantially. We then analyze the successful recovery probability (SRP) of the proposed method, revealing the superiority of the proposed framework over the existing one-stage CS-based methods. We further enhance the reconstruction performance by performing resource allocation between the two stages. We also overcome the unresolvable quantization error issue present in the prior techniques by applying the atomic norm minimization method to each stage of the proposed two-stage approach. The simulation results illustrate the substantially improved performance with low complexity of the proposed two-stage method. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhang, Wei Dong, Miaomiao Kim, Taejoon |
| format |
Article |
| author |
Zhang, Wei Dong, Miaomiao Kim, Taejoon |
| author_sort |
Zhang, Wei |
| title |
MMV-based sequential AoA and AoD estimation for millimeter wave MIMO channels |
| title_short |
MMV-based sequential AoA and AoD estimation for millimeter wave MIMO channels |
| title_full |
MMV-based sequential AoA and AoD estimation for millimeter wave MIMO channels |
| title_fullStr |
MMV-based sequential AoA and AoD estimation for millimeter wave MIMO channels |
| title_full_unstemmed |
MMV-based sequential AoA and AoD estimation for millimeter wave MIMO channels |
| title_sort |
mmv-based sequential aoa and aod estimation for millimeter wave mimo channels |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162605 |
| _version_ |
1749179176962752512 |