Low complexity interference alignment algorithms for desired signal power maximization problem of MIMO channels

Sun, Cong; Yang, Ye; Yuan, Ya-xiang

doi:10.1186/1687-6180-2012-137

Cited by 16 publications

(16 citation statements)

References 12 publications

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“…Shown in simulations, the consideration of P S provides significant improvement of system sum rate. In [12] similar techniques are used. First C is set as a small positive scalar (for example C = 1), then after each iteration we update it as…”

Section: B Problem Reformulationmentioning

confidence: 99%

“…Because the computational complexity of the SQP algorithm is only O(n 3 ) while the Semi-definite Programming (SDP) relaxation algorithm [9] requires O(n 6 ), with n as the dimension of the variable x, we use SQP rather than SDP to solve (12). Although SQP algorithm can only guarantee to achieve a local optimal solution, we start the algorithm from the previous feasible precoder, to get sufficient reduction of the objective function value.…”

Section: Alternating Minimization Algorithmmentioning

confidence: 99%

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Low complexity high throughput algorithms for MIMO AF relay networks

Sun¹,

Jorswieck

2013

2013 IEEE International Conference on Communications (ICC)

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A multiple-antenna amplify-and-forward (AF) twohop interference network with multiple links and multiple relays is considered. We optimize transmit precoders, receive decoders and relay AF matrices to maximize the achievable sum rate. Two constraint sets are discussed: first, individual per user and total relay sum power constraints. We propose an algorithm to maximize the total signal to total interference plus noise ratio (TSTINR). Second, this algorithm is extended to individual user and individual relay fixed transmit power constraints. Additionally, we derive algorithms for the total leakage interference plus noise (TLIN) minimization and the weighted minimum mean square error (WMMSE) approach to sum rate maximization. Interestingly, our simulations show that, for both constraint sets, our TSTINR algorithm outperforms the TLIN algorithm generally and outperforms WMMSE in medium to high Signal-to-Noise-Ratio (SNR) scenarios, while TSTINR and TLIN requires less computing time than WMMSE generally.Index Terms-MIMO relay networks, individual power constraints, alternating iteration, sequential quadratic programming.

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Section: B Problem Reformulationmentioning

confidence: 99%

Section: Alternating Minimization Algorithmmentioning

confidence: 99%

Low complexity high throughput algorithms for MIMO AF relay networks

Sun¹,

Jorswieck

2013

2013 IEEE International Conference on Communications (ICC)

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“…To investigate the complexity of the proposed algorithm, we follow the approach in [40] and use the number of complex multiplications as the complexity criterion to evaluate the proposed algorithms. For the sake of simplicity we consider a symmetric network where d k = d, n D k = n D , and n S k = n S , ∀k ∈ {1, ..., K}.…”

Section: Algorithm 2 Transceiver Design and Power Control: One-bit Fementioning

confidence: 99%

Distributed Transceiver Design and Power Control for Wireless MIMO Interference Networks

Farhadi

Wang

Skoglund

2015

IEEE Trans. Wireless Commun.

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This paper considers distributed transceiver design and power control for K-user multiple input multiple output (MIMO) interference networks. Each source intends to send multiple independent data streams to its corresponding destination where the number of data streams coincides with the degrees of freedom of the network. Each data stream is encoded at a fixed data rate while different streams can be encoded at possibly different rates. We assume that only local channel side information (i.e., knowledge related to channels directly connected to a terminal) can be acquired by each terminal. We propose iterative algorithms to perform both power control and transceiver design. Transmitter beamforming matrices and receiver filtering matrices are designed to maximize signalto-interference-plus-noise ratio (SINR) corresponding to each stream, and a power control scheme is performed to assign the minimum power to each encoded data stream such that successful communication can be guaranteed. The proposed algorithms exhibit a substantial performance improvement compared to the conventional orthogonal transmission schemes.

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“…With Interference Alignment (IA) technique [4], we are able to eliminate the interference and achieve the required DoFs. In MIMO networks, IA technique as well as the IA algorithms have been deeply investigated [5][6][7][8]. There are also some related works for two-hop networks.…”

Section: Introductionmentioning

confidence: 99%

Multi-stream sum rate maximization for MIMO af relay networks

Sun¹,

Jorswieck

2013

2013 IEEE International Conference on Acoustics, Speech and Signal Processing

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We consider a multiple-antenna amplify-and-forward (AF) two-hop interference network with multiple links and multiple relays. Transmit precoders, receive decoders and relay AF matrices are optimized with the purpose to maximize the system sum rate. By pointing out that the existing models all lead to single data stream transmission for each user, we propose a novel multiple stream model. We maximize the Total Signal to Total Interference plus Noise Ratio (TSTINR), with the requirement of orthogonal columns of precoders and total relay transmit power constraint. An efficient algorithm is proposed to solve the corresponding problem. Simulations show that the system sum rate significantly benefits from multiple data streams in medium to high SNR scenarios.Index Terms-MIMO relay network, total signal to total interference plus noise ratio, multiple stream, alternating iteration

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Low complexity interference alignment algorithms for desired signal power maximization problem of MIMO channels

Cited by 16 publications

References 12 publications

Low complexity high throughput algorithms for MIMO AF relay networks

Low complexity high throughput algorithms for MIMO AF relay networks

Distributed Transceiver Design and Power Control for Wireless MIMO Interference Networks

Multi-stream sum rate maximization for MIMO af relay networks

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