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20 results on '"Kha, Ha Hoang"'

1. On proportional fairness of uplink spectral efficiency in cell-free massive MIMO systems

Author

Pham, Viet Quoc, Kha, Ha Hoang, and Khanh, Le Ty

Subjects
Computer Science - Information Theory, Mathematics - Optimization and Control
Abstract

This paper is concerned with the proportional fairness (PF) of the spectral efficiency (SE) maximization of uplinks in a cell-free (CF) massive multiple-input multiple-output (MIMO) system in which a large number of single-antenna access points (APs) connected to a central processing unit (CPU) serve many single-antenna users. To detect the user signals, the APs use matched filters based on the local channel state information while the CPU deploys receiver filters based on knowledge of channel statistics. We devise the maximization problem of the SE PF, which maximizes the sum of the logarithm of the achievable user rates, as a jointly nonconvex optimization problem of receiver filter coefficients and user power allocation subject to user power constraints. To handle the challenges associated with the nonconvexity of the formulated design problem, we develop an iterative algorithm by alternatively finding optimal filter coefficients at the CPU and transmit powers at the users. While the filter coefficient design is formulated as a generalized eigenvalue problem, the power allocation problem is addressed by a gradient projection (GP) approach. Simulation results show that the SE PF maximization not only offers approximately the achievable sum rates as compared to the sum-rate maximization but also provides an improved trade-off between the user rate fairness and the achievable sum rate., Comment: The article was published in International Journal of Communication Systems, volume 33, issue 14; 25 September 2020; https://doi.org/10.1002/dac.4534

Published
2021
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2. Deep Learning for Uplink Spectral Efficiency in Cell-Free Massive MIMO Systems

Author

Khanh, Le Ty, Viet, Pham Quoc, Kha, Ha Hoang, and Hoang, Nguyen Minh

Subjects
Computer Science - Information Theory, Mathematics - Optimization and Control
Abstract

In this paper, we introduce a Deep Neural Network (DNN) to maximize the Proportional Fairness (PF) of the Spectral Efficiency (SE) of uplinks in Cell-Free (CF) massive Multiple-Input Multiple-Output (MIMO) systems. The problem of maximizing the PF of the SE is a non-convex optimization problem in the design variables. We will develop a DNN which takes pilot sequences and large-scale fading coefficients of the users as inputs and produces the outputs of optimal transmit powers. By consisting of densely residual connections between layers, the proposed DNN can efficiently exploit the hierarchical features of the input and motivates the feed-forward nature of DNN architecture. Experimental results showed that, compared to the conventional iterative optimization algorithm, the proposed DNN has excessively lower computational complexity with the trade-off of approximately only 1% loss in the sum rate and the fairness performance. This demonstrated that our proposed DNN is reasonably suitable for real-time signal processing in CF massive MIMO systems.

Published
2021
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3. Joint Optimization of Execution Latency and Energy Consumption for Mobile Edge Computing with Data Compression and Task Allocation

Author

Ly, Minh Hoang, Dinh, Thinh Quang, and Kha, Ha Hoang

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Information Theory
Abstract

In this paper, we consider the mobile edge offloading scenario consisting of one mobile device (MD) with multiple independent tasks and various remote edge devices. In order to save energy, the user's device can offload the tasks to available access points for edge computing. Data compression is applied to reduce offloaded data size prior to wireless transmission to minimize the execution latency. The problem of jointly optimizing the task allocation decision and the data compression ratio to minimize the total tasks' execution latency and the MD's energy consumption concurrently is proposed. We show that the design problem is a non-convex optimization one but it can be transformed into a convex one through a semidefinite relaxation (SDR) based approach. Numerical simulations demonstrate the outperformance of the proposed scheme compared to the benchmark one., Comment: ISEE 2019

Published
2019

4. Particle Swarm Optimization for Weighted Sum Rate Maximization in MIMO Broadcast Channels

Author

Vu, Tung T., Kha, Ha Hoang, Duong, Trung Q., and Vo, Nguyen-Son

Subjects
Computer Science - Information Theory, Computer Science - Neural and Evolutionary Computing, Mathematics - Optimization and Control
Abstract

In this paper, we investigate the downlink multiple-input-multipleoutput (MIMO) broadcast channels in which a base transceiver station (BTS) broadcasts multiple data streams to K MIMO mobile stations (MSs) simultaneously. In order to maximize the weighted sum-rate (WSR) of the system subject to the transmitted power constraint, the design problem is to find the pre-coding matrices at BTS and the decoding matrices at MSs. However, such a design problem is typically a nonlinear and nonconvex optimization and, thus, it is quite hard to obtain the analytical solutions. To tackle with the mathematical difficulties, we propose an efficient stochastic optimization algorithm to optimize the transceiver matrices. Specifically, we utilize the linear minimum mean square error (MMSE) Wiener filters at MSs. Then, we introduce the constrained particle swarm optimization (PSO) algorithm to jointly optimize the precoding and decoding matrices. Numerical experiments are exhibited to validate the effectiveness of the proposed algorithm in terms of convergence, computational complexity and total WSR., Comment: submitted to Wireless Personal Communications

Published
2015

5. Interference Alignment Designs for Secure Multiuser MIMO Systems: Rank Constrained Rank Minimization Approach

Author

Vu, Tung T., Kha, Ha Hoang, and Duong, Trung Q.

Subjects
Computer Science - Information Theory, Mathematics - Optimization and Control
Abstract

In this paper, we formulate the interference alignment (IA) problem for a multiuser multiple-input multiple-output (MIMO) system in the presence of an eavesdropper as a rank constrained rank minimization (RCRM) problem. The aim of the proposed rank minimization IA schemes is to find the precoding and receiver subspace matrices to align interference and wiretapped signals into the lowest dimension subspaces while keeping the desired signal subspace spanning full available spatial dimensions. To deal with the nonconvexity of the rank function, we present two convex relaxations of the RCRM problem, namely nuclear norm (NN) and reweighted nuclear norm (RNN), and transform the rank constraints to equivalent and tractable ones. We then derive a coordinate decent approach to obtain the solutions for IA schemes. The simulation results show that our proposed IA designs outperform the conventional IA design in terms of average secrecy sum rate. On the other hand, our proposed designs perform the same or better than other secure IA schemes which account for low interference and wiretapped signal power rather than for low dimensions of interference and wiretapped signal matrices in the systems which achieve the perfect IA., Comment: submitted to the 3rd international conference on Computing, Management and Telecommunications (ComManTel 2015)

Published
2015

6. Wiretapped Signal Leakage Minimization for Secure Multiuser MIMO Systems via Interference Alignment

Author

Vu, Tung T., Kha, Ha Hoang, Duong, Trung Q., and Vo, Nguyen-Son

Subjects
Computer Science - Information Theory, Mathematics - Optimization and Control
Abstract

In this paper, interference alignment (IA) is designed for secure multiuser multiple-input multiple-output systems in the presence of an eavesdropper. The proposed IA technique designs the transmit precoding and receiving subspace matrices to minimize both the total inter-main-link interference and the wiretapped signals. With perfect channel state information is known at the transmitters (Txs), the cost function of the optimization problem is alternatively minimized over the precoding matrices at the Txs and the receiving subspace matrices at the receivers (Rxs) and the eavesdropper. The feasible condition, the proof of convergence of the proposed IA approach are provided. Numerical results reveal a significant improvement in terms of average secrecy sum rate of our IA algorithm as compared to the conventional IA design., Comment: submitted to the international conference on Advanced Technologies for Communications (ATC) 2015

Published
2015

13. Interference Mitigation and Sum Rate Optimization for MIMO Downlink Small Cells

Author

Kha, Ha Hoang and Kha, Ha Hoang

Abstract

This paper addresses interference issues in multiuser multiple-input multiple-output (MIMO) downlink heterogeneous networks in which multiple small cells are deployed in macrocell coverage. With the higher priority to access the frequency bands, the macro base station (MBS) will exploit eigenmode transmission along with water-filling based power allocation to maximize its data rate. To avoid harmful interference to macro users, we propose structures of the precoders at the small cell BSs (SBSs) as cascades of two precoding matrices. In addition, to mitigate intra-tier inference in small cells, the SBSs exploit the user scheduling schemes for their associated users. We investigate two user scheduling schemes using the minimum interference leakage and maximum signal to noise ratio criteria. The sum rate of the selected users can be further improved by power allocation. We develop an iterative algorithm using difference of convex functions (d.c.) programming to tackle the mathematical challenges of the nonconvex power allocation problem, Numerical simulation results show that the proposed strategy outperforms the conventional methods in terms of the achievable sum rate.

Published
2016

14. Editorial: Message from the ComManTel 2015 Chairs

Author

Anh, Phan, Ben Letaief, Khaled, Co, Le Cong, Duong, Trung Q., Nasser, Nidal, Duc, Nguyen Minh, Shen, Sherman, Bao, Vo Nguyen Quoc, Kha, Ha Hoang, Nallanathan, Arumugam, Anh, Phan, Ben Letaief, Khaled, Co, Le Cong, Duong, Trung Q., Nasser, Nidal, Duc, Nguyen Minh, Shen, Sherman, Bao, Vo Nguyen Quoc, Kha, Ha Hoang, and Nallanathan, Arumugam

Published
2015

19. Debye Parameter Extraction for Characterizing Interaction of Terahertz Radiation With Human Skin Tissue.

Author

Truong, Bao C. Q., Tuan, Hoang Duong, Kha, Ha Hoang, and Nguyen, Hung T.

Subjects
DEBYE length, SUBMILLIMETER waves, SKIN, DIELECTRICS, GLOBAL optimization, PERMITTIVITY, SIMULATION methods & models
Abstract

This paper is concerned with parameter extraction for the double Debye model, which is used for analytically determining human skin permittivity. These parameters are thought to be the origin of contrast in terahertz (THz) images of skin cancer. The existing extraction methods could generate Debye models, which track their measurements accurately at frequencies higher than 1 THz but poorly at lower frequencies, where the majority of permittivity contrast between healthy and diseased skin tissues is actually observed. We propose a global optimization-based parameter extraction, which results in globally accurate tracking and thus supports the full validity of the Debye model for simulating human skin permittivity in the whole usable THz frequencies. Numerical results confirm viability of our novel methodology. [ABSTRACT FROM PUBLISHER]

Published
2013
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20. Efficient Design of Cosine-Modulated Filter Banks via Convex Optimization.

Author

Kha, Ha Hoang, Tuan, Hoang Duong, and Nguyen, Truong Q.

Subjects
*MATHEMATICAL optimization, *CONVEX geometry, *FILTERS (Mathematics), *MATHEMATICAL programming, *ITERATIVE methods (Mathematics), *DATA compression, *ELECTRONIC modulation, *ALGORITHMS, *BANDWIDTHS
Abstract

This paper presents efficient approaches for designing cosine-modulated filter banks with linear phase prototype filter. First, we show that the design problem of the prototype filter being a spectral factor of 2Mth-band filter is a nonconvex optimization problem with low degree of nonconvexity. As a result, the non-convex optimization problem can be cast into a semi-definite programming (SDP) problem by a convex relaxation technique. Then the reconstruction error is further minimized by an efficient iterative algorithm in which the closed-form expression is given in each iteration. Several examples are given to illustrate the effectiveness of the proposed method over the existing ones. [ABSTRACT FROM AUTHOR]

Published
2009
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