Your search keyword '"Hoang, Tran Manh"' showing total 6 results

1. Analysis of secrecy outage performance for full duplex NOMA relay systems with appearance of multiple eavesdroppers.

Author

Cuong, Nguyen Le, Hoang, Tran Manh, Phuong, Nguyen Thu, and Hiep, Pham Thanh

Subjects

*MONTE Carlo method, *MATHEMATICAL analysis, *TRANSMITTING antennas, *SYMBOL error rate, *SEARCH algorithms, *NUMBER systems, *ERROR probability, *ELECTRIC power failures

Abstract

Full-duplex (FD) relay systems including a transmit antenna selection and a non-orthogonal multiple access (NOMA) methods are analyzed under presence of multiple eavesdroppers. A channel state information of both the considered system and eavesdroppers is assumed to be outdated and eavesdroppers eavesdrop information signals independently. A closed-form of secure outage probability (SOP), secrecy throughput of every user is derived to evaluate the secrecy performance, and the mathematical analysis approach is verified by the Monte-Carlo simulation. Furthermore, the Golden-Section Search algorithm is proposed to find the maximum of the secrecy throughput of the considered FD-NOMA system. Numerical results indicate that there exists the SOP floor in the considered system and it is constrained by the channel gain of near user. Moreover, there is the optimal signal to interference plus noise ratio value which minimizes the SOP of the system regardless of the number of eavesdroppers. In comparison with half-duplex NOMA model, the SOP of FD-NOMA model is better. [ABSTRACT FROM AUTHOR]

Published

2022

2. Exploiting Multiple RISs and Direct Link for Performance Enhancement of Wireless Systems With Hardware Impairments.

Author

Tran, Phuong T., Nguyen, Ba Cao, Hoang, Tran Manh, Le, Xuan Hung, and Nguyen, Van Duan

Subjects

WIRELESS channels, ERROR probability, DATA transmission systems, RADIO technology, HARDWARE, COGNITIVE radio

Abstract

In this paper, the performance of a wireless system, which is beneficial from utilization of multiple reconfigurable intelligent surfaces (RISs) and the direct link between the source node and the mobile user, is analyzed. Especially, the effect of transceiver hardware impairments (HIs) are taken into consideration. We successfully derive the outage probability (OP), throughput, achievable data rate (ADR), and symbol error probability (SEP) expressions of this multiple-RIS assisted wireless systems with and without HIs (referred as RIS-HI and RIS-ID system, respectively) over Nakagami- $m$ fading channels. The above performance factors are also benchmarked with the case that only a point-to-point (P2P) link without RIS is considered (denotes as as P2P-HI and P2P-ID systems for HI and ideal hardware conditions, respectively). All obtained formulas are verified by Monte-Carlo simulations. It is observed that the RIS-HI system significantly outperforms the P2P-HI system at low transmit power regime, while the performance of the RIS-ID system is always better than that of P2P-ID system. On the other hand, HIs show more severe effect for higher data transmission rates or high modulation orders. [ABSTRACT FROM AUTHOR]

Published

2022

3. Evaluating the Performance of Full-Duplex Energy Harvesting Vehicle-to-Vehicle Communication System over Double Rayleigh Fading Channels.

Author

Nguyen, Ba Cao, Hoang, Tran Manh, Tran, Xuan Nam, Pham, Xuan Nghia, and Dung, Le The

Subjects

*ENERGY harvesting, *TELECOMMUNICATION systems, *RAYLEIGH fading channels, *ERROR probability, *RAYLEIGH model, *POWER transmission

Abstract

In this paper, we analyze the performance of vehicle-to-vehicle (V2V) communication system, which employs full-duplex (FD) and energy harvesting (EH) techniques at source and relay nodes from power beacon (PB) through radio frequency. Unlike previous systemswhere all nodes located at fixed locations, we investigate the case that three nodes (source, relay,and destination) are moving vehicles. Therefore, the channels between them follow double (cascade) Rayleigh fading distributions. Furthermore, the source and relay nodes can harvest the energy from PB for data transmission when they move on the road. We derive the exact expressions of the outage probability (OP) and symbol error probability (SEP) of the proposed system and then intensively study the impacts of various parameters such as the number transmission antennas of PB, the time duration for EH, the distances between nodes, and the residual self-interference (RSI) at the FD relay node on the system performance. Monte-Carlo simulations validate all theory analysis. Numerical results show that system performance is strongly impacted by the number of transmission antennas of the power beacon, the EH duration, the RSI, and the distances between nodes. Moreover, for a given transmission of power beacon and the SIC capability of the FD relay node, there exist optimal EH duration and optimal distance from the source to relay, which provide the best system performance. [ABSTRACT FROM AUTHOR]

Published

2021

4. On the Performance of MIMO Full-Duplex Relaying System With SWIPT Under Outdated CSI.

Author

Hoang, Tran Manh, Tran, Xuan Nam, Nguyen, Ba Cao, and Dung, Le The

Subjects

*WIRELESS power transmission, *RAYLEIGH fading channels, *TRANSMITTING antennas, *ERROR probability, *ENERGY harvesting, *RADIO frequency

Abstract

In this paper, we propose a full-duplex (FD) relaying system with multi-input multi-output (MIMO) with simultaneous wireless information and power transfer (SWIPT), where the communication from source to destination is assisted by a full-duplex decode-and-forward (DF) relay. The time switching (TS) protocol is used at the relay to harvest the energy of radio-frequency (RF) signals transmitted from the source. To improve both system performance and the amount of harvested energy, multiple antennas are used at source and destination. Transmit antenna selection (TAS) is employed at the source with an assumption that the feedback of channel state information (CSI) is outdated. Meanwhile, both selection combining (SC) and maximal ratio combining (MRC) techniques are applied at the destination. The closed-form expressions of the outage probability (OP), optimal throughput, and symbol error probability (SEP) are derived subject to the outdated CSI over Rayleigh fading channels. We also make a comparison between the performance of the proposed MIMO-FD relaying system with SWIPT and that of MIMO half-duplex (HD) relaying systems with and without SWIPT. The validity of derived mathematical expressions is verified by Monte-Carlo simulations. Numerical results show that the TAS/MRC scheme gives better system performance than the TAS/SC scheme. Moreover, higher energy harvesting time is needed to maximize the throughput than to minimize the OP. [ABSTRACT FROM AUTHOR]

Published

2020

5. Performance and optimal analysis of time-switching energy harvesting protocol for MIMO full-duplex decode-and-forward wireless relay networks with various transmitter and receiver diversity techniques.

Author

Hoang, Tran Manh, Nguyen, Ba Cao, Thang, Nguyen Nhu, Tran, Minh, and Tran, Phuong T.

Subjects

*TRANSMITTERS (Communication), *ENERGY harvesting, *RAYLEIGH fading channels, *TRANSMITTING antennas, *ERROR probability, *RADIO frequency

Abstract

In this paper, we consider a wireless multiple-input multiple-output (MIMO) full-duplex relaying (FDR) network, where a source node communicates with a destination node via the help of a decode-and-forward (DF) relay node. This relay node has the capability of harvesting the energy from radio frequency (RF) signals, in particular, from the source node via time-switching energy harvesting protocol. To enhance the quality of transmission, diversity techniques are applied at both transmitter and receiver. Specifically, transmit antenna selection (TAS) and maximal ratio transmission (MRT) schemes are employed at the transmitter, while both selection combining (SC) and maximal ratio combining (MRC) techniques are considered at the destination node. The main contribution of this paper is an in-depth performance and optimal analysis of the time-switching energy harvesting (EH) protocol by deriving the closed-form expressions of outage probability (OP), system throughput, and symbol error probability (SEP) of the considered system over Rayleigh fading channel and then solving the optimization problem of EH duration, where the instantaneous throughput is used as the objective function. It is also shown in this paper that although a portion of signal is used for power transfer, the obtained diversity gain of this system is still equal to the minimum number of the antennas configured at the source or at the destination. Finally, numerical results are presented to demonstrate the validity of our analysis and to show the advantages of MIMO-FDR system with RF EH. [ABSTRACT FROM AUTHOR]

Published

2020

6. Improving the performance of wireless half-duplex and full-duplex relaying networks with intelligent reflecting surface.

Author

Nguyen, Ba Cao, Pham, Trung Q., Thang, Nguyen Nhu, Hoang, Tran Manh, and Tran, Phuong T.

Subjects

*RAYLEIGH fading channels, *INTELLIGENT networks, *RADIO transmitter fading, *WIRELESS communications, *ERROR probability

Abstract

In this paper, an intelligent reflecting surface (IRS), which consists of L reflecting elements (REs), is utilized to improve the coverage and reliability of half-duplex relaying (HDR) and full-duplex relaying (FDR) wireless communication systems. We provide a rigorous analysis on the system performance, which is represented by the exact form expressions of outage probability (OP), symbol error probability (SEP), and ergodic capacity (EC), of the HDR-IRS and FDR-IRS systems over Rayleigh fading channels. All derived expressions are validated by Monte-Carlo simulations. It is shown that IRS can significantly improve the performance of HDR and especially FDR networks, in which IRS can suppress the impact of the loopback interference at the relay. [ABSTRACT FROM AUTHOR]

Published

2023