Your search keyword '"Caijun Zhong"' showing total 20 results

1. RIS-Assisted Multi-User MISO Communications Exploiting Statistical CSI

Author

Chongwen Huang, Xu Gan, Caijun Zhong, and Zhaoyang Zhang

Subjects

Beamforming, business.industry, Computer science, Multi-user, Channel state information, Rician fading, Telecommunications link, Electronic engineering, Wireless, Ergodic theory, Electrical and Electronic Engineering, business, Computer Science::Information Theory, Power control

Abstract

Reconfigurable intelligent surface (RIS) is a promising solution to build a programmable wireless environment with reconfigurable passive elements, which can achieve high spectral and energy efficiency. In this paper, we investigate the ergodic capacity of RIS-assisted multi-user multiple-input single-output (MISO) wireless systems in both uplink and downlink scenarios. Unlike most of prior works, where instantaneous channel state information (CSI) is assumed, we consider the realistic scenario with only statistical CSI. For both scenarios, we first present an analytical expressions for the ergodic sum capacity of the system. Based on which, the joint power control (or transmit beamforming) and phase shift design problem maximizing the ergodic sum capacity is formulated. Capitalizing on the alternating direction method of multipliers (ADMM), fractional programming (FP) and alternating optimization (AO) methods, efficient suboptimal solutions are obtained for the non-convex design problems. Simulation results are presented to validate the accuracy of the analytical ergodic sum capacity expressions and evaluate the impact of key system parameters such as CSI, Rician $K$ factor, number of RIS elements, and RIS location on the ergodic capacity performance. The findings suggest that the proposed statistical CSI design achieves decent performance compared with the instantaneous CSI based design. Moreover, a signal hot spot can be created when placing the RIS close to the users.

Published

2021

2. Location Information Aided Multiple Intelligent Reflecting Surface Systems

Author

Xiaoling Hu, Yu Zhang, Xiaoming Chen, Caijun Zhong, and Zhaoyang Zhang

Subjects

Signal Processing (eess.SP), FOS: Computer and information sciences, Power gain, Computer science, business.industry, Computer Science - Information Theory, Information Theory (cs.IT), Order (ring theory), Signal-to-interference-plus-noise ratio, 020206 networking & telecommunications, 020302 automobile design & engineering, 02 engineering and technology, Interference (wave propagation), Topology, Non-line-of-sight propagation, Base station, 0203 mechanical engineering, FOS: Electrical engineering, electronic engineering, information engineering, 0202 electrical engineering, electronic engineering, information engineering, Wireless, Electrical Engineering and Systems Science - Signal Processing, Electrical and Electronic Engineering, Antenna (radio), business

Abstract

This paper proposes a novel location information aided multiple intelligent reflecting surface (IRS) systems. Assuming imperfect user location information, the effective angles from the IRS to the users are estimated, which is then used to design the transmit beam and IRS beam. Furthermore, closed-form expressions for the achievable rate are derived. The analytical findings indicate that the achievable rate can be improved by increasing the number of base station (BS) antennas or reflecting elements. Specifically, a power gain of order $N M^2$ is achieved, where $N$ is the antenna number and $M$ is the number of reflecting elements. Moreover, with a large number of reflecting elements, the individual signal to interference plus noise ratio (SINR) is proportional to $M$, while becomes proportional to $M^2$ as non-line-of-sight (NLOS) paths vanish. Also, it has been shown that high location uncertainty would significantly degrade the achievable rate. Besides, IRSs should be deployed at distinct directions (relative to the BS) and be far away from each other to reduce the interference from multiple IRSs. Finally, an optimal power allocation scheme has been proposed to improve the system performance., Comment: Accepted to appear in IEEEE Transactions on Communications

Published

2020

3. Optimization and Analysis of Wireless Powered Multi-Antenna Two-Way Relaying Systems

Author

Caijun Zhong, Zhaoyang Zhang, Hai Lin, Han Liang, and Yonghui Li

Subjects

Beamforming, Computer science, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, 020206 networking & telecommunications, 020302 automobile design & engineering, Data_CODINGANDINFORMATIONTHEORY, 02 engineering and technology, Topology, law.invention, 0203 mechanical engineering, Relay, law, Computer Science::Networking and Internet Architecture, 0202 electrical engineering, electronic engineering, information engineering, Wireless, Electrical and Electronic Engineering, Antenna (radio), business, Energy source, Wireless sensor network, Energy (signal processing), Computer Science::Information Theory

Abstract

We consider a wireless powered two-way relaying system consisting of two energy constrained single antenna sources and one multi-antenna relay with constant power supply. The time division protocol is adopted, where the relay first acts as the energy source and employs energy beamforming to charge the two sources, and then switches its role as a relay to help forward the information to the sources. To maintain user fairness, we aim to maximize the minimum rate of two sources, by jointly optimizing the energy beamforming vector, time splitting factor and relay transformation matrix. To further reduce the complexity of the optimal algorithm, we propose an alternating optimization method, where closed-form expressions for the energy beamforming and time splitting factor are obtained. To gain more insights, we propose a simple suboptimal design and analyze the outage probability and the average rate when the relay applies simple energy beamforming and transformation matrix. The analysis shows that the system can achieve a diversity order of $\frac {N}{3}$ for a system with a relay of $N$ antennas. Numerical results show that the performance of the proposed low-complexity alternating optimization method approaches the optimal algorithm over the entire SNR range, but has a significantly low complexity, and the proposed suboptimal design can also achieves a decent performance especially in small $N$ regime.

Published

2020

4. Asymptotic Secrecy Outage Performance for TAS/MRC Over Correlated Nakagami-${m}$ Fading Channels

Author

Julian Cheng, Caijun Zhong, Jiangbo Si, and Zan Li

Subjects

021110 strategic, defence & security studies, 0211 other engineering and technologies, 020206 networking & telecommunications, Nakagami distribution, 02 engineering and technology, Topology, Correlation, Conditional independence, Secrecy, 0202 electrical engineering, electronic engineering, information engineering, Fading, Maximal-ratio combining, Electrical and Electronic Engineering, Antenna (radio), Communication channel, Mathematics

Abstract

In this paper, considering both the antenna correlation and the channel correlation between the legitimate receiver and the eavesdropper, we comprehensively investigate the secrecy performance for transmit antenna selection and maximal ratio combining (TAS/MRC) scheme in a multi-input multi-output multi-antenna eavesdropper (MIMOME) system. Different from the existing works, the correlated legitimate channels and correlated eavesdropper channels experience Nakagmai- ${m}$ fading with distinct fading parameters, and are modeled as a combination of conditionally independent channel gains and independent channel gains. By this novel correlation representation, the combined effect of antenna correlation and channel correlation between the legitimate receiver and the eavesdropper on secrecy performance is quantified via the secrecy outage probability (SOP) under a more general fading circumstance. In addition, two special cases of correlated channels are addressed in detail. Finally, simulations are performed to verify our analysis. The analysis and simulation results show that at high signal-to-noise ratio (SNR), antenna correlation at the legitimate receiver can improve the SOP performance for the correlated MIMOME wiretap channels, and this finding is contrary to the conventional wisdom that antenna correlation degrades the SOP performance.

Published

2019

5. Cell-Free Massive MIMO Systems With Low Resolution ADCs

Author

Xiaoming Chen, Xiaoling Hu, Caijun Zhong, Weiqiang Xu, Hai Lin, and Zhaoyang Zhang

Subjects

Computer science, Low resolution, Resolution (electron density), MIMO, 020206 networking & telecommunications, 020302 automobile design & engineering, 02 engineering and technology, Expression (mathematics), Constraint (information theory), 0203 mechanical engineering, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Antenna (radio), Algorithm, Power control

Abstract

This paper investigates the achievable performance of cell-free massive multiple-input multiple-output (MIMO) systems with low resolution analog-to-digital converters (ADCs) at both the access points (APs) and users. A closed-form expression for the achievable rate is derived, which enables the study of the effects of AP number, antenna number per AP, user number, and ADC resolution on the achievable rate. In addition, a simple asymptotic approximation for the individual user rate is presented, which shows that the user rate is mainly constrained by the ADC resolution at the user. Moreover, we propose an ADC resolution bits allocation scheme aiming at maximizing the sum rate subject to the total ADC resolution bits constraint, which substantially outperforms the equal ADC resolution bits allocation scheme. Furthermore, a max–min power control scheme is proposed, which not only ensures user fairness, but also improves the achievable rate. Finally, simulation results are provided to corroborate the analytical results.

Published

2019

6. Unsourced Massive Random Access Scheme Exploiting Reed-Muller Sequences

Author

Jue Wang, Zhaoyang Zhang, Xiaoming Chen, Caijun Zhong, and Lajos Hanzo

Subjects

Electrical and Electronic Engineering

Abstract

The challenge in massive Machine Type Communication (mMTC) is to support reliable and instant access for an enormous number of machine-type devices (MTDs). In some particular applications of mMTC, the access point (AP) only has to know the messages received, but not where they source from, thus giving rise to the concept of unsourced random access (URA). In this paper, we propose a novel URA scheme exploiting the elegant properties of Reed-Muller (RM) sequences. Specifically, after dividing the message of an active user into several information chunks, RM sequences are used to carry those chunks, for exploiting the vast sequence space to improve the spectral efficiency, and their nested structure to enable reliable and efficient sequence detection. Next, we further explore a novel structural property of RM sequences for designing sparse patterns which carry part of the information and serve as the hints of coupling the information chunks of a single user. The factors affecting the performance of our slot-based RM detection are characterized. Besides, the complexity of the proposed message stitching method is analyzed and compared to the commonly used tree coding approach. Our simulation results verify the enhanced performance of the proposed URA scheme in error probability and computational complexity compared to the existing counterpart.

Published

2021

7. Fully Non-Orthogonal Communication for Massive Access

Author

Derrick Wing Kwan Ng, Xiaoming Chen, Caijun Zhong, Zhaoyang Zhang, and Rundong Jia

Subjects

Computer science, business.industry, Wireless network, 05 social sciences, MIMO, 050801 communication & media studies, 020206 networking & telecommunications, 02 engineering and technology, Spectral efficiency, Transmitter power output, Upper and lower bounds, Base station, 0508 media and communications, Computer engineering, Channel state information, 0202 electrical engineering, electronic engineering, information engineering, Mobile telephony, Electrical and Electronic Engineering, business, Communication channel

Abstract

To achieve spectral-efficient massive access in future wireless networks, this paper proposes a comprehensive fully non-orthogonal communication framework. First, we design a fully non-orthogonal communication scheme which consists of non-orthogonal channel estimation and non-orthogonal multiple access. Then, we analyze the performance of the proposed fully non-orthogonal communication, and derive a tight lower bound on the spectral efficiency in terms of key system parameters and channel conditions. Meanwhile, several novel insights are provided on spectral efficiency via asymptotic analysis in three important cases, i.e., a large number of base station (BS) antennas, a high BS transmit power, and perfect channel state information (CSI) at the BS. Finally, we optimize the performance of the proposed fully non-orthogonal communication and present two simple but efficient optimization algorithms for maximizing the weighted sum of spectral efficiency. Extensive simulation results validate the effectiveness of the proposed schemes.

Published

2018

8. On the Capacity of Wireless Powered Communication Systems Over Rician Fading Channels

Author

George K. Karagiannidis, Zhaoyang Zhang, Zoran Hadzi-Velkov, Caijun Zhong, Feiran Zhao, and Hai Lin

Subjects

Beamforming, Computer science, business.industry, 020206 networking & telecommunications, 020302 automobile design & engineering, 02 engineering and technology, Topology, Upper and lower bounds, 0203 mechanical engineering, Channel state information, Rician fading, 0202 electrical engineering, electronic engineering, information engineering, Wireless, Fading, Electrical and Electronic Engineering, business, Energy (signal processing), Computer Science::Information Theory, Communication channel

Abstract

In this paper, we consider a point-to-point multi-input multi-output wireless-powered communication system, where the source S is powered by a dedicated power beacon (PB) with multiple antennas. Employing the time splitting protocol, the energy constrained source S first harvests energy through the radio-frequency signals sent by the PB and then uses this energy to transmit information to the destination D. Unlike several prior works, we assume that the energy transfer link is subjected to Rician fading, which is a real fading environment, due to relatively short range power transfer distance and the existence of a strong line of sight path. We present a comprehensive analysis of the achievable ergodic capacity in two scenarios, depending on the availability of channel state information (CSI) at PB, namely, the absence of CSI and partial CSI . For the former case, equal power allocation is used, while for the later one, energy beamforming is used to enhance the energy transfer efficiency. For both the cases, closed-form expressions for the upper and lower bounds of the ergodic capacity are derived. Furthermore, the optimal time split is discussed, and the capacity in the low and high signal-to-noise ratio regimes is studied through simple closed-form expressions. Numerical results and simulations are provided to validate the theoretical analysis. The results show that the Rician factor $K$ has a significant impact on the ergodic capacity performance, and this impact strongly depends on the availability of the CSI at the PB.

Published

2018

9. Sum-Rate and Power Scaling of Massive MIMO Systems With Channel Aging

Author

Caijun Zhong, Anastasios K. Papazafeiropoulos, Zhaoyang Zhang, Michail Matthaiou, and Chuili Kong

Subjects

FOS: Computer and information sciences, Engineering, business.industry, Information Theory (cs.IT), Computer Science - Information Theory, MIMO, Transmitter power output, Noise (electronics), Precoding, Control theory, Channel state information, Telecommunications link, Maximal-ratio combining, Electrical and Electronic Engineering, business, Computer Science::Information Theory, Communication channel

Abstract

This paper investigates the achievable sum-rate of massive multiple-input multiple-output (MIMO) systems in the presence of channel aging. For the uplink, by assuming that the base station (BS) deploys maximum ratio combining (MRC) or zero-forcing (ZF) receivers, we present tight closed-form lower bounds on the achievable sum-rate for both receivers with aged channel state information (CSI). In addition, the benefit of implementing channel prediction methods on the sum-rate is examined, and closed-form sum rate lower bounds are derived. Moreover, the impact of channel aging and channel prediction on the power scaling law is characterized. Extension to the downlink scenario and multi-cell scenario are also considered. It is found that, for a system with/without channel prediction, the transmit power of each user can be scaled down at most by $1/\sqrt{M}$ (where $M$ is the number of BS antennas), which indicates that aged CSI does not degrade the power scaling law, and channel prediction does not enhance the power scaling law; instead, these phenomena affect the achievable sum-rate by degrading or enhancing the effective signal to interference and noise ratio, respectively., Accepted to appear in IEEE Transactions on Communications

Published

2015

10. Opportunistic Relay Selection for Secrecy Enhancement in Cooperative Networks

Author

Caijun Zhong, Hussein Alnuweiri, and Fawaz S. Al-Qahtani

Subjects

Engineering, Mathematical optimization, business.industry, Secrecy outage probability, law.invention, Diversity combining, Relay, law, Channel state information, Secrecy, Electronic engineering, Maximal-ratio combining, Electrical and Electronic Engineering, business, Computer Science::Cryptography and Security, Computer Science::Information Theory, Rayleigh fading, Coding (social sciences)

Abstract

In this paper, we present a comprehensive investigation on the secrecy performance of opportunistic relay selection systems employing the decode-and-forward protocol over Rayleigh fading channels. Considering a practical setting where direct link between the source node (Alice) and the destination node (Bob) is available, we study the secrecy performance of three different diversity combining schemes, namely, maximum ratio combining (MRC), distributed selection combining (DSC), and distributed switch-and-stay combining (DSSC). Throughout the analysis, we consider two different scenarios based on the availability of the eavesdropper's channel state information (CSI), i.e., Scenario A , where the eavesdropper's CSI is not available at Alice and the relay, and Scenario B , where Alice and the relay have knowledge about the eavesdropper's CSI. For Scenario A , we derive exact closed-form expressions for secrecy outage probability and simple asymptotic approximations for the secrecy outage probability, which enable the characterization of the achievable secrecy diversity order and coding gains. For Scenario B , we derive closed-form expressions for the achievable secrecy rates. For both scenarios, we investigate the impact of feedback delay (outdated CSI) on the secrecy performance wherein exact and asymptotic secrecy outage probability and closed-form expressions of the secrecy achievable rates are obtained. Our analytical findings suggest that both the MRC and DSC schemes achieve the maximum diversity order of $K+1$ where $K$ is the number of relays. In addition, the feedback delay has a significant impact on the achievable secrecy performance by reducing the achievable diversity order to two.

Published

2015

11. Wireless Information and Power Transfer in Relay Systems With Multiple Antennas and Interference

Author

George K. Karagiannidis, Guangxu Zhu, Caijun Zhong, Himal A. Suraweera, Zhaoyang Zhang, and Theodoros A. Tsiftsis

Subjects

FOS: Computer and information sciences, Engineering, business.industry, Information Theory (cs.IT), Computer Science - Information Theory, Co-channel interference, Interference (wave propagation), law.invention, Signal-to-noise ratio, Relay, law, Electronic engineering, Maximum power transfer theorem, Maximal-ratio combining, Wireless power transfer, Electrical and Electronic Engineering, business, Relay channel, Computer Science::Information Theory

Abstract

In this paper, an energy harvesting dual-hop relaying system without/with the presence of co-channel interference (CCI) is investigated. Specifically, the energy constrained multi-antenna relay node is powered by either the information signal of the source or via the signal receiving from both the source and interferer. In particular, we first study the outage probability and ergodic capacity of an interference free system, and then extend the analysis to an interfering environment. To exploit the benefit of multiple antennas, three different linear processing schemes are investigated, namely, 1) Maximum ratio combining/maximal ratio transmission (MRC/MRT), 2) Zero-forcing/MRT (ZF/MRT) and 3) Minimum mean-square error/MRT (MMSE/MRT). For all schemes, both the systems outage probability and ergodic capacity are studied, and the achievable diversity order is also presented. In addition, the optimal power splitting ratio minimizing the outage probability is characterized. Our results show that the implementation of multiple antennas increases the energy harvesting capability, hence, significantly improves the systems performance. Moreover, it is demonstrated that the CCI could be potentially exploited to substantially boost the performance, while the choice of a linear processing scheme plays a critical role in determining how much gain could be extracted from the CCI., accepted, to appear IEEE TCOM

Published

2015

12. Cognitive MIMO Relaying Networks With Primary User's Interference and Outdated Channel State Information

Author

Caijun Zhong, Qihui Wu, Jinlong Wang, Fawaz S. Al-Qahtani, Yuzhen Huang, and Hussein Alnuweiri

Subjects

Computer science, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, MIMO, Transmitter, Data_CODINGANDINFORMATIONTHEORY, Interference (wave propagation), Coding gain, Signal-to-noise ratio, Transmission (telecommunications), Channel state information, Electronic engineering, Maximal-ratio combining, Electrical and Electronic Engineering, Radio resource management, Computer Science::Information Theory, Rayleigh fading, Communication channel

Abstract

In this paper, we propose transmit antenna selection with maximal ratio combining (TAS/MRC) in dual-hop decode-and-forward spectrum-sharing relaying networks with the primary user's interference and outdated channel state information (CSI). In this network, a single antenna that maximizes the received SNR is selected at the secondary transmitter, and the MRC is adopted at the secondary receiver. To efficiently evaluate the impact of key parameters on the system performance, we derive the exact analytical expression for the outage probability of the secondary network in a Rayleigh fading channel. Moreover, we present simple asymptotic expressions for the outage probability in a high SNR regime, which reveal practical insights on the achievable diversity order and coding gain. The findings suggest that whether the outdated CSI concerning the secondary transmission links has significant impact on the outage probability of the system depends on the interference power constraint at primary receivers. Specifically, under the proportional interference power constraint, the achievable diversity order is affected by imperfect CSI regarding the secondary transmission links, and the diversity–multiplexing tradeoff is independent of the primary network. However, under the fixed interference power constraint, the error floor is displayed, and the achievable diversity order reduces to zero regardless of the CSI concerning the secondary transmission links.

Published

2014

13. Ergodic Capacity Comparison of Different Relay Precoding Schemes in Dual-Hop AF Systems With Co-Channel Interference

Author

Chau Yuen, Zhaoyang Zhang, Rui Yin, Guangxu Zhu, Caijun Zhong, and Himal A. Suraweera

Subjects

FOS: Computer and information sciences, Information Theory (cs.IT), Computer Science - Information Theory, Co-channel interference, Nonlinear Sciences::Cellular Automata and Lattice Gases, Topology, Precoding, Upper and lower bounds, Hop (networking), law.invention, symbols.namesake, Additive white Gaussian noise, Single antenna interference cancellation, Relay, law, symbols, Electronic engineering, Ergodic theory, Electrical and Electronic Engineering, Computer Science::Information Theory, Mathematics

Abstract

In this paper, we analyze the ergodic capacity of a dual-hop amplify-and-forward relaying system where the relay is equipped with multiple antennas and subject to co-channel interference (CCI) and the additive white Gaussian noise. Specifically, we consider three heuristic precoding schemes, where the relay first applies the 1) maximal-ratio combining (MRC) 2) zero-forcing (ZF) 3) minimum mean-squared error (MMSE) principle to combine the signal from the source, and then steers the transformed signal towards the destination with the maximum ratio transmission (MRT) technique. For the MRC/MRT and MMSE/MRT schemes, we present new tight analytical upper and lower bounds for the ergodic capacity, while for the ZF/MRT scheme, we derive a new exact analytical ergodic capacity expression. Moreover, we make a comparison among all the three schemes, and our results reveal that, in terms of the ergodic capacity performance, the MMSE/MRT scheme always has the best performance and the ZF/MRT scheme is slightly inferior, while the MRC/MRT scheme is always the worst one. Finally, the asymptotic behavior of ergodic capacity for the three proposed schemes are characterized in large $N$ scenario, where $N$ is the number of relay antennas. Our results reveal that, in the large $N$ regime, both the ZF/MRT and MMSE/MRT schemes have perfect interference cancelation capability, which is not possible with the MRC/MRT scheme., Accepted, to appear in IEEE Transactions on Communications, 2014

Published

2014

14. Performance Analysis of Multiuser Multiple Antenna Relaying Networks with Co-Channel Interference and Feedback Delay

Author

Yuzhen Huang, Caijun Zhong, Hussein Alnuweiri, Jinlong Wang, Fawaz S. Al-Qahtani, and Qihui Wu

Subjects

Analytical expressions, Control theory, Ergodic theory, Co-channel interference, Electrical and Electronic Engineering, Multiple antenna, Coding gain, Computer Science::Information Theory, Scheduling (computing), Diversity scheme, Mathematics, Rayleigh fading

Abstract

This paper presents a comprehensive performance analysis of multiuser multiple antenna amplify-and-forward relaying networks employing opportunistic scheduling with feedback delay and co-channel interference over Rayleigh fading channels. Specifically, we derive exact as well as approximate closed-form expressions for the outage probability and average symbol error rate (SER) of the system. In addition, simple asymptotic expressions at the high signal-to-noise ratio (SNR) regime are obtained, which facilitate the characterization of the achievable diversity order and coding gain of the system. Moreover, two novel ergodic capacity bounds valid for general systems with arbitrary number of antennas and users are proposed. Finally, the optimum power allocation scheme in terms of minimizing the average SER is studied, and simple analytical solutions are obtained. Simulation results are provided to corroborate the derived analytical expressions, and it is demonstrated that the ergodic capacity bounds remain sufficiently tight across the entire range of SNRs and the proposed power allocation scheme offers significant improvements on the SER performance. The findings of the paper suggest that the full diversity order can only be achieved when there is ideal feedback, i.e., no feedback delay, and the diversity order always reduces to one in the presence of feedback delay. Also, the impact of key parameters such as the number of antennas and users on the system performance is intimately dependent on the level of feedback delay.

Published

2014

15. Performance of User Selection in Cognitive Broadcast Channels

Author

Caijun Zhong and Tharmalingam Ratnarajah

Subjects

Cognitive radio, Capacity planning, Diversity gain, Computer science, Electronic engineering, Fading, Data_CODINGANDINFORMATIONTHEORY, Electrical and Electronic Engineering, Interference (wave propagation), Transmitter power output, Upper and lower bounds, Computer Science::Information Theory, Communication channel

Abstract

This letter presents an analytical performance investigation on the cognitive broadcast channels (BC) with user selection. Exact closed-form expressions for the outage probability and multiuser interference diversity gain of the cognitive BC are derived. In addition, closed-form upper and lower bounds for the ergodic capacity of the system are presented. These analytical results not only provide fast and efficient means to evaluate the performance of the system, they also enable us to gain valuable insights on the impact of key parameters such as peak transmit power, interference temperature constraint, primary transmit power and channel fading parameters on the system performance.

Published

2012

16. Dual-hop systems with noisy relay and interference-limited destination

Author

Shi Jin, Caijun Zhong, and Kai-Kit Wong

Subjects

Routing protocol, Computer science, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Data_CODINGANDINFORMATIONTHEORY, Topology, law.invention, Hop (networking), symbols.namesake, Additive white Gaussian noise, Relay, law, Computer Science::Networking and Internet Architecture, symbols, Electronic engineering, Wireless, Fading, Electrical and Electronic Engineering, business, Random variable, Relay channel, Computer Science::Information Theory, Communication channel

Abstract

In this letter, we analyze the outage performance of a dual-hop relay fading channel in an interference-limited environment. We first derive closed-form expressions for the outage probability of both the amplify-and-forward (AF) and the decode-and-forward (DF) relay channels, based on which, the diversity analysis is conducted. In addition, we show that in terms of the outage probability performance, the worst scenario appears to be the case with equal received-power interferers, for a given total received interference power.

Published

2010

17. MIMO rayleigh-product channels with co-channel interference

Author

Shi Jin, Caijun Zhong, and Kai-Kit Wong

Subjects

Matrix (mathematics), Covariance matrix, Cumulative distribution function, MIMO, Ergodicity, Electronic engineering, Co-channel interference, Probability density function, Electrical and Electronic Engineering, Topology, Computer Science::Information Theory, Communication channel, Mathematics

Abstract

This paper presents an analytical performance investigation of an interference-limited double scattering multiple-input multiple-output (MIMO) channel employing optimum combining. Our main contribution is the derivation of the closed-form expressions for the cumulative distribution function (c.d.f.) and probability density function (p.d.f.) of the maximum eigenvalue of the resultant channel matrix after optimal combining when the transmit, receive and scattering correlation matrices are identities (hence, the channel is referred to as a Rayleigh-product channel). These results allow us to obtain the outage probability of the optimal combining system in a Rayleigh-product channel with co-channel interferences. Furthermore, we investigate, in depth, an important special case of double scattering channel, the keyhole channel, where based on various closed-form expressions for exact and asymptotic measures derived, we examine three key performance metrics, namely, the ergodic capacity, the outage performance and the symbol-error-rate (SER). The analytical results derived are validated by Monte-Carlo simulations.

Published

2009

18. Impact of Mobility on the Uplink Sum Rate of MIMO-OFDMA Cellular Systems

Author

Caijun Zhong, Zhaoyang Zhang, and Chunxu Jiao

Subjects

Engineering, business.industry, Orthogonal frequency-division multiplexing, MIMO, 020206 networking & telecommunications, 020302 automobile design & engineering, 02 engineering and technology, 0203 mechanical engineering, Transmission (telecommunications), Channel state information, Telecommunications link, 0202 electrical engineering, electronic engineering, information engineering, Overhead (computing), Mobile telephony, Electrical and Electronic Engineering, business, Computer network, Communication channel

Abstract

With the fast development of vehicular technologies, the number of mobile terminals as well as their moving speeds has increased conspicuously, making it meaningful to re-examine the impact of mobility on communication performance of the existing cellular systems. In this paper, the uplink sum rate of a multiple-input multiple-output orthogonal frequency-division multiple access (MIMO-OFDMA) cellular system with nodes moving randomly at different speeds is studied. In such a multi-user environment, mobility not only causes inter sub-carrier interferences (ICI) among different users, but also brings the so-called channel aging which together with the above interferences incur outdated and inaccurate channel estimation and thus entail additional pilot overhead. Here, we first derive the relationship between the users’ mobility and the ICI power, characterize the channel aging, and derive the overall multi-user interference caused by the outdated and inaccurate channel state information as a function of mobility. Then, by capitalizing on the above results, the sum rate of the MIMO-OFDMA uplink is theoretically analyzed. Moreover, an adaptive transmission scheme in which the users adjust the pilot percentage according to mobility statistics is proposed to maximize the sum rate. Finally, numerical results are provided to validate our analyses.

Published

2017

19. Dual-Hop Systems with Noisy Relay and Interference-Limited Destination.

Author

Caijun Zhong, Shi Jin, and Kai-Kit Wong

Subjects

*TELECOMMUNICATION research, *DUAL integral equations, *DATA transmission systems, *RADIO transmitter fading, *DECODERS (Electronics), *DECODERS & decoding, *SIGNAL-to-noise ratio, *RELAY control systems

Abstract

In this letter, we analyze the outage performance of a dual-hop relay fading channel in an interference-limited environment. We first derive closed-form expressions for the outage probability of both the amplify-and-forward (AF) and the decode-and-forward (DF) relay channels, based on which, the diversity analysis is conducted. In addition, we show that in terms of the outage probability performance, the worst scenario appears to be the case with equal received-power interferers, for a given total received interference power. [ABSTRACT FROM AUTHOR]

Published

2010

20. MIMO Rayleigh-Product Channels with Co-Channel Interference.

Author

Caijun Zhong, Shi Jin, and Kai-Kit Wong

Subjects

*RAYLEIGH scattering, *DISTRIBUTION (Probability theory), *QUANTUM interference, *QUANTUM theory, *PROBABILITY theory, *MATRICES (Mathematics)

Abstract

This paper presents an analytical performance investigation of an interference-limited double scattering multiple- input multiple-output (MIMO) channel employing optimum combining. Our main contribution is the derivation of the closed-form expressions for the cumulative distribution function (c.d.f.) and probability density function (p.d.f.) of the maximum eigenvalue of the resultant channel matrix after optimal combining when the transmit, receive and scattering correlation matrices are identities (hence, the channel is referred to as a Rayleigh-product channel). These results allow us to obtain the outage probability of the optimal combining system in a Rayleigh-product channel with co-channel interferences. Furthermore, we investigate, in depth, an important special case of double scattering channel, the keyhole channel, where based on various closed-form expressions for exact and asymptotic measures derived, we examine three key performance metrics, namely, the ergodic capacity, the outage performance and the symbol-error-rate (SER). The analytical results derived are validated by Monte-Carlo simulations. [ABSTRACT FROM AUTHOR]

Published

2009