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1. Safeguarding Next Generation Multiple Access Using Physical Layer Security Techniques: A Tutorial

Author

Lv, Lu, Xu, Dongyang, Hu, Rose Qingyang, Ye, Yinghui, Yang, Long, Lei, Xianfu, Wang, Xianbin, Kim, Dong In, and Nallanathan, Arumugam

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

Driven by the ever-increasing requirements of ultra-high spectral efficiency, ultra-low latency, and massive connectivity, the forefront of wireless research calls for the design of advanced next generation multiple access schemes to facilitate provisioning of these stringent demands. This inspires the embrace of non-orthogonal multiple access (NOMA) in future wireless communication networks. Nevertheless, the support of massive access via NOMA leads to additional security threats, due to the open nature of the air interface, the broadcast characteristic of radio propagation as well as intertwined relationship among paired NOMA users. To address this specific challenge, the superimposed transmission of NOMA can be explored as new opportunities for security aware design, for example, multiuser interference inherent in NOMA can be constructively engineered to benefit communication secrecy and privacy. The purpose of this tutorial is to provide a comprehensive overview on the state-of-the-art physical layer security techniques that guarantee wireless security and privacy for NOMA networks, along with the opportunities, technical challenges, and future research trends., Comment: Invited paper by Proceedings of the IEEE

Published
2024

2. Contrastive Learning based Semantic Communication for Wireless Image Transmission

Author

Tang, Shunpu, Yang, Qianqian, Fan, Lisheng, Lei, Xianfu, Deng, Yansha, and Nallanathan, Arumugam

Subjects
Computer Science - Information Theory
Abstract

Recently, semantic communication has been widely applied in wireless image transmission systems as it can prioritize the preservation of meaningful semantic information in images over the accuracy of transmitted symbols, leading to improved communication efficiency. However, existing semantic communication approaches still face limitations in achieving considerable inference performance in downstream AI tasks like image recognition, or balancing the inference performance with the quality of the reconstructed image at the receiver. Therefore, this paper proposes a contrastive learning (CL)-based semantic communication approach to overcome these limitations. Specifically, we regard the image corruption during transmission as a form of data augmentation in CL and leverage CL to reduce the semantic distance between the original and the corrupted reconstruction while maintaining the semantic distance among irrelevant images for better discrimination in downstream tasks. Moreover, we design a two-stage training procedure and the corresponding loss functions for jointly optimizing the semantic encoder and decoder to achieve a good trade-off between the performance of image recognition in the downstream task and reconstructed quality. Simulations are finally conducted to demonstrate the superiority of the proposed method over the competitive approaches. In particular, the proposed method can achieve up to 56\% accuracy gain on the CIFAR10 dataset when the bandwidth compression ratio is 1/48.

Published
2023

3. Pricing for Reconfigurable Intelligent Surface Aided Wireless Networks: Models and Principles

Author

Gao, Yulan, Xiao, Yue, Lei, Xianfu, Zhu, Qiaonan, Niyato, Dusit, Wong, Kai-Kit, Fan, Pingzhi, and Hu, Rose Qingyang

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Owing to the recent advancements of meta-materials and meta-surfaces, the concept of reconfigurable intelligent surface (RIS) has been embraced to meet the spectral- and energy-efficient, and yet cost-effective solutions for the sixth-generation (6G) wireless networks. From an operational standpoint, RISs can be easily deployed on the facades of buildings and indoor walls. Albeit promising, in the actual network operation, the deployment of RISs may face challenges because of the willingness and benefits of RIS holders from the aspect of installing RISs on their properties. Accordingly, RIS-aided wireless networks are faced with a formidable mission: how to balance the wireless service providers (WSPs) and RIS holders in terms of their respective interests. To alleviate this deadlock, we focus on the application of pricing models in RIS-aided wireless networks in pursuit of a win-win solution for both sides. Specifically, we commence with a comprehensive introduction of RIS pricing with its potential applications in RIS networks, meanwhile the fundamentals of pricing models are summarized in order to benefit both RIS holders and WSPs. In addition, a Stackelberg game-based model is exemplified to illustrate the operation of utility-maximization pricing. Finally, we highlight open issues and future research directions of applying pricing models to the RIS-aided wireless networks.

Published
2022

4. Two-Timescale Transmission Design for Wireless Communication Systems Aided by Active RIS

Author

Peng, Zhangjie, Li, Tianshu, Pan, Cunhua, Lei, Xianfu, and Jin, Shi

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

This paper considers an active reconfigurable intelligent surface (RIS)-aided communication system, where an M-antenna base station (BS) transmits data symbols to a single-antenna user via an N-element active RIS. We use two-timescale channel state information (CSI) in our system, so that the channel estimation overhead and feedback overhead can be decreased dramatically. A closed-form approximate expression of the achievable rate (AR) is derived and the phase shift at the active RIS is optimized. In addition, we compare the performance of the active RIS system with that of the passive RIS system. The conclusion shows that the active RIS system achieves a lager AR than the passive RIS system.

Published
2022

5. RIS-Assisted Cooperative NOMA with SWIPT

Author

Ren, Juanjuan, Lei, Xianfu, Peng, Zhangjie, Tang, Xiaohu, and Dobre, Octavia A.

Subjects
Computer Science - Information Theory
Abstract

This paper studies the application of reconfigurable intelligent surface (RIS) to cooperative non-orthogonal multiple access (C-NOMA) networks with simultaneous wireless information and power transfer (SWIPT). We aim for maximizing the rate of the strong user with guaranteed weak user's quality of service (QoS) by jointly optimizing power splitting factors, beamforming coefficients, and RIS reflection coefficients in two transmission phases. The formulated problem is difficult to solve due to its complex and non-convex constraints. To tackle this challenging problem, we first use alternating optimization (AO) framework to transform it into three subproblems, and then use the penalty-based arithmetic-geometric mean approximation (PBAGM) algorithm and the successive convex approximation (SCA)-based method to solve them. Numerical results verify the superiority of the proposed algorithm over the baseline schemes.

Published
2022

7. Cognitive Semantic Communication Systems Driven by Knowledge Graph

Author

Zhou, Fuhui, Li, Yihao, Zhang, Xinyuan, Wu, Qihui, Lei, Xianfu, and Hu, Rose Qingyang

Subjects
Computer Science - Artificial Intelligence
Abstract

Semantic communication is envisioned as a promising technique to break through the Shannon limit. However, the existing semantic communication frameworks do not involve inference and error correction, which limits the achievable performance. In this paper, in order to tackle this issue, a cognitive semantic communication framework is proposed by exploiting knowledge graph. Moreover, a simple, general and interpretable solution for semantic information detection is developed by exploiting triples as semantic symbols. It also allows the receiver to correct errors occurring at the symbolic level. Furthermore, the pre-trained model is fine-tuned to recover semantic information, which overcomes the drawback that a fixed bit length coding is used to encode sentences of different lengths. Simulation results on the public WebNLG corpus show that our proposed system is superior to other benchmark systems in terms of the data compression rate and the reliability of communication.

Published
2022

8. Low Ambiguity Zone: Theoretical Bounds and Doppler-Resilient Sequence Design in Integrated Sensing and Communication Systems

Author

Ye, Zhifan, Zhou, Zhengchun, Fan, Pingzhi, Liu, Zilong, Lei, Xianfu, and Tang, Xiaohu

Subjects
Computer Science - Information Theory
Abstract

In radar sensing and communications, designing Doppler resilient sequences (DRSs) with low ambiguity function for delay over the entire signal duration and Doppler shift over the entire signal bandwidth is an extremely difficult task. However, in practice, the Doppler frequency range is normally much smaller than the bandwidth of the transmitted signal, and it is relatively easy to attain quasi-synchronization for delays far less than the entire signal duration. Motivated by this observation, we propose a new concept called low ambiguity zone (LAZ) which is a small area of the corresponding ambiguity function of interest defined by the certain Doppler frequency and delay. Such an LAZ will reduce to a zero ambiguity zone (ZAZ) if the maximum ambiguity values of interest are zero. In this paper, we derive a set of theoretical bounds on periodic LAZ/ZAZ of unimodular DRSs with and without spectral constraints, which include the existing bounds on periodic global ambiguity function as special cases. These bounds may be used as theoretical design guidelines to measure the optimality of sequences against Doppler effect. We then introduce four optimal constructions of DRSs with respect to the derived ambiguity lower bounds based on some algebraic tools such as characters over finite field and cyclic difference sets., Comment: To apeear in IEEE JSAC, 2022

Published
2022

9. Scalable Cell-Free Massive MIMO Systems with Finite Resolution ADCs/DACs over Spatially Correlated Rician Fading Channels

Author

Ma, Xiangjun, Lei, Xianfu, Mathiopoulos, P. Takis, Yu, Kai, and Tang, Xiaohu

Subjects
Computer Science - Information Theory, Computer Science - Networking and Internet Architecture
Abstract

In this paper, an analytical framework for evaluating the performance of scalable cell-free massive MIMO (SCF-mMIMO) systems in which all user equipments (UEs) and access points (APs) employ finite resolution digital-to-analog converters (DACs) and analog-to-digital converters (ADCs) and operates under correlated Rician fading, is presented. By using maximal-ratio combining (MRC) detection, generic expressions for the uplink (UL) spectral efficiency (SE) for both distributed and centralized schemes are derived. In order to further reduce the computational complexity (CC) of the original local partial MMSE (LP-MMSE) and partial MMSE (P-MMSE) detectors, two novel scalable low complexity MMSE detectors are proposed for distributed and centralized schemes respectively, which achieves very similar SE performance. Furthermore, for the distributed scheme a novel partial large-scale fading decoding (P-LSFD) weighting vector is introduced and its analytical SE performance is very similar to the performance of an equivalent unscalable LSFD vector. Finally, a scalable algorithm jointly consisting of AP cluster formation, pilot assignment, and power control is proposed, which outperforms the conventional random pilot assignment and user-group based pilot assignment policies and, contrary to an equal power transmit strategy, it guarantees quality of service (QoS) fairness for all accessing UEs., Comment: 14 pages, 9 figures, regular paper

Published
2021

10. Dilated Convolution based CSI Feedback Compression for Massive MIMO Systems

Author

Tang, Shunpu, Xia, Junjuan, Fan, Lisheng, Lei, Xianfu, Xu, Wei, and Nallanathan, Arumugam

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

Although the frequency-division duplex (FDD) massive multiple-input multiple-output (MIMO) system can offer high spectral and energy efficiency, it requires to feedback the downlink channel state information (CSI) from users to the base station (BS), in order to fulfill the precoding design at the BS. However, the large dimension of CSI matrices in the massive MIMO system makes the CSI feedback very challenging, and it is urgent to compress the feedback CSI. To this end, this paper proposes a novel dilated convolution based CSI feedback network, namely DCRNet. Specifically, the dilated convolutions are used to enhance the receptive field (RF) of the proposed DCRNet without increasing the convolution size. Moreover, advanced encoder and decoder blocks are designed to improve the reconstruction performance and reduce computational complexity as well. Numerical results are presented to show the superiority of the proposed DCRNet over the conventional networks. In particular, the proposed DCRNet can achieve almost the state-of-the-arts (SOTA) performance with much lower floating point operations (FLOPs). The open source code and checkpoint of this work are available at https://github.com/recusant7/DCRNet., Comment: This work has been submitted to the IEEE for possible publication

Published
2021

11. A 3D Non-stationary MmWave Channel Model for Vacuum Tube Ultra-High-Speed Train Channels

Author

Xu, Yingjie, Yu, Kai, Li, Li, Lei, Xianfu, Hao, Li, and Wang, Cheng-Xiang

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

As a potential development direction of future transportation, the vacuum tube ultra-high-speed train (UHST) wireless communication systems have newly different channel characteristics from existing high-speed train (HST) scenarios. In this paper, a three-dimensional non-stationary millimeter wave (mmWave) geometry-based stochastic model (GBSM) is proposed to investigate the channel characteristics of UHST channels in vacuum tube scenarios, taking into account the waveguide effect and the impact of tube wall roughness on channel. Then, based on the proposed model, some important time-variant channel statistical properties are studied and compared with those in existing HST and tunnel channels. The results obtained show that the multipath effect in vacuum tube scenarios will be more obvious than tunnel scenarios but less than existing HST scenarios, which will provide some insights for future research on vacuum tube UHST wireless communications.

Published
2021

12. Towards Optimally Efficient Search with Deep Learning for Large-Scale MIMO Systems

Author

He, Le, He, Ke, Fan, Lisheng, Lei, Xianfu, Nallanathan, Arumugam, and Karagiannidis, George K.

Subjects
Computer Science - Machine Learning, Computer Science - Information Theory
Abstract

This paper investigates the optimal signal detection problem with a particular interest in large-scale multiple-input multiple-output (MIMO) systems. The problem is NP-hard and can be solved optimally by searching the shortest path on the decision tree. Unfortunately, the existing optimal search algorithms often involve prohibitively high complexities, which indicates that they are infeasible in large-scale MIMO systems. To address this issue, we propose a general heuristic search algorithm, namely, hyper-accelerated tree search (HATS) algorithm. The proposed algorithm employs a deep neural network (DNN) to estimate the optimal heuristic, and then use the estimated heuristic to speed up the underlying memory-bounded search algorithm. This idea is inspired by the fact that the underlying heuristic search algorithm reaches the optimal efficiency with the optimal heuristic function. Simulation results show that the proposed algorithm reaches almost the optimal bit error rate (BER) performance in large-scale systems, while the memory size can be bounded. In the meanwhile, it visits nearly the fewest tree nodes. This indicates that the proposed algorithm reaches almost the optimal efficiency in practical scenarios, and thereby it is applicable for large-scale systems. Besides, the code for this paper is available at \url{https://github.com/skypitcher/hats}.

Published
2021
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13. Effective Capacity Analysis of RIS-Aided Wireless Networks in the Finite Blocklength Regime

Author

Wang, Zhipeng, Lei, Xianfu, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Dong, Jian, editor, and Zhang, Long, editor

Published
2023
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16. A Survey on Non-Orthogonal Multiple Access for 5G Networks: Research Challenges and Future Trends

Author

Ding, Zhiguo, Lei, Xianfu, Karagiannidis, George K., Schober, Robert, Yuan, Jihong, and Bhargava, Vijay

Subjects
Computer Science - Information Theory
Abstract

Non-orthogonal multiple access (NOMA) is an essential enabling technology for the fifth generation (5G) wireless networks to meet the heterogeneous demands on low latency, high reliability, massive connectivity, improved fairness, and high throughput. The key idea behind NOMA is to serve multiple users in the same resource block, such as a time slot, subcarrier, or spreading code. The NOMA principle is a general framework, and several recently proposed 5G multiple access schemes can be viewed as special cases. This survey provides an overview of the latest NOMA research and innovations as well as their applications. Thereby, the papers published in this special issue are put into the content of the existing literature. Future research challenges regarding NOMA in 5G and beyond are also discussed., Comment: to appear in IEEE JSAC, 2017

Published
2017

18. STAR-RIS-Assisted Full-Duplex Symbiotic Radio

Author

Wu, Mingjiang, Lei, Xianfu, and da Costa, Daniel Benevides

Abstract

A novel simultaneously transmitting and reflecting reconfigurable intelligent surface (STAR-RIS)-assisted full-duplex symbiotic radio (SR) communication paradigm is conceived in this letter. The transmission functionality of the STAR-RIS is used to enhance the downlink transmission, while the reflection functionality is adopted to transmit Internet-of-Things (IoT) data to the full-duplex base station (BS). Compared to the typical RIS-assisted SR, the proposed SR has lower receiver complexity and higher IoT transmission rate. The weighted sum-rate of the downlink users is maximized via jointly optimizing the beamforming coefficients at the BS and the STAR-RIS. Simulation results confirm the effectiveness of the proposed SR system and reveal the performance trade-off between the downlink and IoT transmissions.

Published
2024
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19. Contrastive Learning-Based Semantic Communications

Author

Tang, Shunpu, Yang, Qianqian, Fan, Lisheng, Lei, Xianfu, Nallanathan, Arumugam, and Karagiannidis, George K.

Abstract

Recently, there has been a growing interest in learning-based semantic communication because it can prioritize the preservation of meaningful semantic information over the accuracy of the transmitted symbols, resulting in improved communication efficiency. However, existing learning-based approaches still face limitations in defining semantic level loss and often struggle to find a good trade-off between preserving semantic information and preserving intricate details. In addition, the existing semantic communication approaches cannot effectively train semantic encoders and decoders without the support of downstream models. To address these limitations, this paper proposes a contrastive learning (CL)-based semantic communication system. First, inspired by practical observations, we introduce the concept of semantic contrastive loss and propose a semantic contrastive coding (SemCC) approach that treats data corruption during transmission as a form of data augmentation within the CL framework. Moreover, we propose a semantic re-encoding (SemRE) operation, which uses a duplicate of the semantic encoder deployed at the receiver to guide the entire training process when the downstream model is inaccessible. Further, we design the training procedure for SemCC and SemRE approaches, respectively, to balance the semantic information and intricate details. Finally, simulations are performed to demonstrate the superiority of the proposed approaches over competing approaches. In particular, our approaches achieve a significant accuracy improvement of up to 53% on the CIFAR-10 dataset with a bandwidth compression ratio of 1/24, and also obtain comparable image reconstruction quality as the bandwidth compression ratio is improved.

Published
2024
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23. Task-Oriented Multi-User Semantic Communication With Lightweight Semantic Encoder and Fast Training for Resource-Constrained Terminal Devices

Author

Peng, Jincheng, Xing, Huanlai, Li, Yang, Feng, Li, Xu, Lexi, and Lei, Xianfu

Abstract

This letter studies efficient task-oriented multi-user semantic communication, with resource-constrained terminal devices considered. We design a joint training architecture for semantic encoders and the semantic decoder, denoted as Fed-CL-KD. These encoders are used for semantic information extraction and the decoder is for inference tasks. Through federated learning (FL), the semantic decoder can be trained without uploading local data, while knowledge distillation (KD) can effectively compress the semantic encoder size via knowledge transfer. By integrating curriculum learning (CL), we design a training data reordering method that re-orders the training samples fed to the semantic encoders. By starting with more promising examples, this method achieves faster convergence for both semantic encoders and the semantic decoder. Experimental results demonstrate that the proposed architecture exhibits excellent Top-1 accuracy performance for image classification under three channels, achieving faster convergence while requiring less computing power and memory.

Published
2024
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24. Average Sum-Rate of Distributed Alamouti Space--Time Scheme in Two-Way Amplify-and-Forward Relay Networks

Author

Duong, Trung Q., Yuen, Chau, Zepernick, Hans-Jurgen, and Lei, Xianfu

Subjects
Computer Science - Information Theory
Abstract

In this paper, we propose a distributed Alamouti space-time code (DASTC) for two-way relay networks employing a single amplify-and-forward (AF) relay. We first derive closed-form expressions for the approximated average sum-rate of the proposed DASTC scheme. Our analysis is validated by a comparison against the results of Monte-Carlo simulations. Numerical results verify the effectiveness of our proposed scheme over the conventional DASTC with one-way communication., Comment: Accepted at IEEE Global Communications Conference (GLOBECOM'10) Workshop on HeterWMN, Miami, USA, Dec. 2010

Published
2010

32. Resilient Machine Learning-Based Semantic-Aware MEC Networks for Sustainable Next-G Consumer Electronics

Author

Wu, Yuxin, Tang, Shunpu, Zhang, Lianhong, Fan, Lisheng, Lei, Xianfu, and Chen, Xiang

Abstract

In this paper, we investigate a semantic-aware mobile edge computing (MEC) network for sustainable next-G consumer electronics, which leverages advanced semantic communication technology to overcome the limitations of available bandwidth and thereby improve communication efficiency. For this network, consumer electronic devices can offload the semantic information extracted from the task instead of transmitting the whole task in the conventional MEC networks, where the latency and energy consumption can be significantly reduced through proper semantic encoding, offloading, and bandwidth and computation allocation decisions. However, the non-convexity of the issue makes it difficult to obtain the optimal decision. To address this issue, a two-level optimization framework is proposed. Specifically, in the upper-level optimization, a resilient deep reinforcement learning (DRL) approach is utilized to enable adaptive offloading and semantic encoding decisions within a dynamic network. In the lower-level optimization, we design three criteria for allocating bandwidth and computation resources by carefully considering the trade-off between computational complexity and implementation efficiency. Finally, extensive simulations are conducted to validate the effectiveness of our proposed strategy. The findings in this paper can help reduce the energy consumption of consumer electronics, hence supporting the development of sustainable next-G consumer electronics.

Published
2024
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33. Active STAR-RIS Aided Cell-Free Massive MIMO: A Performance Study

Author

Ma, Xiangjun, Lei, Xianfu, Mathiopoulos, P. Takis, and da Costa, Daniel Benevides

Abstract

This paper investigates the spectral efficiency (SE) of an active simultaneously transmitting and reflecting reconfigurable intelligent surface (aSTAR-RIS) aided cell-free massive multiple-input multiple-output (CF-mMIMO) system under correlated Rayleigh fading. In order to improve the system quality-of-service (QoS) and suppress the pilot contamination, fractional power control and an appropriate pilot assignment are adopted. Furthermore, a large-scale fading decoding (LSFD) method is introduced, based on which the analytical SE expression for the considered system is derived. Numerical and simulation results show that the adopted LSFD detection leads to higher SE than maximal ratio combining does, and as compared to an equivalent active RIS scheme, aSTAR-RIS significantly improves the SE of the CF-mMIMO system.

Published
2024
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34. Channel Estimation for Backscatter Communication Systems Under Circuit Sensitivity Constraint

Author

Cui, Ziqi, Wang, Gongpu, Gao, Jie, Lei, Xianfu, and Tellambura, Chintha

Abstract

Backscatter communication (BC) has emerged as a promising paradigm for enabling energy-efficient and low-cost Internet of Things (IoT) systems. However, one practical constraint that is often neglected in BC studies is the circuit sensitivity of the backscatter device (BD), which sets the minimum signal strength required to activate it for signal reflection. In this paper, we address the channel estimation (CE) problem in the BC system with a circuit sensitivity constraint. Specifically, we propose three channel estimators for the receiver in the BC system that is unaware of the activation states of the BD, namely the maximum likelihood (ML), linear minimum mean square error (LMMSE), and maximum a posteriori (MAP) estimators. We derive both the Cram$\acute{\text {e}}$r-Rao bound (CRB) and Bayesian Cram$\acute{\text {e}}$r-Rao bound (BCRB) to evaluate the performance of the proposed estimators. Finally, we provide simulations to validate our analysis. Our results demonstrate that the proposed LMMSE and MAP estimators outperform traditional estimators that neglect the circuit sensitivity constraint.

Published
2024
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48. Profit Maximization for Cache-Enabled Vehicular Mobile Edge Computing Networks

Author

Zhou, Wenqi, Xia, Junjuan, Zhou, Fasheng, Fan, Lisheng, Lei, Xianfu, Nallanathan, Arumugam, and Karagiannidis, George K.

Abstract

In this paper, we investigate a multiuser cache-enabled vehicular mobile edge computing (MEC) network, where one edge server (ES) has some caching and computing capabilities to assist the task computing from the vehicular users. The introduce of caching into the MEC network significantly affects the system performance such as the latency, energy consumption and profit at the ES, which imposes a critical challenge on the system design and optimization. To solve this challenge, we firstly design the vehicular MEC network in a non-competitive environment by maximizing the profit of the ES with a predetermined threshold of user QoE, and jointly exploit the caching and computing resources in the network. We then model the optimization problem into a binary integer programming problem, and adopt the cross entropy (CE) method to obtain the effective offloading and caching decision with a low complexity. Simulation results are finally presented to verify that the proposed scheme can achieve the near optimal performance of the conventional branch and bound (BnB) scheme, while sharply reduce the computational complexity compared to the BnB.

Published
2023
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