Your search keyword '"Xia, Le"' showing total 10 results

1. Wireless Resource Optimization in Hybrid Semantic/Bit Communication Networks

Author

Xia, Le, Sun, Yao, Niyato, Dusit, Zhang, Lan, Imran, Muhammad Ali, Xia, Le, Sun, Yao, Niyato, Dusit, Zhang, Lan, and Imran, Muhammad Ali

Abstract

Recently, semantic communication (SemCom) has shown great potential in significant resource savings and efficient information exchanges, thus naturally introducing a novel and practical cellular network paradigm where two modes of SemCom and conventional bit communication (BitCom) coexist. Nevertheless, the involved wireless resource management becomes rather complicated and challenging, given the unique background knowledge matching and time-consuming semantic coding requirements in SemCom. To this end, this paper jointly investigates user association (UA), mode selection (MS), and bandwidth allocation (BA) problems in a hybrid semantic/bit communication network (HSB-Net). Concretely, we first identify a unified performance metric of message throughput for both SemCom and BitCom links. Next, we specially develop a knowledge matching-aware two-stage tandem packet queuing model and theoretically derive the average packet loss ratio and queuing latency. Combined with practical constraints, we then formulate a joint optimization problem for UA, MS, and BA to maximize the overall message throughput of HSB-Net. Afterward, we propose an optimal resource management strategy by utilizing a Lagrange primal-dual transformation method and a preference list-based heuristic algorithm with polynomial-time complexity. Numerical results not only demonstrate the accuracy of our analytical queuing model, but also validate the performance superiority of our proposed strategy compared with different benchmarks., Comment: This paper has been submitted to IEEE Transactions on Communications for peer review

Published

2024

2. xURLLC-Aware Service Provisioning in Vehicular Networks: A Semantic Communication Perspective

Author

Xia, Le, Sun, Yao, Niyato, Dusit, Feng, Daquan, Feng, Lei, Imran, Muhammad Ali, Xia, Le, Sun, Yao, Niyato, Dusit, Feng, Daquan, Feng, Lei, and Imran, Muhammad Ali

Abstract

Semantic communication (SemCom), as an emerging paradigm focusing on meaning delivery, has recently been considered a promising solution for the inevitable crisis of scarce communication resources. This trend stimulates us to explore the potential of applying SemCom to wireless vehicular networks, which normally consume a tremendous amount of resources to meet stringent reliability and latency requirements. Unfortunately, the unique background knowledge matching mechanism in SemCom makes it challenging to simultaneously realize efficient service provisioning for multiple users in vehicle-to-vehicle networks. To this end, this paper identifies and jointly addresses two fundamental problems of knowledge base construction (KBC) and vehicle service pairing (VSP) inherently existing in SemCom-enabled vehicular networks in alignment with the next-generation ultra-reliable and low-latency communication (xURLLC) requirements. Concretely, we first derive the knowledge matching based queuing latency specific for semantic data packets, and then formulate a latency-minimization problem subject to several KBC and VSP related reliability constraints. Afterward, a SemCom-empowered Service Supplying Solution (S$^{\text{4}}$) is proposed along with the theoretical analysis of its optimality guarantee and computational complexity. Numerical results demonstrate the superiority of S$^{\text{4}}$ in terms of average queuing latency, semantic data packet throughput, user knowledge matching degree and knowledge preference satisfaction compared with two benchmarks., Comment: This paper has been accepted for publication by IEEE Transactions on Wireless Communications. Copyright may be transferred without notice, after which this version may no longer be accessible

Published

2023

3. Knowledge Base Aware Semantic Communication in Vehicular Networks

Author

Xia, Le, Sun, Yao, Niyato, Dusit, Ma, Kairong, Kang, Jiawen, Imran, Muhammad Ali, Xia, Le, Sun, Yao, Niyato, Dusit, Ma, Kairong, Kang, Jiawen, and Imran, Muhammad Ali

Abstract

Semantic communication (SemCom) has recently been considered a promising solution for the inevitable crisis of scarce communication resources. This trend stimulates us to explore the potential of applying SemCom to vehicular networks, which normally consume a tremendous amount of resources to achieve stringent requirements on high reliability and low latency. Unfortunately, the unique background knowledge matching mechanism in SemCom makes it challenging to realize efficient vehicle-to-vehicle service provisioning for multiple users at the same time. To this end, this paper identifies and jointly addresses two fundamental problems of knowledge base construction (KBC) and vehicle service pairing (VSP) inherently existing in SemCom-enabled vehicular networks. Concretely, we first derive the knowledge matching based queuing latency specific for semantic data packets, and then formulate a latency-minimization problem subject to several KBC and VSP related reliability constraints. Afterward, a SemCom-empowered Service Supplying Solution (S$^{\text{4}}$) is proposed along with the theoretical analysis of its optimality guarantee. Simulation results demonstrate the superiority of S$^{\text{4}}$ in terms of average queuing latency, semantic data packet throughput, and user knowledge preference satisfaction compared with two different benchmarks., Comment: This paper has been accepted for publication by 2023 IEEE International Conference on Communications (ICC 2023). Copyright may be transferred without notice, after which this version may no longer be accessible. arXiv admin note: substantial text overlap with arXiv:2302.11993

Published

2023

4. Generative AI for Semantic Communication: Architecture, Challenges, and Outlook

Author

Xia, Le, Sun, Yao, Liang, Chengsi, Zhang, Lei, Imran, Muhammad Ali, Niyato, Dusit, Xia, Le, Sun, Yao, Liang, Chengsi, Zhang, Lei, Imran, Muhammad Ali, and Niyato, Dusit

Abstract

Semantic communication (SemCom) is expected to be a core paradigm in future communication networks, yielding significant benefits in terms of spectrum resource saving and information interaction efficiency. However, the existing SemCom structure is limited by the lack of context-reasoning ability and background knowledge provisioning, which, therefore, motivates us to seek the potential of incorporating generative artificial intelligence (GAI) technologies with SemCom. Recognizing GAI's powerful capability in automating and creating valuable, diverse, and personalized multimodal content, this article first highlights the principal characteristics of the combination of GAI and SemCom along with their pertinent benefits and challenges. To tackle these challenges, we further propose a novel GAI-assisted SemCom network (GAI-SCN) framework in a cloud-edge-mobile design. Specifically, by employing global and local GAI models, our GAI-SCN enables multimodal semantic content provisioning, semantic-level joint-source-channel coding, and AIGC acquisition to maximize the efficiency and reliability of semantic reasoning and resource utilization. Afterward, we present a detailed implementation workflow of GAI-SCN, followed by corresponding initial simulations for performance evaluation in comparison with two benchmarks. Finally, we discuss several open issues and offer feasible solutions to unlock the full potential of GAI-SCN., Comment: This article has been submitted to IEEE Wireless Communications Magazine for the second round of peer review after completing the major revision

Published

2023

5. Joint User Association and Bandwidth Allocation in Semantic Communication Networks

Author

Xia, Le, Sun, Yao, Niyato, Dusit, Li, Xiaoqian, Imran, Muhammad Ali, Xia, Le, Sun, Yao, Niyato, Dusit, Li, Xiaoqian, and Imran, Muhammad Ali

Abstract

Semantic communication (SemCom) has recently been considered a promising solution to guarantee high resource utilization and transmission reliability for future wireless networks. Nevertheless, the unique demand for background knowledge matching makes it challenging to achieve efficient wireless resource management for multiple users in SemCom-enabled networks (SC-Nets). To this end, this paper investigates SemCom from a networking perspective, where two fundamental problems of user association (UA) and bandwidth allocation (BA) are systematically addressed in the SC-Net. First, considering varying knowledge matching states between mobile users and associated base stations, we identify two general SC-Net scenarios, namely perfect knowledge matching-based SC-Net and imperfect knowledge matching-based SC-Net. Afterward, for each SC-Net scenario, we describe its distinctive semantic channel model from the semantic information theory perspective, whereby a concept of bit-rate-to-message-rate transformation is developed along with a new semantics-level metric, namely system throughput in message (STM), to measure the overall network performance. In this way, we then formulate a joint STM-maximization problem of UA and BA for each SC-Net scenario, followed by a corresponding optimal solution proposed. Numerical results in both scenarios demonstrate significant superiority and reliability of our solutions in the STM performance compared with two benchmarks., Comment: This paper has been accepted for publication by IEEE Transactions on Vehicular Technology. Copyright may be transferred without notice, after which this version may no longer be accessible

Published

2022

6. WiserVR: Semantic Communication Enabled Wireless Virtual Reality Delivery

Author

Xia, Le, Sun, Yao, Liang, Chengsi, Feng, Daquan, Cheng, Runze, Yang, Yang, Imran, Muhammad Ali, Xia, Le, Sun, Yao, Liang, Chengsi, Feng, Daquan, Cheng, Runze, Yang, Yang, and Imran, Muhammad Ali

Abstract

Virtual reality (VR) over wireless is expected to be one of the killer applications in next-generation communication networks. Nevertheless, the huge data volume along with stringent requirements on latency and reliability under limited bandwidth resources makes untethered wireless VR delivery increasingly challenging. Such bottlenecks, therefore, motivate this work to seek the potential of using semantic communication, a new paradigm that promises to significantly ease the resource pressure, for efficient VR delivery. To this end, we propose a novel framework, namely WIreless SEmantic deliveRy for VR (WiserVR), for delivering consecutive 360{\deg} video frames to VR users. Specifically, deep learning-based multiple modules are well-devised for the transceiver in WiserVR to realize high-performance feature extraction and semantic recovery. Among them, we dedicatedly develop a concept of semantic location graph and leverage the joint-semantic-channel-coding method with knowledge sharing to not only substantially reduce communication latency, but also to guarantee adequate transmission reliability and resilience under various channel states. Moreover, implementation of WiserVR is presented, followed by corresponding initial simulations for performance evaluation compared with benchmarks. Finally, we discuss several open issues and offer feasible solutions to unlock the full potential of WiserVR., Comment: This magazine article has been accepted for publication by IEEE Wireless Communications. Copyright may be transferred without notice, after which this version may no longer be accessible

Published

2022

7. Wireless Resource Management in Intelligent Semantic Communication Networks

Author

Xia, Le, Sun, Yao, Li, Xiaoqian, Feng, Gang, Imran, Muhammad Ali, Xia, Le, Sun, Yao, Li, Xiaoqian, Feng, Gang, and Imran, Muhammad Ali

Abstract

The prosperity of artificial intelligence (AI) has laid a promising paradigm of communication system, i.e., intelligent semantic communication (ISC), where semantic contents, instead of traditional bit sequences, are coded by AI models for efficient communication. Due to the unique demand of background knowledge for semantic recovery, wireless resource management faces new challenges in ISC. In this paper, we address the user association (UA) and bandwidth allocation (BA) problems in an ISC-enabled heterogeneous network (ISC-HetNet). We first introduce the auxiliary knowledge base (KB) into the system model, and develop a new performance metric for the ISC-HetNet, named system throughput in message (STM). Joint optimization of UA and BA is then formulated with the aim of STM maximization subject to KB matching and wireless bandwidth constraints. To this end, we propose a two-stage solution, including a stochastic programming method in the first stage to obtain a deterministic objective with semantic confidence, and a heuristic algorithm in the second stage to reach the optimality of UA and BA. Numerical results show great superiority and reliability of our proposed solution on the STM performance when compared with two baseline algorithms., Comment: This work has been accepted for publication by 2022 IEEE International Conference on Computer Communications (INFOCOM). Copyright may be transferred without notice, after which this version may no longer be accessible

Published

2022

8. Smart and Secure CAV Networks Empowered by AI-Enabled Blockchain: The Next Frontier for Intelligent Safe Driving Assessment

Author

Xia, Le, Sun, Yao, Swash, Rafiq, Mohjazi, Lina, Zhang, Lei, Imran, Muhammad Ali, Xia, Le, Sun, Yao, Swash, Rafiq, Mohjazi, Lina, Zhang, Lei, and Imran, Muhammad Ali

Abstract

Securing safe driving for connected and autonomous vehicles (CAVs) continues to be a widespread concern, despite various sophisticated functions delivered by artificial intelligence for in-vehicle devices. Diverse malicious network attacks are ubiquitous, along with the worldwide implementation of the Internet of Vehicles, which exposes a range of reliability and privacy threats for managing data in CAV networks. Combined with the fact that the capability of existing CAVs in handling intensive computation tasks is limited, this implies a need for designing an efficient assessment system to guarantee autonomous driving safety without compromising data security. In this article we propose a novel framework, namely Blockchain-enabled intElligent Safe-driving assessmenT (BEST), which offers a smart and reliable approach for conducting safe driving supervision while protecting vehicular information. Specifically, a promising solution that exploits a long short-term memory model is introduced to assess the safety level of the moving CAVs. Then we investigate how a distributed blockchain obtains adequate trustworthiness and robustness for CAV data by adopting a byzantine fault tolerance-based delegated proof-of-stake consensus mechanism. Simulation results demonstrate that our presented BEST gains better data credibility with a higher prediction accuracy for vehicular safety assessment when compared with existing schemes. Finally, we discuss several open challenges that need to be addressed in future CAV networks., Comment: This article has been accepted for publication by IEEE Network. Copyright may be transferred without notice, after which this version may no longer be accessible

Published

2021

9. Single and cooperative bioleaching of sphalerite by two kinds of bacteria: Acidithiobacillus ferrooxidans and Acidithiobacillus thiooxidans.

Author

Xia Le-Xian, Geng Mei-Mei, Li Ban-Mei, Liu Jian-She, Qiu Guan-Zhou., Xiao Li, Zeng Jia, Xia Le-Xian, Geng Mei-Mei, Li Ban-Mei, Liu Jian-She, Qiu Guan-Zhou., Xiao Li, and Zeng Jia

Abstract

The results of investigations into the bioleaching of sphalerite showed that the Zn leaching rate was higher in the mixed culture than in the single cultures and in a sterile control. The two bacteria perform different functions and play a cooperative role during the leaching process. The role of Acidithiobacillus ferrooxidans is to oxidise Fe2+ to Fe3+ and to maintain a high redox potential. Addition of an appropriate concentration of ferric iron to the leaching system was beneficial for Zn dissolution. In the absence of Acidithiobacillus thiooxidans, elemental S layers formed on the mineral surface during the dissolution of Zn and prevented continuous leaching. The presence of Acidithiobacillus thiooxidans prevented passivation and resulted in continuation of the bioleaching process. Protons from the bacterial oxidation of the elemental S layers also accelerated the leaching of Zn., The results of investigations into the bioleaching of sphalerite showed that the Zn leaching rate was higher in the mixed culture than in the single cultures and in a sterile control. The two bacteria perform different functions and play a cooperative role during the leaching process. The role of Acidithiobacillus ferrooxidans is to oxidise Fe2+ to Fe3+ and to maintain a high redox potential. Addition of an appropriate concentration of ferric iron to the leaching system was beneficial for Zn dissolution. In the absence of Acidithiobacillus thiooxidans, elemental S layers formed on the mineral surface during the dissolution of Zn and prevented continuous leaching. The presence of Acidithiobacillus thiooxidans prevented passivation and resulted in continuation of the bioleaching process. Protons from the bacterial oxidation of the elemental S layers also accelerated the leaching of Zn.

Published

2008

10. Sulphur/iron oxidation activity of three typical bioleaching bacteria and sulphur speciation in bioleaching of chalcopyrite.

Author

Peng An-An, Nie Zhen-Yuan, Tang Lu, Xia Jin-Lan, Xia Le-Xian, Zhao Xiao-Juan, Zhu Wei., Peng An-An, Nie Zhen-Yuan, Tang Lu, Xia Jin-Lan, Xia Le-Xian, Zhao Xiao-Juan, and Zhu Wei.

Abstract

The sulphur/iron oxidation activities were investigated of Acidithiobacillus ferrooxidans, Leptospirillum ferriphilum and Acidithiobacillus thiooxidans, and the sulphur speciation on the surface of chalcopyrite during leaching using pure and mixed bacteria was studied. The chalcopyrite dissolution rate was higher at redox potentials of less than 400 mV vs. SCE and decreased at higher potentials. Mixed bacterial cultures showed higher sulphur/iron oxidation activities. The mixed cultures promoted the formation of chalcocite and inhibited the formation of a passivation layer containing sulphur and jarosite., The sulphur/iron oxidation activities were investigated of Acidithiobacillus ferrooxidans, Leptospirillum ferriphilum and Acidithiobacillus thiooxidans, and the sulphur speciation on the surface of chalcopyrite during leaching using pure and mixed bacteria was studied. The chalcopyrite dissolution rate was higher at redox potentials of less than 400 mV vs. SCE and decreased at higher potentials. Mixed bacterial cultures showed higher sulphur/iron oxidation activities. The mixed cultures promoted the formation of chalcocite and inhibited the formation of a passivation layer containing sulphur and jarosite.