313 results on '"Lingyang Song"'
Search Results
2. AI Empowered RIS-Assisted NOMA Networks: Deep Learning or Reinforcement Learning?
- Author
-
Ruikang Zhong, Yue Chen, Yuanwei Liu, Xidong Mu, and Lingyang Song
- Subjects
Artificial neural network ,Computer Networks and Communications ,Computer science ,business.industry ,Wireless network ,Deep learning ,Throughput ,Computer engineering ,Reinforcement learning ,Overhead (computing) ,Fading ,Artificial intelligence ,Markov decision process ,Electrical and Electronic Engineering ,business - Abstract
A reconfigurable intelligent surface (RIS)-assisted multi-user downlink communication system over fading channels is investigated, where both non-orthogonal multiple access (NOMA) and orthogonal multiple access (OMA) schemes are employed. In particular, the time overhead for configuring the RIS reflective elements at the beginning of each fading channel is considered. The optimization goal is maximizing the effective throughput of the entire transmission period by jointly optimizing the phase shift of the RIS and the power allocation of the AP for each channel block. In an effort to solve the formulated problem and fill the research vacancy of the performance comparison between different machine learning tools in wireless networks, a deep learning (DL) approach and a reinforcement learning (RL) approach are proposed and their representative superiority and inferiority are investigated. The DL approach can locate the optimal phase shifts with the deep neural network fitting as well as the corresponding power allocation for each user. From the perspective of long-term reward, the phase shift control with configuration overhead can be regarded as a Markov decision process and the RL algorithm is proficient in solving such problems with the assistance of the Bellman equation. The numerical results indicate that: 1) From the perspective of the wireless network, NOMA can achieve a throughput gain of about 42% compared with OMA; 2) The well-trained RL and DL agents are able to achieve the same performance in Rician channel, while RL is superior in the Rayleigh channel; 3) The DL approach has lower complexity and faster convergence, while the RL approach has preferable strategy flexibility.
- Published
- 2022
- Full Text
- View/download PDF
3. Intelligent Omni-Surfaces: Ubiquitous Wireless Transmission by Reflective-Refractive Metasurfaces
- Author
-
Hongliang Zhang, H. Vincent Poor, Lingyang Song, Boya Di, Marco Di Renzo, Zhu Han, Yunhua Tan, and Shuhang Zhang
- Subjects
Beamforming ,Optimization problem ,Iterative method ,business.industry ,Computer science ,Applied Mathematics ,Communications system ,Computer Science Applications ,Power (physics) ,Base station ,Telecommunications link ,Electronic engineering ,Wireless ,Electrical and Electronic Engineering ,business - Abstract
Intelligent reflecting surfaces (IRSs), which are capable of adjusting the propagation conditions by controlling the phase shifts of the reflected waves that impinge on the surface, have been widely analyzed for enhancing the performance of wireless systems. However, the reflective properties of widely studied IRSs restrict the service coverage to only one side of the surface. In this paper, to extend the wireless coverage of communication systems, we introduce the concept of intelligent omni-surface (IOS)-assisted communication. More precisely, an IOS is an important instance of a reconfigurable intelligent surface (RIS) that can provide service coverage to the mobile users (MUs) in a reflective and a refractive manner. We consider a downlink IOS-assisted communication system, where a multi-antenna small base station (SBS) and an IOS jointly perform beamforming, for improving the received power of multiple MUs on both sides of the IOS, through different reflective/refractive channels. To maximize the sum-rate, we formulate a joint IOS phase shift design and SBS beamforming optimization problem, and propose an iterative algorithm to efficiently solve the resulting non-convex program. Both theoretical analysis and simulation results show that an IOS significantly extends the service coverage of the SBS when compared to an IRS.
- Published
- 2022
- Full Text
- View/download PDF
4. Age of Information Minimization for Grant-Free Non-Orthogonal Massive Access Using Mean-Field Games
- Author
-
H. Vincent Poor, Lingyang Song, Yuhan Kang, Hongliang Zhang, and Zhu Han
- Subjects
Base station ,Handshake ,Network packet ,Computer science ,business.industry ,Telecommunications link ,Cellular network ,Minification ,Electrical and Electronic Engineering ,business ,Communication channel ,Computer network ,Data modeling - Abstract
Grant-free access, in which channels are accessed without undergoing assignment through a handshake process, is a promising solution to support massive connectivity needed for Internet-of-Things (IoT) networks. In this paper, we consider uplink grant-free massive access for an IoT network with multiple channels. To be specific, the IoT devices generate short packets and have grant-free non-orthogonal access to a channel to transmit the generated packets to a base station (BS). With the aim of keeping the information fresh at the BS, we first derive the age of information (AoI) for grant-free short-packet communications, and then formulate the AoI minimization problem. However, the problem is challenging as the number of users involved is large, and to tackle this problem efficiently, we propose a mean-field evolutionary game-based approach. In this approach, the average behavior of the IoT devices is considered rather than their individual behaviors, and the dynamics of the strategies of the IoT devices are modeled by an evolutionary process. Simulation results verify the effectiveness of the proposed mean-field evolutionary game-based approach.
- Published
- 2021
- Full Text
- View/download PDF
5. Ultra-Dense LEO Satellite Constellations: How Many LEO Satellites Do We Need?
- Author
-
Ruoqi Deng, Lingyang Song, Boya Di, Linling Kuang, and Hongliang Zhang
- Subjects
Ultra dense ,Computer science ,business.industry ,Applied Mathematics ,Real-time computing ,Satellite constellation ,Computer Science Applications ,Low earth orbit ,Wireless ,Satellite ,Backhaul (broadcasting) ,Data as a service ,Electrical and Electronic Engineering ,business ,Constellation - Abstract
Recently, the ultra-dense low Earth orbit (LEO) satellite constellation over high-frequency band has served as a potential solution for high-capacity backhaul data services. In this paper, we consider an ultra-dense LEO-based terrestrial-satellite network where terrestrial users can access the network through the LEO-assisted backhaul. We aim to minimize the number of satellites in the constellation while satisfying the backhaul requirement of each user terminal (UT). We first derive the average total backhaul capacity of each UT, based on which a three-dimensional constellation optimization algorithm is proposed to minimize the number of satellites in the constellation. Simulation results verify our theoretical capacity analysis and show that for any given coverage ratio requirement, the corresponding optimized LEO satellite constellation can be obtained by the proposed three-dimensional constellation optimization algorithm. Given the same number of deployed LEO satellites, the average coverage ratio of the proposed LEO satellite constellation is at least 10 percentage points higher than that of Telesat constellation.
- Published
- 2021
- Full Text
- View/download PDF
6. UAV-to-Device Underlay Communications: Age of Information Minimization by Multi-Agent Deep Reinforcement Learning
- Author
-
Zhu Han, Hongliang Zhang, H. Vincent Poor, Jianjun Wu, Fanyi Wu, and Lingyang Song
- Subjects
business.industry ,Computer science ,Real-time computing ,ComputerApplications_COMPUTERSINOTHERSYSTEMS ,Systems and Control (eess.SY) ,Electrical Engineering and Systems Science - Systems and Control ,Base station ,FOS: Electrical engineering, electronic engineering, information engineering ,Cellular network ,Reinforcement learning ,The Internet ,Minification ,Electrical and Electronic Engineering ,Underlay ,Greedy algorithm ,business ,Mobile device - Abstract
In recent years, unmanned aerial vehicles (UAVs) have found numerous sensing applications, which are expected to add billions of dollars to the world economy in the next decade. To further improve the Quality-of-Service (QoS) in such applications, the 3rd Generation Partnership Project (3GPP) has considered the adoption of terrestrial cellular networks to support UAV sensing services, also known as the cellular Internet of UAVs. In this paper, we consider a cellular Internet of UAVs, where the sensory data can be transmitted either to base station (BS) via cellular links, or to mobile devices by underlay UAV-to-Device (U2D) communications. To evaluate the freshness of data, the age of information (AoI) is adopted, in which a lower AoI implies fresher data. Since UAVs' AoIs are determined by their trajectories during sensing and transmission, we investigate the AoI minimization problem for UAVs by designing their trajectories. This problem is a Markov decision problem (MDP) with an infinite state-action space, and thus we utilize multi-agent deep reinforcement learning (DRL) to approximate the state-action space. Then, we propose a multi-UAV trajectory design algorithm to solve this problem. Simulation results show that our algorithm achieves a lower AoI than greedy algorithm and policy gradient algorithm., 30 pages, 7 figures
- Published
- 2021
- Full Text
- View/download PDF
7. EPASS360: QoE-Aware 360-Degree Video Streaming Over Mobile Devices
- Author
-
Yushuo Guan, Yuanxing Zhang, Yunxin Liu, Kaigui Bian, Hu Tuo, Xiaoming Li, and Lingyang Song
- Subjects
Viewport ,Emulation ,Computer Networks and Communications ,Computer science ,business.industry ,Real-time computing ,020206 networking & telecommunications ,02 engineering and technology ,User experience design ,0202 electrical engineering, electronic engineering, information engineering ,Bandwidth (computing) ,The Internet ,Quality of experience ,Electrical and Electronic Engineering ,business ,Mobile device ,Software - Abstract
The 360-degree video streaming system delivers a monocular panoramic video surrounding the user, and the user can change the viewing direction of mobile devices to see different parts of the video through the “viewport”. Due to the limited network bandwidth, playbacks of high-resolution 360-degree videos often suffer from rebuffering, while too much bandwidth is wasted in delivering those out-of-viewport parts that the user never watches. In this article, we present an Ensemble Prediction and Allocation based Streaming System, named as EPASS360 , for delivering high Quality of Experience (QoE) 360-degree videos. The prediction model takes advantages of ensemble learning, providing high accuracy on the prediction of viewports. The allocation model divides a video into tiles, and allocates high resolution to tiles where a user’s viewpoint may appear in the future by solving the QoE-aware optimization problem. Trace-driven emulation on real-world datasets shows that EPASS360 enhances the QoE in various scenarios compared to state-of-the-art streaming approaches. Experiments on the head-mounted device and the hand-held device over real-world Internet confirm the high user experience of EPASS360.
- Published
- 2021
- Full Text
- View/download PDF
8. Privacy-Preserving Incentive Mechanism Design for Federated Cloud-Edge Learning
- Author
-
Lingyang Song, Boya Di, Peng An, and Tianyu Liu
- Subjects
Mechanism design ,Information privacy ,Edge device ,Computer Networks and Communications ,Computer science ,business.industry ,Distributed computing ,Cloud computing ,Computer Science Applications ,Data modeling ,Control and Systems Engineering ,Server ,Stackelberg competition ,Enhanced Data Rates for GSM Evolution ,business - Abstract
To avoid the original private data uploading in cloud-edgecomputing, the federated learning (FL) scheme is recently proposed which enhances the privacy preservation. However, the attacks against the uploaded model updates in FL can still cause private data leakage which demotivates the privacy-sensitive participating edge devices. To address this issue, we aim to design a privacy-preserving incentive mechanism for the federated cloud-edge learning (PFCEL) system such that 1) the privacy-sensitive edge devices are motivated to contribute to the local training and model uploading, 2) a trade-off between the private data leakage and the model accuracy is achieved. We first model the data leakage quantitatively from an adversarial perspective, and then formulate the incentive design problem as a three-layer Stackelberg game, where the interaction between the edge servers and edge devices is further formulated as an optimal contract design problem. Extensive theoretical analysis and numerical evaluations demonstrate the effectiveness of our designed mechanism in terms of privacy preservation and system utility.
- Published
- 2021
- Full Text
- View/download PDF
9. Reconfigurable Holographic Surface: Holographic Beamforming for Metasurface-Aided Wireless Communications
- Author
-
Ruoqi Deng, Hongliang Zhang, Yunhua Tan, Lingyang Song, and Boya Di
- Subjects
Beamforming ,Optimization problem ,Computer Networks and Communications ,Computer science ,business.industry ,Aerospace Engineering ,Interference (wave propagation) ,Communications system ,Base station ,Automotive Engineering ,Electronic engineering ,Wireless ,Electrical and Electronic Engineering ,Transceiver ,Antenna (radio) ,business - Abstract
The future sixth generation (6G) wireless communications look forward to constructing a ubiquitous intelligent information network with high data rates. To fulfill such challenging visions, the reconfigurable holographic surface (RHS) is developed as a promising solution due to its capability of accurate multi-beam steering with low power consumption and hardware cost. Different from the conventional phase-controlled antennas, the RHS can control the radiation amplitude of the reference wave propagating on the metasurface by leveraging the holographic technique. The desired object waves can then be generated without complex phase-shifting circuits, enabling the convenient implementation of the transceiver. Such amplitude-controlled holographic beamforming triggers new challenges since a new beamforming scheme needs to be developed to handle the complex-domain optimization problem subject to the unconventional real-domain amplitude constraints, which makes the superposition of the radiation waves from different antenna elements difficult to tackle. In this letter, we consider an RHS-aided multi-user communication system with a base station equipped with an RHS. We formulate a sum rate maximization problem and design a novel amplitude-controlled algorithm to solve the problem. Simulation results verify the effectiveness of the proposed scheme.
- Published
- 2021
- Full Text
- View/download PDF
10. Cyclic Three-Sided Matching Game Inspired Wireless Network Virtualization
- Author
-
Yunan Gu, Nguyen H. Tran, Neetu Raveendran, Chunxiao Jiang, Zhu Han, Miao Pan, and Lingyang Song
- Subjects
Computer Networks and Communications ,Wireless network ,business.industry ,Computer science ,Quality of service ,020206 networking & telecommunications ,Throughput ,02 engineering and technology ,Service provider ,Virtualization ,computer.software_genre ,0202 electrical engineering, electronic engineering, information engineering ,Resource allocation ,Resource management ,Isolation (database systems) ,Electrical and Electronic Engineering ,business ,computer ,Software ,Computer network - Abstract
Wireless network virtualization is basically the abstraction, isolation, and sharing of wireless resources among different entities. Consequently, virtualization provides great flexibility and higher network efficiency, and enables easier migration to new technologies in wireless networks. Traditionally, a wireless network virtualization controller manages the virtual resources (including radio resources and infrastructure resources) known as slices which are available to the Service Providers (SPs). The SPs then allocate their purchased resources to serve their subscribed mobile users. Such a centralized allocation decouples the Quality-of-Service (QoS) management by the SPs from the virtual resource management by the controller. In this paper, we propose a matching based wireless network virtualization resource allocation mechanism: a distributed three-sided (3D) matching between radio resources, physical infrastructure and mobile users. The Restricted Three-sided Matching with Size and Cyclic preference model (R-TMSC) is implemented to obtain a stable solution. Simulation results show that our proposed spectrum-oriented and user-oriented algorithms outperform the traditional resource allocation schemes. The spectrum-oriented algorithm enhances the user throughput and the system performance, within a lesser run time. Furthermore, for an increasing number of users, the proposed algorithms serve more users than traditional methods.
- Published
- 2021
- Full Text
- View/download PDF
11. On Spatial Multiplexing Using Reconfigurable Intelligent Surfaces
- Author
-
Hongliang Zhang, Mohamed A. ElMossallamy, Karim G. Seddik, Zhu Han, Radwa Sultan, Geoffrey Ye Li, and Lingyang Song
- Subjects
Signal Processing (eess.SP) ,Rank (linear algebra) ,Computer science ,business.industry ,010401 analytical chemistry ,020206 networking & telecommunications ,02 engineering and technology ,Interference (wave propagation) ,01 natural sciences ,Multiplexing ,Electronic mail ,0104 chemical sciences ,Spatial multiplexing ,Control and Systems Engineering ,Telecommunications link ,FOS: Electrical engineering, electronic engineering, information engineering ,0202 electrical engineering, electronic engineering, information engineering ,Electronic engineering ,Wireless ,Electrical Engineering and Systems Science - Signal Processing ,Electrical and Electronic Engineering ,business ,Computer Science::Information Theory ,Communication channel - Abstract
We consider an uplink multi-user scenario and investigate the use of reconfigurable intelligent surfaces (RIS) to optimize spatial multiplexing performance when a linear receiver is used. We study two different formulations of the problem, namely maximizing the effective rank and maximizing the minimum singular value of the RIS-augmented channel. We employ gradient-based optimization to solve the two problems and compare the solutions in terms of the sum-rate achievable when a linear receiver is used. Our results show that the proposed criteria can be used to optimize the RIS to obtain effective channels with favorable properties and drastically improve performance even when the propagation through the RIS contributes a small fraction of the received power., Comment: 5 pages, 4 figures, accepted for publication in IEEE Wireless Communications Letters
- Published
- 2021
- Full Text
- View/download PDF
12. Mean-Field-Type Game-Based Computation Offloading in Multi-Access Edge Computing Networks
- Author
-
Zhu Han, Hamidou Tembine, Lingyang Song, Lixin Li, H. Vincent Poor, Reginald A. Banez, and Chungang Yang
- Subjects
business.industry ,Computer science ,Applied Mathematics ,Distributed computing ,020206 networking & telecommunications ,Cloud computing ,02 engineering and technology ,Computer Science Applications ,0202 electrical engineering, electronic engineering, information engineering ,Task analysis ,Wireless ,Computation offloading ,Electrical and Electronic Engineering ,business ,Edge computing - Abstract
Multi-access edge computing (MEC) has been proposed to reduce latency inherent in traditional cloud computing. One of the services offered in an MEC network (MECN) is computation offloading in which computing nodes, with limited capabilities and performance, can offload computation-intensive tasks to other computing nodes in the network. Recently, mean-field-type game (MFTG) has been applied in engineering applications in which the number of decision makers is finite and where a decision maker can be distinguishable from other decision makers and have a non-negligible effect on the total utility of the network. Since MECNs are implemented through finite number of computing nodes and the computing capability of a computing node can affect the state (i.e., the number of computation tasks) of the network, we propose non-cooperative and cooperative MFTG approaches to formulate computation offloading problems. In these scenarios, the goal of each computing node is to offload a portion of the aggregate computation tasks from the network that minimizes a specific cost. Then, we utilize a direct approach to calculate the optimal solution of these MFTG problems that minimizes the corresponding cost. Finally, we conclude the paper with simulations to show the significance of the approach.
- Published
- 2020
- Full Text
- View/download PDF
13. Sense-Store-Send: Trajectory Optimization for a Buffer-Aided Internet of UAVs
- Author
-
Hongliang Zhang, Zhu Han, Yujie Jin, Shuhang Zhang, and Lingyang Song
- Subjects
Signal Processing (eess.SP) ,FOS: Computer and information sciences ,Optimization problem ,business.industry ,Computer science ,Information Theory (cs.IT) ,Computer Science - Information Theory ,Real-time computing ,020206 networking & telecommunications ,02 engineering and technology ,Trajectory optimization ,Computer Science Applications ,Modeling and Simulation ,FOS: Electrical engineering, electronic engineering, information engineering ,0202 electrical engineering, electronic engineering, information engineering ,Cellular network ,Trajectory ,The Internet ,Electrical Engineering and Systems Science - Signal Processing ,Electrical and Electronic Engineering ,Joint (audio engineering) ,business - Abstract
In this letter, we study a buffer-aided Internet of unmanned aerial vehicles (UAVs) in which a UAV performs data sensing, stores the data, and sends it to the base station (BS) in cellular networks. To minimize the overall completion time for all the sensing tasks, we formulate a joint trajectory, sensing location, and sensing time optimization problem. To solve this NP-hard problem efficiently, we propose an iterative trajectory, sensing location and sensing time optimization (ITLTO) algorithm, and discuss the trade-off between sensing time and flying time. Simulation results show that the proposed algorithm can effectively reduce the completion time for the sensing tasks., Accepted by IEEE Communications Letters
- Published
- 2020
- Full Text
- View/download PDF
14. Reconfigurable Intelligent Surface Based RF Sensing: Design, Optimization, and Implementation
- Author
-
H. Vincent Poor, Zhu Han, Hongliang Zhang, Jingzhi Hu, Boya Di, Lianlin Li, Lingyang Song, Kaigui Bian, and Yonghui Li
- Subjects
Surface (mathematics) ,Computer Networks and Communications ,Computer science ,business.industry ,020206 networking & telecommunications ,02 engineering and technology ,Computer engineering ,Limit (music) ,0202 electrical engineering, electronic engineering, information engineering ,Wireless ,Radio frequency ,Electrical and Electronic Engineering ,Transceiver ,business ,Wireless sensor network - Abstract
Using radio-frequency (RF) sensing techniques for human posture recognition has attracted growing interest due to its advantages of pervasiveness, contact-free observation, and privacy protection. Conventional RF sensing techniques are constrained by their radio environments, which limit the number of transmission channels to carry multi-dimensional information about human postures. Instead of passively adapting to the environment, in this paper, we design an RF sensing system for posture recognition based on reconfigurable intelligent surfaces (RISs). The proposed system can actively customize the environments to provide desirable propagation properties and diverse transmission channels. However, achieving high recognition accuracy requires the optimization of RIS configuration, which is a challenging problem. To tackle this challenge, we formulate the optimization problem, decompose it into two subproblems, and propose algorithms to solve them. Based on the developed algorithms, we implement the system and carry out practical experiments. Both simulation and experimental results verify the effectiveness of the designed algorithms and system. Compared to the random configuration and non-configurable environment cases, the designed system can greatly improve the recognition accuracy.
- Published
- 2020
- Full Text
- View/download PDF
15. Multi-Layer Radio Network Slicing for Heterogeneous Communication Systems
- Author
-
Lingyang Song, Jingzhi Hu, Boya Di, and Zijie Zheng
- Subjects
Computer Networks and Communications ,Computer science ,business.industry ,Quality of service ,05 social sciences ,050801 communication & media studies ,020206 networking & telecommunications ,02 engineering and technology ,Communications system ,Telecommunications network ,Computer Science Applications ,0508 media and communications ,Control and Systems Engineering ,0202 electrical engineering, electronic engineering, information engineering ,Stackelberg competition ,Resource allocation ,Resource management ,business ,Virtual network ,Heterogeneous network ,Computer network - Abstract
In this paper, we consider the radio access network (RAN) slicing in heterogeneous communication systems. Typically, the infrastructure provider (InP) allocates the radio resources to the mobile virtual network operators (MVNOs) as RAN slices, and then the MVNOs use the allocated resources to provide services for their users. As the RAN being heterogeneous, the users are generally with different quality of service (QoS) requirements. Besides, the MVNOs also have different intrinsic interests in terms of collecting revenue and satisfying users QoS demand and thus require different amount of resources. In this regard, it is challenging for the InP to determine the resource allocation strategy. To deal with this issue, we propose a three-layer Stackelberg game (TLSG) to jointly solve the frequency and power allocation for the InP. We derive the unique equilibrium for the special case where each MVNO uniform users and propose a bi-level differential evolution algorithm for more general cases. Simulation results reveal that both users and the InP can be better off when the RAN is sliced for different types of users, and that the MVNOs focusing more on revenue collecting result in the InP and the users obtaining less payoff.
- Published
- 2020
- Full Text
- View/download PDF
16. Ultra-Dense LEO Satellite Offloading for Terrestrial Networks: How Much to Pay the Satellite Operator?
- Author
-
Boya Di, Shanzhi Chen, Shaohui Sun, Lingyang Song, and Ruoqi Deng
- Subjects
Access network ,Computer science ,business.industry ,Applied Mathematics ,Satellite constellation ,020206 networking & telecommunications ,02 engineering and technology ,Computer Science Applications ,Frequency allocation ,Backhaul (telecommunications) ,Telecommunications link ,0202 electrical engineering, electronic engineering, information engineering ,Stackelberg competition ,Wireless ,Resource management ,Data as a service ,Electrical and Electronic Engineering ,business ,Computer network - Abstract
Recently, the ultra-dense low earth orbit (LEO) satellite constellation over high-frequency band has served as a potential solution for terrestrial data offloading owing to its seamless coverage and high-capacity backhaul. In this paper, we consider an integrated ultra-dense LEO-based satellite-terrestrial network where the terrestrial operator (TO) can offload its subscribed users to the LEO satellite network owned by the satellite operator (SO) for satellite-backhauled network access. However, data offloading consumes extra resources of the SO and degrades the quality-of-service of the SO’s original users. Therefore, we aim to design a pricing mechanism based on the Stackelberg game to motivate both operators for data offloading, and the Stackelberg equilibrium is achieved by jointly optimizing the C-band user association, Ka-band spectrum allocation, and data service pricing. Simulation results show that our proposed pricing mechanism can motivate two operators for offloading efficiently. The influence of available frequency resources, data service prices, and the number of LEO satellites on the system performance are also discussed.
- Published
- 2020
- Full Text
- View/download PDF
17. Age of Information in a Cellular Internet of UAVs: Sensing and Communication Trade-Off Design
- Author
-
H. Vincent Poor, Hongliang Zhang, Zhu Han, Shuhang Zhang, and Lingyang Song
- Subjects
Optimization problem ,business.industry ,Computer science ,Iterative method ,Applied Mathematics ,Real-time computing ,ComputerApplications_COMPUTERSINOTHERSYSTEMS ,020206 networking & telecommunications ,02 engineering and technology ,Computer Science Applications ,Scheduling (computing) ,Base station ,0202 electrical engineering, electronic engineering, information engineering ,Wireless ,The Internet ,Electrical and Electronic Engineering ,Transmission time ,business ,Greedy algorithm - Abstract
In this paper, we consider the cellular Internet of unmanned aerial vehicles (UAVs), where UAVs sense data with onboard sensors for multiple sensing tasks and transmit the data to the base station (BS). To quantify the “freshness” of the data at the BS, we bring in the concept of the age of information (AoI). The AoI is determined by the time for UAV sensing and that for UAV transmission, which gives rise to a trade-off within a given period. To minimize the AoI, we formulate a joint sensing time, transmission time, UAV trajectory, and task scheduling optimization problem. This NP-hard problem can be decoupled into two subproblems. We first propose an iterative algorithm to optimize the sensing time, transmission time, and UAV velocity for completing a specific task. Afterwards, we design the order in which the UAV performs data updates for multiple sensing tasks. The convergence and complexity of the proposed algorithm, together with the trade-off between UAV sensing and UAV transmission, are analyzed. Simulation results show that the AoI with the proposed algorithm is about 15% lower than that of the greedy algorithm, and over 40% lower than that of the random algorithm.
- Published
- 2020
- Full Text
- View/download PDF
18. Hybrid Beamforming for Reconfigurable Intelligent Surface based Multi-User Communications: Achievable Rates With Limited Discrete Phase Shifts
- Author
-
Lingyang Song, H. Vincent Poor, Zhu Han, Hongliang Zhang, Boya Di, and Yonghui Li
- Subjects
Signal Processing (eess.SP) ,FOS: Computer and information sciences ,Beamforming ,Computer Networks and Communications ,Computer science ,business.industry ,Iterative method ,Computer Science - Information Theory ,Information Theory (cs.IT) ,Computer Science - Emerging Technologies ,020206 networking & telecommunications ,02 engineering and technology ,Multi-user ,Base station ,Emerging Technologies (cs.ET) ,Transmission (telecommunications) ,Surface wave ,Telecommunications link ,FOS: Electrical engineering, electronic engineering, information engineering ,0202 electrical engineering, electronic engineering, information engineering ,Electronic engineering ,Wireless ,Electrical Engineering and Systems Science - Signal Processing ,Electrical and Electronic Engineering ,business - Abstract
Reconfigurable intelligent surface (RIS) has drawn considerable attention from the research society recently, which creates favorable propagation conditions by controlling the phase shifts of the reflected waves at the surface, thereby enhancing wireless transmissions. In this paper, we study a downlink multi-user system where the transmission from a multi-antenna base station (BS) to various users is achieved by the RIS reflecting the incident signals of the BS towards the users. Unlike most existing works, we consider the practical case where only a limited number of discrete phase shifts can be realized by the finite-sized RIS. Based on the reflection-dominated one-hop propagation model between the BS and users via the RIS, a hybrid beamforming scheme is proposed and the sum-rate maximization problem is formulated. Specifically, the continuous digital beamforming and discrete RIS-based analog beamforming are performed at the BS and the RIS, respectively, and an iterative algorithm is designed to solve this problem. Both theoretical analysis and numerical validations show that the RIS-based system can achieve a good sum-rate performance by setting a reasonable size of RIS and a small number of discrete phase shifts.
- Published
- 2020
- Full Text
- View/download PDF
19. Beyond D2D: Full Dimension UAV-to-Everything Communications in 6G
- Author
-
Shuhang Zhang, Lingyang Song, and Hongliang Zhang
- Subjects
Signal Processing (eess.SP) ,Networking and Internet Architecture (cs.NI) ,FOS: Computer and information sciences ,Computer Networks and Communications ,business.industry ,Computer science ,Aerospace Engineering ,ComputerApplications_COMPUTERSINOTHERSYSTEMS ,Computer Science - Networking and Internet Architecture ,Transmission (telecommunications) ,Automotive Engineering ,FOS: Electrical engineering, electronic engineering, information engineering ,Cellular network ,Key (cryptography) ,The Internet ,Electrical Engineering and Systems Science - Signal Processing ,Electrical and Electronic Engineering ,Dimension (data warehouse) ,Radio resource management ,business ,Computer network - Abstract
In this paper, we consider an Internet of unmanned aerial vehicles (UAVs) over cellular networks, where UAVs work as aerial users to collect various sensory data, and send the collected data to their transmission destinations over cellular links. Unlike the terrestrial users in the conventional cellular networks, different UAVs have various communication requirements due to their sensing applications, and a more flexible communication framework is in demand. To tackle this problem, we propose a UAV-to-Everything (U2X) networking, which enables the UAVs to adjust their communication modes full dimensionally according to the requirements of their sensing applications. In this article, we first introduce the concept of U2X communications, and elaborate on its three communication modes. Afterwards, we discuss the key techniques of the U2X communications, including joint sensing and transmission protocol, UAV trajectory design, and radio resource management. A reinforcement learning-based mathematical framework for U2X communications is then proposed. Finally, the extensions of the U2X communications are presented.
- Published
- 2020
- Full Text
- View/download PDF
20. Equilibrium Problems With Equilibrium Constraints Analysis for Power Control and User Scheduling in NOMA Networks
- Author
-
Boya Di, Zhu Han, Huaqing Zhang, Xuefang Liu, Lingyang Song, and Zheng Chang
- Subjects
Computer Networks and Communications ,business.industry ,Wireless network ,Orthogonal frequency-division multiplexing ,Computer science ,Aerospace Engineering ,Transmitter power output ,Scheduling (computing) ,Base station ,Single antenna interference cancellation ,Automotive Engineering ,Wireless ,Resource allocation ,Electrical and Electronic Engineering ,business ,Power control ,Computer network - Abstract
With limited wireless resources but increasing demands for wireless applications, non-orthogonal multiple access (NOMA) has been considered as a promising technology for future wireless networks. Nevertheless, it remains challenging on motivating the mobile users (MU) to join NOMA networks, scheduling MUs on the same sub-bands, reducing interference among the MUs and setting optimal transmit power in the NOMA networks. In this paper, first we consider the quantization error due to the limitation of receivers’ equipments and the decoding error during the successive interference cancellation (SIC) procedure. Second, we model the resource allocation problems as the four-level equilibrium problems with equilibrium constraints (EPEC), where the wireless operator, on behalf of each MU, first predicts the utilities and assign the MU as a NOMA user (NMU) or a traditional MU (TMU). For the NMUs, the interference penalty pricing strategy of other NMUs are proposed. Based on the announced prices of all the NMUs, the sub-channel allocation is managed in either distributed or collaborative ways. According to the announced interference prices of other NMUs and the coalition results, the optimal transmit power to gain the maximum utility is considered. Through extensive simulation analysis, the superior performance obtained by using the proposed scheme is demonstrated.
- Published
- 2020
- Full Text
- View/download PDF
21. HetMEC: Heterogeneous Multi-Layer Mobile Edge Computing in the 6 G Era
- Author
-
Jinlong Lin, Pengfei Wang, Lingyang Song, Yutong Zhang, and Boya Di
- Subjects
Mobile edge computing ,Computer Networks and Communications ,business.industry ,Computer science ,Aerospace Engineering ,Cloud computing ,Network planning and design ,Cognitive radio ,Server ,Automotive Engineering ,Wireless ,Enhanced Data Rates for GSM Evolution ,Electrical and Electronic Engineering ,business ,Mobile device ,Edge computing ,Computer network - Abstract
Driven by an increasing number of mobile applications, mobile edge computing (MEC) has been considered as a promising candidate to support the huge amount of data processing services. However, the conventional MEC suffers from the insufficient utilization of computing and transmission resources through the entire network, resulting in inevitably long processing and transmission latency especially to computation-intensive applications in the 6 G era. In this article, we propose a heterogeneous multi-layer mobile edge computing (HetMEC), where different devices, ranging from edge devices (EDs), i.e., the mobile devices that generate raw data of computing tasks in the radio access networks, to the cloud center (CC), are inherently involved different layers of the network and collaborate for data processing. To support a low-latency service, a reinforcement learning-based framework is constructed to adapt to the unstable wireless environments as well as the dynamically varying data generation speed of each ED. Under this framework, key research issues and solutions including task offloading, cognitive radio based spectrum access, pricing scheme design, and network congestion control are presented. Some further research directions and opening issues are also discussed in the perception of network planning and optimization, network control, and application-specific issues.
- Published
- 2020
- Full Text
- View/download PDF
22. Peer-to-Peer Energy Trading in DC Packetized Power Microgrids
- Author
-
Haobo Zhang, H. Vincent Poor, Lingyang Song, Hongliang Zhang, Zhu Han, and Yonghui Li
- Subjects
Router ,Computer Networks and Communications ,business.industry ,Computer science ,Network packet ,ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS ,020206 networking & telecommunications ,02 engineering and technology ,Peer-to-peer ,computer.software_genre ,Power (physics) ,Distributed generation ,0202 electrical engineering, electronic engineering, information engineering ,Energy market ,Resource management ,Microgrid ,Electrical and Electronic Engineering ,business ,computer ,Computer network - Abstract
As distributed energy resources (DERs) are widely deployed, DC packetized power microgrids have been considered as a promising solution to incorporate DERs effectively. In this paper, we consider a DC packetized power microgrid, where the energy is dispatched in the form of power packets with the assistance of a power router. However, the benefits of the microgrid can only be realized when energy subscribers (ESs) equipped with DERs actively participate in the energy market. Therefore, peer-to-peer (P2P) energy trading is necessary in the DC packetized power microgrid to encourage the usage of DERs. Different from P2P energy trading in AC microgrids, the dispatching capability of the router needs to be considered in DC microgrids, which will complicate the trading problem. To tackle this challenge, we formulate the P2P trading problem as an auction game, in which the demander ESs submit bids to compete for power packets, and a controller decides the energy allocation and power packet scheduling. Analysis of the proposed scheme is provided, and its effectiveness is validated through simulation.
- Published
- 2020
- Full Text
- View/download PDF
23. Guest editorial: Cellular Internet of UAVs for 5G and beyond
- Author
-
Walid Saad, Hongliang Zhang, Merouane Debbah, and Lingyang Song
- Subjects
Computer science ,business.industry ,Internet privacy ,The Internet ,Electrical and Electronic Engineering ,business ,5G ,Computer Science Applications - Published
- 2021
- Full Text
- View/download PDF
24. Cooperation Techniques for a Cellular Internet of Unmanned Aerial Vehicles
- Author
-
Hongliang Zhang, Zhu Han, H. Vincent Poor, and Lingyang Song
- Subjects
FOS: Computer and information sciences ,Flexibility (engineering) ,Computer science ,business.industry ,Computer Science - Information Theory ,Information Theory (cs.IT) ,Quality of service ,ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION ,ComputerApplications_COMPUTERSINOTHERSYSTEMS ,020206 networking & telecommunications ,02 engineering and technology ,ComputingMethodologies_ARTIFICIALINTELLIGENCE ,Computer Science Applications ,Upload ,Base station ,0202 electrical engineering, electronic engineering, information engineering ,The Internet ,Enhanced Data Rates for GSM Evolution ,Electrical and Electronic Engineering ,Radio resource management ,business ,Protocol (object-oriented programming) ,Computer network - Abstract
Unmanned aerial vehicles (UAVs) are powerful Internet-of-Things components to provide sensing and communications in the air due to their advantages in mobility and flexibility. As aerial users, UAVs are envisioned to support various sensing applications in the next generation cellular systems, which have been studied by the Third Generation Partnership Project (3GPP). However, the Quality-of-Services (QoS) of the cellular link between the UAV and the base station may not be guaranteed when UAVs are at the cell edge or experiencing deep fading. In this article, we first introduce the non-cooperative cellular Internet of UAVs. Then we propose a cooperative sense-and-send protocol, in which a UAV can upload sensory data with the help of a UAV relay, to provide a better communication QoS for the sensing tasks. Key techniques including trajectory design and radio resource management that support the cooperative cellular Internet of UAVs are presented in detail. Finally, the extended cooperative cellular Internet of UAVs is discussed for QoS improvement with some open issues, such as massive multiple-input multiple-output systems, millimeter-wave, and cognitive communications., Comment: This paper has been accepted by IEEE Wireless Communications
- Published
- 2019
- Full Text
- View/download PDF
25. HetMEC: Latency-Optimal Task Assignment and Resource Allocation for Heterogeneous Multi-Layer Mobile Edge Computing
- Author
-
Pengfei Wang, Zijie Zheng, Boya Di, and Lingyang Song
- Subjects
Radio access network ,Mobile edge computing ,Edge device ,Computer science ,business.industry ,Applied Mathematics ,020206 networking & telecommunications ,Cloud computing ,02 engineering and technology ,Computer Science Applications ,Server ,0202 electrical engineering, electronic engineering, information engineering ,Resource allocation ,Wireless ,Resource management ,Electrical and Electronic Engineering ,Latency (engineering) ,business ,Computer network - Abstract
Driven by great demands on low-latency services of the edge devices (EDs), mobile edge computing (MEC) has been proposed to enable the computing capacities at the edge of the radio access network. However, conventional MEC servers suffer some disadvantages such as limited computing capacity, preventing and computation-intensive tasks to be processed on time. To relief this issue, we propose the heterogeneous multi-layer MEC (HetMEC) where data that cannot be timely processed at the edge are allowed to be offloaded to the upper-layer MEC servers, and finally to the cloud center (CC) with more powerful computing capacity. We aim to minimize the system latency, i.e., the total computing and transmission time on all layers for the data generated by the EDs. We design the latency minimization algorithm by jointly coordinating the task assignment, computing, and transmission resources among the EDs, multi-layer MEC servers, and the CC. The simulation results indicate that our proposed algorithm can achieve a lower latency and higher processing rate than the conventional MEC scheme.
- Published
- 2019
- Full Text
- View/download PDF
26. Peer-to-Peer Packet Dispatching for Multi-Router Local Area Packetized Power Networks
- Author
-
H. Vincent Poor, Yonghui Li, Lingyang Song, and Hongliang Zhang
- Subjects
Router ,Routing protocol ,Power transmission ,Packet transmission ,General Computer Science ,business.industry ,Network packet ,Computer science ,ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS ,020208 electrical & electronic engineering ,020206 networking & telecommunications ,02 engineering and technology ,Peer-to-peer ,computer.software_genre ,Scheduling (computing) ,Distributed generation ,0202 electrical engineering, electronic engineering, information engineering ,business ,computer ,Computer network - Abstract
With a large penetration of distributed energy resources, DC power packet transmission has emerged as a promising technique to achieve efficient peer-to-peer (P2P) power dispatching. In this paper, a multirouter local area packetized power network (LAPPN) is considered, consisting of multiple power routers employed to dispatch power packets among demander and supplier subscribers connected to different routers. To realize the efficient P2P power transmission in the LAPPN, a power packet dispatching protocol is developed to determine the optimal routes for power packets to maximize the power packets utilization efficiency. The transmission schedule is then determined by allocating different power packets on different power channels simultaneously to accommodate the urgency requirements of different demander energy subscribers (ESs). Simulation results demonstrate the effectiveness of the proposed LAPPN power dispatching protocols in achieving high power packet utilization and meeting the urgency requirements of different demander ESs in P2P power delivery.
- Published
- 2019
- Full Text
- View/download PDF
27. Platoon Cooperation in Cellular V2X Networks for 5G and Beyond
- Author
-
Pengfei Wang, Kaigui Bian, Boya Di, Hongliang Zhang, and Lingyang Song
- Subjects
Computer science ,business.industry ,Applied Mathematics ,0202 electrical engineering, electronic engineering, information engineering ,020206 networking & telecommunications ,Platoon ,02 engineering and technology ,Electrical and Electronic Engineering ,business ,5G ,Computer Science Applications ,Computer network - Abstract
In this paper, we study the platoon cooperation in the multi-lane cooperative platoon scenario, where platoons move cooperatively and communicate with each other by cellular vehicle-to-everything (V2X) communication. The platoon cooperation is important for the interference management and communication reliability enhancement, yet it is difficult, since the platoon formation, subchannel allocation, and power control of each platoon interact with each other and influence those of other platoons. To increase the number of vehicles in the platoon and reduce the power consumption, we propose a two-step resource allocation strategy in consideration of platoon formation, i.e., the resource allocation at the base station (BS) and within each platoon. A branch and bound algorithm is utilized for the resource allocation at the BS. We then design a distributed dynamic programming-based subchannel allocation and power control algorithm for the joint optimization of platoon formation, subchannel allocation, and power control. The simulation results evaluate the impact of the penalty factor and the latency requirement on the system performance.
- Published
- 2019
- Full Text
- View/download PDF
28. Dual Trajectory Optimization for a Cooperative Internet of UAVs
- Author
-
Jiadi Yang, Hongliang Zhang, Shuhang Zhang, and Lingyang Song
- Subjects
Computer science ,business.industry ,Quality of service ,Real-time computing ,Mode (statistics) ,020206 networking & telecommunications ,02 engineering and technology ,Trajectory optimization ,Computer Science Applications ,law.invention ,Base station ,Signal-to-noise ratio ,Relay ,law ,Modeling and Simulation ,Convex optimization ,0202 electrical engineering, electronic engineering, information engineering ,The Internet ,Electrical and Electronic Engineering ,business - Abstract
In this letter, we consider a cooperative Internet of unmanned aerial vehicles (UAVs) in which the UAV collects data from ground sensors (GSs) and transmits the received data to the base station (BS) for further processing. The data at the UAV can either be transmitted directly to the BS via the cellular mode or be transmitted through the other UAV via the relay mode. The objective is to minimize the completion time for all the tasks by joint mode selection and trajectory optimization, which can be decoupled into a series of convex optimization problems. The simulation results show that the relay mode is more likely to be selected when the signal-to-noise ratio (SNR) threshold is higher than 10 dB. Otherwise, the UAV prefers to transmit in the cellular mode.
- Published
- 2019
- Full Text
- View/download PDF
29. Joint Task Assignment, Transmission, and Computing Resource Allocation in Multilayer Mobile Edge Computing Systems
- Author
-
Lingyang Song, Pengfei Wang, Chao Yao, Guangyu Sun, and Zijie Zheng
- Subjects
Mobile edge computing ,Edge device ,Computer Networks and Communications ,business.industry ,Computer science ,020302 automobile design & engineering ,020206 networking & telecommunications ,Cloud computing ,02 engineering and technology ,Computer Science Applications ,0203 mechanical engineering ,Hardware and Architecture ,Server ,Signal Processing ,0202 electrical engineering, electronic engineering, information engineering ,Resource allocation ,Wireless ,Resource management ,Cloudlet ,business ,Edge computing ,Information Systems ,Computer network - Abstract
In this paper, we propose a multilayer data flow processing system, i.e., EdgeFlow, to integrally utilize the computing capacity throughout the whole network, i.e., the cloud center (CC) on the top layer, the mobile edge computing (MEC) servers on the middle layer, and the edge devices (EDs) on the bottom layer. To realize the efficient data processing in EdgeFlow, we optimally assign the tasks to multiple layers, and allocate the wireless transmission resources between the MEC servers and EDs as well as the wired transmission resources between the CC and MEC servers. We prove that the system is naturally classified into two states, the nonblocking state and the blocking state, according to various data generation speed at the EDs. The system latency is minimized for the nonblocking state even though the problem is nonconvex. As for the blocking state, the recovery time is minimized through solving a min-max problem. Based on the analytical results, the EdgeFlow system is implemented on the universal software radio peripheral and the Intel next units of computing. A typical Internet of Things application, photo recording and face recognition, is used for the simulation and the experiment, and indicates that the EdgeFlow can achieve a low latency and recovery time than the previous distributed frameworks, e.g., the Cloudlet and the Markov decision process.
- Published
- 2019
- Full Text
- View/download PDF
30. Ultra-Dense LEO: Integration of Satellite Access Networks into 5G and Beyond
- Author
-
Lingyang Song, Boya Di, Yonghui Li, and H. Vincent Poor
- Subjects
Network architecture ,Access network ,business.industry ,Computer science ,Quality of service ,Physical layer ,020206 networking & telecommunications ,02 engineering and technology ,Computer Science Applications ,Cognitive radio ,0202 electrical engineering, electronic engineering, information engineering ,Communications satellite ,Wireless ,Data as a service ,Electrical and Electronic Engineering ,business ,Computer network - Abstract
To support the explosive growth of wireless devices and applications, various access techniques need to be developed for future wireless systems to provide reliable data services in vast areas. With recent significant advances in ultra-dense low Earth orbit (LEO) satellite constellations, satellite access networks (SANs) have shown their significant potential to integrate with 5G and beyond to support ubiquitous global wireless access. In this article, we propose an enabling network architecture for dense LEO-SANs in which the terrestrial and satellite communications are integrated to offer more reliable and flexible access. Through various physical-layer techniques such as effective interference management, diversity techniques, and cognitive radio schemes, the proposed SAN architecture can provide seamless and high-rate wireless links for wireless devices with different quality of service requirements. Three extensive applications and some future research directions in both the physical layer and network layer are then discussed.
- Published
- 2019
- Full Text
- View/download PDF
31. EdgeFlow: Open-Source Multi-layer Data Flow Processing in Edge Computing for 5G and Beyond
- Author
-
Chao Yao, Guangyu Sun, Zijie Zheng, Lingyang Song, and Xiaoyang Wang
- Subjects
Networking and Internet Architecture (cs.NI) ,FOS: Computer and information sciences ,Data processing ,Vehicular ad hoc network ,Edge device ,Computer Networks and Communications ,business.industry ,Computer science ,Distributed computing ,020206 networking & telecommunications ,Cloud computing ,02 engineering and technology ,Computer Science - Networking and Internet Architecture ,Data flow diagram ,Task (computing) ,Hardware and Architecture ,0202 electrical engineering, electronic engineering, information engineering ,Cloudlet ,business ,Software ,Edge computing ,Information Systems - Abstract
Edge computing has evolved to be a promising avenue to enhance the system computing capability by offloading processing tasks from the cloud to edge devices. In this paper, we propose a multi-layer edge computing framework called EdgeFlow. In this framework, different nodes ranging from edge devices to cloud data centers are categorized into corresponding layers and cooperate together for data processing. With the help of EdgeFlow, one can balance the trade-off between computing and communication capability so that the tasks are assigned to each layer optimally. At the same time, resources are carefully allocated throughout the whole network to mitigate performance fluctuation. The proposed open-source data flow processing framework is implemented on a platform that can emulate various computing nodes in multiple layers and corresponding network connections. Evaluated on the face recognition scenario, EdgeFlow can significantly reduce task finish time and perform more tolerance to run-time variation, compared with the pure cloud computing, the pure edge computing and Cloudlet. Potential applications of EdgeFlow, including network function visualization, Internet of Things, and vehicular networks, are also discussed in the end of this work., Comment: 17 pages, 6 figures, magazine
- Published
- 2019
- Full Text
- View/download PDF
32. Ultra-Dense LEO: Integrating Terrestrial-Satellite Networks Into 5G and Beyond for Data Offloading
- Author
-
Hongliang Zhang, Lingyang Song, Geoffrey Ye Li, Yonghui Li, and Boya Di
- Subjects
Networking and Internet Architecture (cs.NI) ,FOS: Computer and information sciences ,Ultra dense ,business.industry ,Computer science ,Applied Mathematics ,Macro cell ,020206 networking & telecommunications ,02 engineering and technology ,Computer Science Applications ,Computer Science - Networking and Internet Architecture ,Backhaul (telecommunications) ,Upload ,0202 electrical engineering, electronic engineering, information engineering ,Wireless ,Satellite ,Resource management ,Electrical and Electronic Engineering ,business ,5G ,Computer network - Abstract
In this paper, we propose a terrestrial-satellite network (TSN) architecture to integrate the ultra-dense low earth orbit (LEO) networks and the terrestrial networks to achieve efficient data offloading. In TSN, each ground user can access the network over C-band via a macro cell, a traditional small cell, or a LEO-backhauled small cell (LSC). Each LSC is then scheduled to upload the received data via multiple satellites over Ka-band. We aim to maximize the sum data rate and the number of accessed users while satisfying the varying backhaul capacity constraints jointly determined by the LEO satellite based backhaul links. The optimization problem is then decomposed into two closely connected subproblems and solved by our proposed matching algorithms. Simulation results show that the integrated network significantly outperforms the non-integrated ones in terms of the sum data rate. The influence of the traffic load and LEO constellation on the system performance is also discussed., Accepted by IEEE Transactions on Wireless Communications
- Published
- 2019
- Full Text
- View/download PDF
33. Guest Editorial: Special Issue on Internet of UAVs Over Cellular Networks
- Author
-
Hongliang Zhang, Merouane Debbah, Lingyang Song, Walid Saad, CentraleSupélec, HUAWEI Technologies France (HUAWEI), Princeton University, Virginia Tech [Blacksburg], and Peking University [Beijing]
- Subjects
Data processing ,Computer Networks and Communications ,business.industry ,Computer science ,Data needs ,ComputerApplications_COMPUTERSINOTHERSYSTEMS ,020206 networking & telecommunications ,02 engineering and technology ,ComputingMethodologies_ARTIFICIALINTELLIGENCE ,Service coverage ,Computer Science Applications ,[SPI]Engineering Sciences [physics] ,Hardware and Architecture ,Signal Processing ,0202 electrical engineering, electronic engineering, information engineering ,Cellular network ,ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS ,020201 artificial intelligence & image processing ,The Internet ,business ,ComputingMilieux_MISCELLANEOUS ,Information Systems ,Data transmission ,Computer network - Abstract
The Emerging unmanned aerial vehicles (UAVs) have been widely exploited for sensing purposes due to the larger service coverage compared with the conventional fixed sensor nodes. However, due to the limited computation capability of UAVs, real-time sensory data needs to be transmitted to the BS/server for real-time data processing. In this regard, the cellular networks are necessary to support the data transmission for UAVs, which is called the Internet of UAVs. Very recently, 3GPP has approved a study item on the enhanced support to seamlessly integrate UAVs into future cellular networks.
- Published
- 2021
- Full Text
- View/download PDF
34. Cluster-based Handoff Scheme Design for Platoons in Cellular V2X Networks
- Author
-
Shuhang Zhang, Haodong Wang, Boya Di, and Lingyang Song
- Subjects
Markov chain ,Computer science ,business.industry ,Markov process ,Base station ,symbols.namesake ,Handover ,Cluster (physics) ,symbols ,Overhead (computing) ,Resource allocation ,Platoon ,business ,Computer network - Abstract
In this paper we propose a cluster-based platoon handoff protocol (CPHP), in which the platoon is divided into clusters to minimize its handoff delay between two adjacent cells. Via the vehicle-to-vehicle (V2V) communications, multiple clusters are constructed within one platoon and only the cluster head (CH) communicates with the base station (BS) via the vehicle-to-infrastructure (V2I) communications. In this way, the number of V2I links can be greatly saved and the signaling overhead is reduced, thereby shortening the handoff delay. Specifically, we formulate a delay minimization problem based on a discrete-time Markov chain and then optimize the number of clusters and spectrum resource allocation. Simulation results demonstrate a significant decrease in the handoff delay of the platoon. The optimal expected delay under a platoon with 50 vehicles by utilizing the proposed CPHP is 15% smaller than that of the traditional handoff scheme.
- Published
- 2021
- Full Text
- View/download PDF
35. Spatial Equalization Before Reception: Reconfigurable Intelligent Surfaces for Multi-path Mitigation
- Author
-
Lingyang Song, Zhu Han, H. Vincent Poor, and Hongliang Zhang
- Subjects
Signal Processing (eess.SP) ,FOS: Computer and information sciences ,Optimization problem ,Computer science ,business.industry ,Iterative method ,Computer Science - Information Theory ,Information Theory (cs.IT) ,Equalization (audio) ,Interference (wave propagation) ,Transmission (telecommunications) ,Electronic engineering ,Benchmark (computing) ,FOS: Electrical engineering, electronic engineering, information engineering ,Wireless ,Fading ,Electrical Engineering and Systems Science - Signal Processing ,business ,Computer Science::Information Theory - Abstract
Reconfigurable intelligent surfaces (RISs), which enable tunable anomalous reflection, have appeared as a promising method to enhance wireless systems. In this paper, we propose to use an RIS as a spatial equalizer to address the well-known multi-path fading phenomenon. By introducing some controllable paths artificially against the multi-path fading through the RIS, we can perform equalization during the transmission process instead of at the receiver, and thus all the users can share the same equalizer. Unlike the beamforming application of the RIS, which aims to maximize the received energy at receivers, the objective of the equalization application is to reduce the inter-symbol interference (ISI), which makes phase shifts at the RIS different. To this end, we formulate the phase shift optimization problem and propose an iterative algorithm to solve it. Simulation results show that the multi-path fading effect can be eliminated effectively compared to benchmark schemes., Comment: Accepted by IEEE ICASSP 2021
- Published
- 2021
- Full Text
- View/download PDF
36. Introductions and Basics
- Author
-
Hongliang Zhang, Boya Di, Zhu Han, and Lingyang Song
- Subjects
Computer science ,business.industry ,Wireless ,Sect ,Telecommunications ,business - Abstract
In this chapter, we will first introduce the background and requirements in Sect. 1.1, and then overview the basics of the RIS in Sect. 1.2. Finally, we will present some fundamentals of RIS-aided wireless communications in Sect. 1.3.
- Published
- 2021
- Full Text
- View/download PDF
37. Convergences of RISs with Existing Wireless Technologies
- Author
-
Boya Di, Lingyang Song, Hongliang Zhang, and Zhu Han
- Subjects
Computer architecture ,Wireless communication systems ,business.industry ,Computer science ,Wireless ,Equalizer ,business ,Mimo systems - Abstract
In addition to realize low-cost MIMO systems, reconfigurable intelligent surfaces (RISs) have shown its potential to improve the performance of existing wireless techniques. In this chapter, we will show how to integrate RISs into existing wireless communication systems and give some case studies. This chapter is organized as follows: We give some introductions of RIS aided Device-to-Device (D2D) communications in Sect. 3.1. In Sect. 3.2, we show how to incorporate RISs into cell-free MIMO systems. In Sect. 3.3, a novel application of RIS, i.e., spatial equalizer is presented.
- Published
- 2021
- Full Text
- View/download PDF
38. Reconfigurable Intelligent Surfaces in 6G: Reflective, Transmissive, or Both?
- Author
-
Shuhao Zeng, Hongliang Zhang, H. Vincent Poor, Boya Di, Lingyang Song, Yunhua Tan, and Zhu Han
- Subjects
FOS: Computer and information sciences ,Focus (computing) ,Computer science ,business.industry ,Computer Science - Information Theory ,Information Theory (cs.IT) ,020206 networking & telecommunications ,02 engineering and technology ,Telecommunications network ,Computer Science Applications ,Base station ,Transmission (telecommunications) ,Modeling and Simulation ,Telecommunications link ,0202 electrical engineering, electronic engineering, information engineering ,Electronic engineering ,Wireless ,Electrical and Electronic Engineering ,Reflection (computer graphics) ,business - Abstract
Reconfigurable intelligent surfaces (RISs) have attracted wide interest from industry and academia since they can shape the wireless environment into a desirable form with a low cost. In practice, RISs have three types of implementations: 1) reflective, where signals can be reflected to the users on the same side of the base station (BS), 2) transmissive, where signals can penetrate the RIS to serve the users on the opposite side of the BS, and 3) hybrid, where the RISs have a dual function of reflection and transmission. However, existing works focus on the reflective type RISs, and the other two types of RISs are not well investigated. In this letter, a downlink multi-user RIS-assisted communication network is considered, where the RIS can be one of these types. We derive the system sum-rate, and discuss which type can yield the best performance under a specific user distribution. Numerical results verify our analysis., Comment: 5 pages, 4 figures, submitted to IEEE Communications Letters
- Published
- 2021
- Full Text
- View/download PDF
39. Differential modulation for bidirectional relaying with analog network coding
- Author
-
Lingyang Song, Yonghui Li, Anpeng Huang, Bingli Jiao, and Vasilakos, A.V.
- Subjects
Modulation (Electronics) -- Analysis ,Signal processing -- Methods ,Digital signal processor ,Business ,Computers ,Electronics ,Electronics and electrical industries - Published
- 2010
40. Minimum SER block precoding and equalization for frequency-selective fading channels
- Author
-
Lingyang Song de Lamare, R.C., Hjorungnes, A., Burr, A.G., and Bhatnagar, M.R.
- Subjects
Fading channels -- Analysis ,Gaussian processes -- Analysis ,Business ,Electronics ,Electronics and electrical industries ,Transportation industry - Published
- 2010
41. Unlicensed Spectrum Sharing with WiGig in Millimeter-wave Cellular Networks in 6G Era
- Author
-
Lingyang Song, Boya Di, and Pengfei Wang
- Subjects
Channel allocation schemes ,Computer science ,business.industry ,ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS ,020206 networking & telecommunications ,020302 automobile design & engineering ,02 engineering and technology ,Interference (wave propagation) ,Spectrum management ,0203 mechanical engineering ,Extremely high frequency ,0202 electrical engineering, electronic engineering, information engineering ,Cellular network ,Resource allocation ,Radio frequency ,business ,Communication channel ,Computer network - Abstract
In this paper, we study the harmonious coexistence of cellular and WiGig users around 60 GHz unlicensed millimeter-wave bands. To guarantee the fairness of two types of users, we propose a sensing based adaptive unlicensed channel sharing protocol. Jointly considering the frequency and spatial resource allocation, an iterative channel allocation and hybrid beamforming algorithm is designed to maximize the sum rate of all cellular users while minimizing the interference to WiGig networks. Simulation results show that our proposed scheme achieves a significant sum rate enhancement compared with that when utilizing only the licensed band.
- Published
- 2020
- Full Text
- View/download PDF
42. MetaSensing: Intelligent Metasurface Assisted RF 3D Sensing by Deep Reinforcement Learning
- Author
-
Zhu Han, Marco Di Renzo, Jingzhi Hu, Kaigui Bian, Lingyang Song, Hongliang Zhang, Peking University [Beijing], Princeton University, Université Paris-Saclay, Laboratoire des signaux et systèmes (L2S), CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS), University of Houston, and qian, xuewen
- Subjects
Signal Processing (eess.SP) ,Optimization problem ,Computer Networks and Communications ,business.industry ,Computer science ,020206 networking & telecommunications ,02 engineering and technology ,Systems and Control (eess.SY) ,Electrical Engineering and Systems Science - Systems and Control ,[SPI.TRON] Engineering Sciences [physics]/Electronics ,[SPI.TRON]Engineering Sciences [physics]/Electronics ,3d sensing ,0202 electrical engineering, electronic engineering, information engineering ,Electronic engineering ,FOS: Electrical engineering, electronic engineering, information engineering ,Reinforcement learning ,Wireless ,Fading ,Radio frequency ,Electrical and Electronic Engineering ,Electrical Engineering and Systems Science - Signal Processing ,business ,Reinforcement learning algorithm ,Joint (audio engineering) - Abstract
Using RF signals for wireless sensing has gained increasing attention. However, due to the unwanted multi-path fading in uncontrollable radio environments, the accuracy of RF sensing is limited. Instead of passively adapting to the environment, in this paper, we consider the scenario where an intelligent metasurface is deployed for sensing the existence and locations of 3D objects. By programming its beamformer patterns, the metasurface can provide desirable propagation properties. However, achieving a high sensing accuracy is challenging, since it requires the joint optimization of the beamformer patterns and mapping of the received signals to the sensed outcome. To tackle this challenge, we formulate an optimization problem for minimizing the cross-entropy loss of the sensing outcome, and propose a deep reinforcement learning algorithm to jointly compute the optimal beamformer patterns and the mapping of the received signals. Simulation results verify the effectiveness of the proposed algorithm and show how the sizes of the metasurface and the target space influence the sensing accuracy., 36 pages, 13 figures
- Published
- 2020
43. Reconfigurable Intelligent Surface (RIS) Assisted Wireless Coverage Extension: RIS Orientation and Location Optimization
- Author
-
Shuhao Zeng, Zhu Han, Boya Di, Lingyang Song, and Hongliang Zhang
- Subjects
FOS: Computer and information sciences ,Optimization problem ,Orientation (computer vision) ,business.industry ,Computer science ,Information Theory (cs.IT) ,Computer Science - Information Theory ,Real-time computing ,Computer Science - Emerging Technologies ,020206 networking & telecommunications ,02 engineering and technology ,Computer Science Applications ,Base station ,Emerging Technologies (cs.ET) ,User equipment ,Modeling and Simulation ,Telecommunications link ,0202 electrical engineering, electronic engineering, information engineering ,Wireless ,Electrical and Electronic Engineering ,business - Abstract
Recently, reconfigurable intelligent surfaces (RIS) have attracted a lot of attention due to their capability of extending cell coverage by reflecting signals toward the receiver. In this letter, we analyze the coverage of a downlink RIS-assisted network with one base station (BS) and one user equipment (UE). Since the RIS orientation and the horizontal distance between the RIS and the BS have a significant influence on the cell coverage, we formulate an RIS placement optimization problem to maximize the cell coverage by optimizing the RIS orientation and horizontal distance. To solve the formulated problem, a coverage maximization algorithm (CMA) is proposed, where a closed-form optimal RIS orientation is obtained. Numerical results verify our analysis., 5 pages, 7 figures, to be published in IEEE Communications Letters
- Published
- 2020
44. Beyond Intelligent Reflecting Surfaces: Reflective-Transmissive Metasurface Aided Communications for Full-dimensional Coverage Extension
- Author
-
Lingyang Song, Hongliang Zhang, Boya Di, Yunhua Tan, Shuhang Zhang, and Zhu Han
- Subjects
Signal Processing (eess.SP) ,Optimization problem ,Computer Networks and Communications ,business.industry ,Computer science ,Aerospace Engineering ,020302 automobile design & engineering ,02 engineering and technology ,Extension (predicate logic) ,Communications system ,Quality (physics) ,0203 mechanical engineering ,Automotive Engineering ,Telecommunications link ,Electronic engineering ,FOS: Electrical engineering, electronic engineering, information engineering ,Wireless ,Electrical and Electronic Engineering ,Electrical Engineering and Systems Science - Signal Processing ,business - Abstract
In this paper, we study an intelligent omni-surface (IOS)-assisted downlink communication system, where the link quality of a mobile user (MU) can be improved with a proper IOS phase shift design. Unlike the intelligent reflecting surface (IRS) in most existing works that only forwards the signals in a reflective way, the IOS is capable to forward the received signals to the MU in either a reflective or a transmissive manner, thereby enhancing the wireless coverage. We formulate an IOS phase shift optimization problem to maximize the downlink spectral efficiency (SE) of the MU. The optimal phase shift of the IOS is analysed, and a branch-and-bound based algorithm is proposed to design the IOS phase shift in a finite set. Simulation results show that the IOS-assisted system can extend the coverage significantly when compared to the IRS-assisted system with only reflective signals., 13 pages, 6 figures
- Published
- 2020
45. Reconfigurable Intelligent Surface Assisted Device-to-Device Communications
- Author
-
H. Vincent Poor, Zhu Han, Yali Chen, Hongliang Zhang, Yong Niu, Lingyang Song, and Bo Ai
- Subjects
Networking and Internet Architecture (cs.NI) ,FOS: Computer and information sciences ,business.industry ,Computer science ,Information Theory (cs.IT) ,Applied Mathematics ,Computer Science - Information Theory ,Beam steering ,020206 networking & telecommunications ,02 engineering and technology ,Interference (wave propagation) ,Computer Science Applications ,Computer Science - Networking and Internet Architecture ,Transmission (telecommunications) ,Telecommunications link ,0202 electrical engineering, electronic engineering, information engineering ,Electronic engineering ,Wireless ,Electrical and Electronic Engineering ,business ,Energy (signal processing) ,5G - Abstract
With the evolution of the 5G, 6G and beyond, device-to-device (D2D) communication has been developed as an energy-, and spectrum-efficient solution. In cellular network, D2D links need to share the same spectrum resources with the cellular link. A reconfigurable intelligent surface (RIS) can reconfigure the phase shifts of elements and create favorable beam steering, which can mitigate aggravated interference caused by D2D links. In this paper, we study a RIS-assisted single cell uplink communication network scenario, where the cellular link and multiple D2D links utilize direct propagation and reflecting one-hop propagation. The problem of maximizing the total system rate is formulated by jointly optimizing transmission powers of all links and discrete phase shifts of all elements. The formulated problem is an NP-hard mixed integer non-convex non-linear problem. To obtain practical solutions, we capitalize on alternating maximization and the problem is decomposed into two sub-problems. For the power allocation, the problem is a difference of concave functions (DC) problem, which is solved with the gradient descent method. For the phase shift, a local search algorithm with lower complexity is utilized. Simulation results show that deploying RIS and optimizing the phase shifts have a significant effect on mitigating D2D network interference., 11 pages, 9 figures
- Published
- 2020
46. PERM: Neural Adaptive Video Streaming with Multi-path Transmission
- Author
-
Lingyang Song, Yushuo Guan, Kaigui Bian, Bingxuan Wang, Xiaoliang Xiong, and Yuanxing Zhang
- Subjects
020203 distributed computing ,Emulation ,business.industry ,Computer science ,Quality of service ,Testbed ,02 engineering and technology ,Scheduling (computing) ,Bit rate ,0202 electrical engineering, electronic engineering, information engineering ,Adaptive video ,020201 artificial intelligence & image processing ,Multi path ,Quality of experience ,business ,Mobile device ,Computer network - Abstract
The multi-path transmission techniques enable multiple paths to maximize resource usage and increase throughput in transmission, which have been installed over mobile devices in recent years. For video streaming applications, compared to the single-path transmission, the multi-path techniques can establish multiple subflows simultaneously to extend the available bandwidth for streaming high-quality videos in mobile devices. Existing adaptive video streaming systems have difficulty in harnessing multi-path scheduling and balancing the tradeoff between the quality of experience (QoE) and quality of service (QoS) concerns. In this paper, we propose an actor-critic network based on Periodical Experience Replay for Multi-path video streaming (PERM). Specifically, PERM employs two actor modules and a critic module: the two actor modules respectively assign the path usage of each subflow and select bitrates for the next chunk of the video, while the critic module predicts the overall objectives. We conduct trace-driven emulation and real-world testbed experiment to examine the performance of PERM, and results show that PERM outperforms state-of-the-art multi-path and single path streaming systems, with an improvement of 10%- 15% on the QoE and QoS metrics.
- Published
- 2020
- Full Text
- View/download PDF
47. Distributed Energy Saving for Heterogeneous Multi-layer Mobile Edge Computing
- Author
-
Zijie Zheng, Boya Di, Lingyang Song, and Pengfei Wang
- Subjects
Mobile edge computing ,Edge device ,Computer science ,business.industry ,05 social sciences ,050801 communication & media studies ,Cloud computing ,Energy consumption ,Network congestion ,Upload ,0508 media and communications ,Server ,Distributed generation ,0502 economics and business ,Resource allocation ,Resource allocation (computer) ,050211 marketing ,business ,Computer network - Abstract
In this paper, we consider the distributed energy saving for heterogeneous multi-layer mobile edge computing (HetMEC), where the edge devices (EDs) upload computing tasks to the mobile edge computing (MEC) servers and the cloud center (CC) for processing. To reduce the energy consumption, task offloading and resource allocation are performed by each device independently to distribute the computation load. However, due to the partial information, the offloading strategies of devices on different layers can hardly be aligned, which may lead to network congestion. To address this problem, we propose a smart pricing mechanism to coordinate the strategies of multi-layer devices, where the CC charges the MEC servers and EDs for computing services and network congestion. The pricing based distributed task offloading and resource allocation algorithm is designed to minimize the total energy consumption subject to latency requirements. Simulation results indicate that our algorithm achieves lower energy consumption and congestion probability compared with the traditional distributed method.
- Published
- 2020
- Full Text
- View/download PDF
48. Reconfigurable Intelligent Surfaces for Wireless Communications: Principles, Challenges, and Opportunities
- Author
-
Hongliang Zhang, Geoffrey Ye Li, Lingyang Song, Mohamed A. ElMossallamy, Karim G. Seddik, and Zhu Han
- Subjects
Signal Processing (eess.SP) ,Computer Networks and Communications ,Wireless network ,business.industry ,Computer science ,MIMO ,020302 automobile design & engineering ,020206 networking & telecommunications ,02 engineering and technology ,Multiplexing ,Precoding ,0203 mechanical engineering ,Computer architecture ,Artificial Intelligence ,Hardware and Architecture ,0202 electrical engineering, electronic engineering, information engineering ,Key (cryptography) ,FOS: Electrical engineering, electronic engineering, information engineering ,Wireless ,Electrical Engineering and Systems Science - Signal Processing ,business ,Block (data storage) ,Communication channel - Abstract
Recently there has been a flurry of research on the use of reconfigurable intelligent surfaces (RIS) in wireless networks to create smart radio environments. In a smart radio environment, surfaces are capable of manipulating the propagation of incident electromagnetic waves in a programmable manner to actively alter the channel realization, which turns the wireless channel into a controllable system block that can be optimized to improve overall system performance. In this article, we provide a tutorial overview of reconfigurable intelligent surfaces (RIS) for wireless communications. We describe the working principles of reconfigurable intelligent surfaces (RIS) and elaborate on different candidate implementations using metasurfaces and reflectarrays. We discuss the channel models suitable for both implementations and examine the feasibility of obtaining accurate channel estimates. Furthermore, we discuss the aspects that differentiate RIS optimization from precoding for traditional MIMO arrays highlighting both the arising challenges and the potential opportunities associated with this emerging technology. Finally, we present numerical results to illustrate the power of an RIS in shaping the key properties of a MIMO channel., to appear in the IEEE Transactions on Cognitive Communications and Networking (TCCN)
- Published
- 2020
49. Deep Learning for Ultra-Reliable and Low-Latency Communications in 6G Networks
- Author
-
Zhanwei Hou, Rui Dong, Wibowo Hardjawana, Zhouyou Gu, Changyang She, Lingyang Song, Branka Vucetic, Yonghui Li, and Chenyang Yang
- Subjects
Signal Processing (eess.SP) ,FOS: Computer and information sciences ,Computer Science - Machine Learning ,Computer Networks and Communications ,Computer science ,Distributed computing ,Cloud computing ,Machine Learning (stat.ML) ,02 engineering and technology ,Machine Learning (cs.LG) ,Computer Science - Networking and Internet Architecture ,Statistics - Machine Learning ,0202 electrical engineering, electronic engineering, information engineering ,FOS: Electrical engineering, electronic engineering, information engineering ,Reinforcement learning ,Architecture ,Latency (engineering) ,Electrical Engineering and Systems Science - Signal Processing ,Networking and Internet Architecture (cs.NI) ,Mobile edge computing ,business.industry ,Deep learning ,Quality of service ,020206 networking & telecommunications ,Hardware and Architecture ,Artificial intelligence ,business ,Transfer of learning ,Software ,Information Systems - Abstract
In the future 6th generation networks, ultra-reliable and low-latency communications (URLLC) will lay the foundation for emerging mission-critical applications that have stringent requirements on end-to-end delay and reliability. Existing works on URLLC are mainly based on theoretical models and assumptions. The model-based solutions provide useful insights, but cannot be directly implemented in practice. In this article, we first summarize how to apply data-driven supervised deep learning and deep reinforcement learning in URLLC, and discuss some open problems of these methods. To address these open problems, we develop a multi-level architecture that enables device intelligence, edge intelligence, and cloud intelligence for URLLC. The basic idea is to merge theoretical models and real-world data in analyzing the latency and reliability and training deep neural networks (DNNs). Deep transfer learning is adopted in the architecture to fine-tune the pre-trained DNNs in non-stationary networks. Further considering that the computing capacity at each user and each mobile edge computing server is limited, federated learning is applied to improve the learning efficiency. Finally, we provide some experimental and simulation results and discuss some future directions., Comment: The manuscript contains 4 figures 2 tables. It has been submitted to IEEE Network (in the second round of revision)
- Published
- 2020
- Full Text
- View/download PDF
50. MetaLocalization: Reconfigurable Intelligent Surface Aided Multi-user Wireless Indoor Localization
- Author
-
Hongliang Zhang, Boya Di, Kaigui Bian, Haobo Zhang, Zhu Han, and Lingyang Song
- Subjects
Scheme (programming language) ,Signal Processing (eess.SP) ,Optimization problem ,Computer science ,business.industry ,Applied Mathematics ,RSS ,Real-time computing ,Phase (waves) ,computer.file_format ,Function (mathematics) ,Multi-user ,Computer Science Applications ,FOS: Electrical engineering, electronic engineering, information engineering ,Wireless ,Electrical Engineering and Systems Science - Signal Processing ,Electrical and Electronic Engineering ,business ,computer ,computer.programming_language ,Optimal decision - Abstract
The received signal strength (RSS) based technique is extensively utilized for localization in the indoor environments. Since the RSS values of neighboring locations may be similar, the localization accuracy of the RSS based technique is limited. To tackle this problem, in this paper, we propose to utilize reconfigurable intelligent surface (RIS) for the RSS based multi-user localization. As the RIS is able to customize the radio channels by adjusting the phase shifts of the signals reflected at the surface, the localization accuracy in the RIS aided scheme can be improved by choosing the proper phase shifts with significant differences of RSS values among adjacent locations. However, it is challenging to select the optimal phase shifts because the decision function for location estimation and the phase shifts are coupled. To tackle this challenge, we formulate the optimization problem for the RIS-aided localization, derive the optimal decision function, and design the phase shift optimization (PSO) algorithm to solve the formulated problem efficiently. Analysis of the proposed RIS aided technique is provided, and the effectiveness is validated through simulation.
- Published
- 2020
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.