Dr. Yanxiao Zhao is an Associate Professor in the ECE Department, Virginia Commonwealth University. She received her Ph.D. degree from the Department of ECE, Old Dominion University, under the supervision of Dr. Min Song.
Prior to joining VCU, Dr. Zhao was a faculty member at South Dakota School of Mines and Technology from 2012-2018. Dr. Zhao’s research interests include, but not limited to: cyber security, wireless networks including vehicular networks, wireless autonomous networks, wireless body area networks, software-defined networks, and device-to-device (D2D) communications, energy harvesting for Internet of things with wearable sensors, power management and communications in smart grid. Dr. Zhao has secured over $1 Million research grants supported by NSF, NASA and Air Force. Dr. Zhao has published over 70 papers in prestigious journals and international conferences. She was the recipient of the Best Paper Award for three international conferences WASA2009, ChinaCom2016 and ICMIC2019. She has been actively organizing international conferences by serving as TPC co-chair, publicity chairs and TPC members. She is an IEEE Senior Member.
Industry Expertise (2)
Areas of Expertise (5)
Wireless Communications and Networks
Wireless Energy Harvesting Systems
Wearable sensors for healthcare
Internet of Things (IoT)
Old Dominion University: Ph.D., Electrical and Computer Engineering 2012
Xi'an Jiaotong University: M.S., Electrical and Computer Engineering 2005
Courses taught at VCU (2018-present)
EGRE 364 Microcomputer Systems, spring 2019 EGRE 364 Microcomputer Systems, fall 2019
Courses taught at SDSMT (2012-2018)
Computer Networks Wireless Communications Communication Systems Digital System Design in VHDL Electronics
Selected Articles (17)
The Controller Placement Problem in Software Defined Networking: A SurveyIEEE Network
G. Wang, Y. Zhao, J. Huang, W. Wang
In this article, we first survey the state-of-the-art solutions to the controller placement problem in SDN, and draw a taxonomy based on their objectives, and then propose a new approach to minimize the packet propagation latency between controllers and switches.
Optimal On Demand Delay-constrained Fair Distribution for Self-coexistence WRANComputer Networks Journal
Y. Zhao, MD N. Anjum, L. Pu, G. Wang, Y. Luo
In this paper, we fully consider the distinct delay constraints and frame demands of users and formulate the resource allocation optimization problem as an integer programming problem. A new approach termed On Demand Delay-constrained Fair Distribution (ODDFD) is proposed to solve this optimization problem.
DTER: Schedule Optimal RF Energy Request and Harvest for Internet of ThingsIEEE Internet of Things Journal
Y. Luo, L. Pu, Y. Zhao, G. Wang, M. Song
We propose a new energy harvesting strategy that uses a dedicated energy source (ES) to optimally replenish energy for radio frequency (RF) energy harvesting powered Internet of Things. Specifically, we develop a two-step dual tunnel energy requesting (DTER) strategy that minimizes the energy consumption on both the energy harvesting device and the ES.
Data Aggregation Point Placement Problem in Neighborhood Area Networks of Smart GridMobile Networks and Applications Journal
G. Wang, Y. Zhao, Y. Ying, J. Huang, R. Winter
In this paper, we investigate the DAP placement problem and propose solutions to reduce the distance between DAPs and smart meters. Specifically, the DAP placement problem is formulated with two objectives, e.g., the average distance minimization and the maximum distance minimization.
Harness Interference for Performance Improvement in Underwater Sensor NetworksIEEE Systems Journal
Y. Luo, L. Pu, Y. Zhao, J. Cui
In this paper, we propose a new communication scheme, called the mirror node assisted communication (MNAC), to improve the channel efficiency in underwater sensor networks (UWSNs). In the new scheme, a mirror node is selected properly for each specified source node so that the signals from the source and the mirror nodes could add destructively at a protected receiver.
Prediction-based Spectrum Management in Cognitive Radio NetworksIEEE Systems Journal
Y. Zhao, Z. Hong, Y. Luo, G. Wang, L. Pu
In this paper, we propose a new prediction-based spectrum management strategy to tackle this challenge. Both spectrum prediction and users’ mobility prediction are fully considered in the proposed strategy.
Exploring Uncertainties of Transmission and Reception Delays for Underwater Acoustic NetworksIEEE Wireless Communications Letter
Y. Luo, L. Pu, Y. Zhao, J. Cui
In this letter, we study delay uncertainties of a real underwater system on sending and receiving acoustic signals. Based on experimental data, the delay is first decomposed into seven components, then the features of each component are studied carefully.
A Game-Theoretic Resource Allocation Approach for Intercell Device-to-Device Communications in Cellular NetworksIEEE Transactions on Emerging Topics in Computing
J. Huang, Y. Yin, Y. Zhao, Q. Duan, W. Wang, S. Yu,
In this paper, we investigate the resource allocation issue for intercell scenarios where a D2D link is located in the overlapping area of two neighboring cells. Furthermore, we present three intercell D2D scenarios regarding the resource allocation problem.
An Effective AODV- based Flooding Detection and Prevention for Smart Meter NetworkInternational Conference on Identification, Information and Knowledge in the Internet of Things (IIKI)
M. Hasan, Y. Zhao, G. Wang, Y. Luo, R. Winter
To detect and prevent flooding attacks, we propose a new AODV-based routing protocol called FLOoding aWareness AODV (FLOW-AODV) considering both with and without Internet Protocol (IP) spoofing.
Enhanced AODV: Detection and Avoidance of Black Hole Attack in Smart Metering NetworkInternational Conference on Computer Communications and Networks (ICCCN) Workshop (WiMAN)
Md R. Hasan, Y. Zhao, G.Wang, Y. Luo and R. Winter,
To detect and avoid black hole attacks, we propose a new routing protocol, termed Enhanced Ad-hoc On-Demand Distance Vector (E-AODV) by modifying the Route Reply (RREP) system based on AODV.
Optimal Energy Requesting Strategy for RF-based Energy Harvesting Wireless CommunicationsIEEE International Conference on Computer Communications (INFOCOM)
Y. Luo, L. Pu, Y. Zhao, G.Wang, M. Song,
This paper introduces a new energy harvesting strategy that uses a dedicated energy source to optimally replenish energy for radio frequency (RF) based wireless communication systems. Specifically, we develop a two-step dual tunnel energy requesting (DTER) strategy that allows an energy harvesting device to effectively obtain energy from a dedicated energy source.
A K-Means-Based Network Partition Algorithm for Controller Placement in Software Defined NetworkIEEE International Conference on Communications (ICC)
G. Wang, Y. Zhao, J. Huang, Q. Duan, J. Li,
In this paper, we investigate multi-controller placement problem from the perspective of latency minimization. Distinct from previous works, the network partition technique is introduced to simplify the problem.
High-Order Hidden Bivariate Markov Model: A Novel Approach on Spectrum Prediction25th International Conference on Computer Communication and Networks (ICCCN)
Y. Zhao, Z. Hong, G. Wang, J. Huang
In this paper, we propose a novel prediction approach termed high-order hidden bivariate Markov model (H^2BMM), by leveraging the advantages of both HBMM and high-order. H^2BMM applies two dimensional parameters, i.e., hidden process and underlying process, to more accurately describe the channel behavior.
Optimal Resource Allocation for Delay Constrained Users in Self-coexistence WRANIEEE Global Communications Conference (GLOBECOM)
Y. Zhao, MD N. Anjum, M. Song, X. Xu, G. Wang
To fully consider various delay constraints and frame demands, in this paper we formulate the resource allocation optimization problem as an integer programming problem and present a new approach termed On Demand Delay-constrained Fair Distribution (ODDFD).
Detection of primary user's signal in cognitive radio networks: Angle of Arrival based approachIEEE Global Communications Conference (GLOBECOM)
Y. Zhao, J Huang, W Wang, R. Zaman
In this paper, we address this issue and propose to employ an Angle of Arrival (AoA) based sensing approach to effectively distinct a primary user's signal from a secondary user' signal.
FMAC: A Fair MAC Protocol for Coexisting Cognitive Radio networksIEEE International Conference on Computer Communications (INFOCOM)
Y. Zhao, M. Song, C. Xin
In this paper, we introduce a novel MAC protocol, termed fairness-oriented media access control (FMAC), to address the dynamic availability of channels and achieve fair and efficient coexistence of cognitive radio networks.
Spectrum sensing based on three-state model to accomplish all-level fairness for co-existing multiple cognitive radio networksIEEE International Conference on Computer Communications (INFOCOM)
Y. Zhao, M. Song, C. Xin, M. Wadhwa
In this paper, we propose a three-state sensing model that distinguishes the channel into three states: idle, occupied by a primary user, or occupied by a secondary user.