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  • 1.
    Huang, Victor K. L.
    et al.
    Sage Technol Resources, Richmond, VA USA.;Sage Technol Resources, IT Automot Sect Elect Vehicles, Richmond, VA USA.;Six Silicon Valley, Richmond, VA USA.;IES, Richmond, VA USA.;IES Stand Tech Comm, Richmond, VA USA.;IES IEEE Stand Assoc, Richmond, VA USA.;IEEE Commun Soc, Richmond, VA USA.;IEEE Tech Engn Management Soc, Richmond, VA USA..
    Pang, Zhibo
    KTH, School of Electrical Engineering and Computer Science (EECS), Information Science and Engineering. ABB Corp Res, Wireless Commun, Västerås, Sweden;Tsinghua Univ, Beijing, Peoples R China.;Univ Sydney, Sydney, NSW, Australia.;Zhejiang Univ, Hangzhou, Zhejiang, Peoples R China.;Beijing Univ Posts & Telecommun, Beijing, Peoples R China..
    Chen, Cheng-Jen (Allen)
    IES Stand Tech Comm, Richmond, VA USA..
    Tsang, Kim Fung
    City Univ Hong Kong, Dept Elect Engn, Hong Kong, Hong Kong, Peoples R China.;Internet Things Comm, Smart City Consortium, Hong Kong, Hong Kong, Peoples R China..
    New Trends in the Practical Deployment of Industrial Wireless2018In: IEEE Industrial Electronics Magazine, ISSN 1932-4529, E-ISSN 1941-0115, Vol. 12, no 2, p. 50-58Article in journal (Refereed)
  • 2.
    Jiang, Xiaolin
    et al.
    KTH, School of Electrical Engineering and Computer Science (EECS), Network and Systems engineering.
    Pang, Zhibo
    ABB Corporate Research, Sweden.
    N. Jansson, Roger
    ABB Corporate Research, Sweden.
    Pan, Fei
    University of Electronic Science and Technology of China, China.
    Fischione, Carlo
    KTH, School of Electrical Engineering and Computer Science (EECS), Network and Systems engineering.
    Fundamental Constraints for Time-slotted MAC Design in Wireless High Performance : the Realistic Perspective of Timing2018Conference paper (Refereed)
  • 3.
    Jiang, Xiaolin
    et al.
    KTH, School of Electrical Engineering and Computer Science (EECS), Network and Systems engineering.
    Pang, Zhibo
    KTH, School of Electrical Engineering and Computer Science (EECS), Information Science and Engineering.
    Zhan, Ming
    KTH.
    Dzung, Dacfey
    Luvisotto, Michele
    Fischione, Carlo
    KTH, School of Electrical Engineering and Computer Science (EECS), Network and Systems engineering.
    Packet Detection by Single OFDM Symbol in URLLC for Critical Industrial Control: a Realistic Study2018In: IEEE Journal on Selected Areas in Communications, ISSN 0733-8716, E-ISSN 1558-0008Article in journal (Other academic)
  • 4.
    Jiang, Xiaolin
    et al.
    KTH, School of Electrical Engineering and Computer Science (EECS), Network and Systems Engineering. KTH.
    Shokri-Ghadikolaei, Hossein
    KTH, School of Electrical Engineering and Computer Science (EECS), Network and Systems Engineering.
    Fischione, Carlo
    KTH, School of Electrical Engineering and Computer Science (EECS), Network and Systems Engineering.
    Pang, Zhibo
    KTH, School of Electrical Engineering and Computer Science (EECS), Electric Power and Energy Systems.
    A Simplified Interference Model for Outdoor Millimeter-waveNetworks2019In: Mobile Networks and Applications, ISSN 1383-469X, Vol. 24, no 3, p. 983-990Article in journal (Refereed)
    Abstract [en]

    Industry 4.0 is the emerging trend of the industrial automation. Millimeter-wave (mmWave) communication is a prominent technology for wireless networks to support the Industry 4.0 requirements. The availability of tractable accurate interference models would greatly facilitate performance analysis and protocol development for these networks. In this paper, we investigate the accuracy of an interference model that assumes impenetrable obstacles and neglects the sidelobes. We quantify the error of such a model in terms of statistical distribution of the signal to noise plus interference ratio and of the user rate for outdoor mmWave networks under different carrier frequencies and antenna array settings. The results show that assuming impenetrable obstacle comes at almost no accuracy penalty, and the accuracy of neglecting antenna sidelobes can be guaranteed with sufficiently large number of antenna elements. The comprehensive discussions of this paper provide useful insights for the performance analysis and protocol design of outdoor mmWave networks.

  • 5.
    Mumtaz, Shahid
    et al.
    Inst Telecomunicacoes Aveiro, Aveiro, Portugal.;Ericsson, Karlskrona, Sweden.;Huawei Res Labs, Karlskrona, Sweden..
    Alsohaily, Ahmed
    Univ Toronto, Wireless Lab, Dept Elect & Comp Engn, Toronto, ON M5S 1A1, Canada.;Next Generat Mobile Networks Alliance, Frankfurt, Germany.;Telus, Technol strategy team, Vancouver, BC, Canada..
    Pang, Zhibo
    KTH. Asea Brown Boveri Corp Res, Baden, Switzerland..;Tsinghua Univ, Beijing, Peoples R China.;Beijing Univ Posts & Telecommun, Beijing, Peoples R China..
    Rayes, Ammar
    Cisco Syst, San Jose, CA USA..
    Tsang, Kim Fung
    City Univ Hong Kong, Dept Elect Engn, Hong Kong, Hong Kong, Peoples R China..
    Rodriguez, Jonathan
    Ctr Commun Syst Res, Surrey, England.;Inst Telecomunicacoes, Lisbon, Portugal..
    Massive Internet of Things for Industrial Applications2017In: IEEE Industrial Electronics Magazine, ISSN 1932-4529, E-ISSN 1941-0115, Vol. 11, no 1, p. 28-33Article in journal (Refereed)
    Abstract [en]

    This article provides an overview of the development and standardizations of connectivity solutions for enabling the Industrial Internet of Things (IIoT). It also highlights key IIoT connectivity technologies and platforms that have the potential of driving the next industrial revolution. In addition, the article addresses the main challenges standing in the way of realizing the full potential of the IIoT, namely attaining secure connectivity and managing a vastly fragmented ecosystem of connectivity solutions and platforms. Finally, IIoT connectivity challenges are illustrated by the example of future building automation.

  • 6.
    Pan, Fei
    et al.
    Univ Elect Sci & Technol China, Natl Key Lab Sci & Technol Commun, Chengdu, Sichuan, Peoples R China..
    Pang, Zhibo
    KTH, School of Electrical Engineering and Computer Science (EECS), Electric Power and Energy Systems. KTH, School of Electrical Engineering and Computer Science (EECS), Information Science and Engineering. ABB Corp Res, Wireless Commun, Västerås, Sweden.;Tsinghua Univ, Beijing, Peoples R China.;Zhejiang Univ, Hangzhou, Zhejiang, Peoples R China.;Beijing Univ Posts & Telecommun, Beijing, Peoples R China..
    Luvisotto, Michele
    ABB Corp Res Ctr, Vasteras, Sweden..
    Xiao, Ming
    KTH, School of Electrical Engineering and Computer Science (EECS), Information Science and Engineering.
    Wen, Hong
    Univ Waterloo, Elect & Comp Engn Dept, Waterloo, ON, Canada.;Univ Elect Sci & Technol China, Chengdu, Sichuan, Peoples R China..
    Physical-Layer Security for Industrial Wireless Control Systems2018In: IEEE Industrial Electronics Magazine, ISSN 1932-4529, E-ISSN 1941-0115, Vol. 12, no 4, p. 18-27Article in journal (Refereed)
    Abstract [en]

    Wireless networks for industrial control systems are promising because of their reduced cost, flexible structure, and improved long-term reliability. However, wireless control systems are vulnerable to probing-free attacks (PFAs), which are not possible in wired control systems. Thus, wireless control systems must be made as secure as wired systems. Physical (PHY)-layer security technology (PHY-Sec) may be a new strategy for securing industrial wireless control systems. Among all PHY-Sec technologies, PHY-layer authentication is the first step for PHYSec in industrial wireless control systems. This article discusses the principles of PHY-Sec, its application to wireless control systems, and potential research directions.

  • 7.
    Zhan, Ming
    et al.
    KTH. Royal Inst Technol, Stockholm, Sweden.;ABB Corp Res Ctr, Vasteras, Sweden.;Southwest Univ, Coll Elect & Informat Engn, Chongqing, Peoples R China..
    Pang, Zhibo
    KTH, School of Electrical Engineering and Computer Science (EECS), Electric Power and Energy Systems. KTH, School of Electrical Engineering and Computer Science (EECS), Information Science and Engineering. KTH, Stockholm, Sweden.;Tsinghua Univ, Beijing, Peoples R China.;Zhejiang Univ, Hangzhou, Zhejiang, Peoples R China.;Beijing Univ Posts & Telecommun, Beijing, Peoples R China..
    Xiao, Ming
    KTH, School of Electrical Engineering and Computer Science (EECS), Information Science and Engineering. Royal Inst Technol, Commun Theory, Sch Elect Engn & Comp Sci, Stockholm, Sweden..
    Luvisotto, Michele
    ABB Corp Res Ctr, Vasteras, Sweden..
    Dzung, Dacfey
    ABB Corp Res, Ind & Util Commun, Baden, Switzerland..
    Wireless High-Performance Communications Improving Effectiveness and Creating Ultrahigh Reliability with Channel Coding2018In: IEEE Industrial Electronics Magazine, ISSN 1932-4529, E-ISSN 1941-0115, Vol. 12, no 3, p. 32-37Article in journal (Refereed)
    Abstract [en]

    To meet a set of stringent requirements for wireless control in critical applications, the described wireless high-performance (WirelessHP) communication system represents a breakthrough regarding microsecondlevel latency, but the proof of ultrahigh reliability is still lacking. To this aim, we propose the incorporation of channel coding in its physical layer. Building on a customized protocol stack and a hardware demonstrator, we prove the effectiveness of channel coding and suggest further research in this area.

  • 8. Zhao, G.
    et al.
    Imran, M. A.
    Pang, Zhibo
    KTH, School of Electrical Engineering and Computer Science (EECS), Information Science and Engineering.
    Chen, Z.
    Li, L.
    Toward Real-Time Control in Future Wireless Networks: Communication-Control Co-Design2019In: IEEE Communications Magazine, ISSN 0163-6804, E-ISSN 1558-1896, Vol. 57, no 2, p. 138-144, article id 8558500Article in journal (Refereed)
    Abstract [en]

    Wireless networks are undergoing a transition from connecting people to connecting things, which will allow human interaction with the physical world in a real-time fashion, for example, Tactile Internet, industrial automation, self-driving vehicles, and remote surgery. Therefore, future wireless networks need to support real-time control since it is the essential function enabling such emerging applications. In this article, some fundamental design capabilities needed to realize real-time control in future wireless networks are discussed, with primary emphasis given to communication-control because both communication and control systems have strong dynamics and interdependencies, and they tightly interact with each other. A case study is provided to demonstrate the necessity of such co-design.

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