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Fei Pan , Zhibo Pang2
Estimated H-index: 2
+ 2 AuthorsHong Wen (University of Electronic Science and Technology of China)
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 system...
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Ming Zhan1
Estimated H-index: 1
,
Zhibo Pang2
Estimated H-index: 2
+ 2 AuthorsDacfey Dzung1
Estimated H-index: 1
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 sugge...
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Zhibo Pang2
Estimated H-index: 2
,
Michele Luvisotto5
Estimated H-index: 5
(University of Padua),
Dacfey Dzung11
Estimated H-index: 11
Wireless networks for industrial control have long been considered a good technical solution for companies because of reduced costs and improved long-term reliability. However, critical applications in the Industry 4.0 era demand high performance (HP) in reliability and latency. Existing industrial wireless solutions are not able to meet these requirements because they are built on general-purpose chips and standards. We propose a new paradigm we call WirelessHP, which relies on a ...
3 Citations Source Cite
Victor Huang4
Estimated H-index: 4
(Sage Group),
Zhibo Pang2
Estimated H-index: 2
+ 1 AuthorsKim Fung Tsang13
Estimated H-index: 13
(City University of Hong Kong)
Approximately a decade after their introduction, industrial wireless technologies are on the rise. Recognizing this need, the U.S. National Institute of Standards and Technology (NIST) began working on a best practices operational guide, the Practical Guide to Industrial Wireless Systems Deployment. This guide is currently under development in the NIST Industrial Wireless Systems Technical Working Group (IWSTWG), in collaboration with the IEEE Industrial Electronics Society ...
1 Citations Source Cite
Stefano Vitturi18
Estimated H-index: 18
,
Federico Tramarin9
Estimated H-index: 9
,
Lucia Seno12
Estimated H-index: 12
In the last few years, wireless networks have gained significant importance in the context of industrial communication systems [1], where their deployment is bringing several noticeable benefits, ranging from replacement of cables to the connection of devices that cannot be reached by traditional wired systems. These features make the adoption of wireless networks for industrial applications very attractive, and they are envisaged to be deployed even more in the future, either as s...
21 Citations Source Cite
Gianluca Cena18
Estimated H-index: 18
,
Adriano Valenzano22
Estimated H-index: 22
,
Stefano Vitturi18
Estimated H-index: 18
In this article, some considerations are presented about the way several well-known industrial networks (based on both fieldbus and industrial Ethernet solutions) can be practically extended with wireless subnetworks that rely on popular technologies, such as IEEE 802.11 and 802.15.4. This results in hybrid networks, which are able to combine the advantages of both wired and wireless solutions. In particular, advantages and drawbacks of several interconnection techniques are highli...
66 Citations Source Cite
Fernando A. Silva3
Estimated H-index: 3
This book offers an in-depth state of the art in sensor network technologies for industry applications while also dealing with emerging and already deployed industrial WSN applications and technologies. It is divided into 16 chapters: Applications of Industrial Wireless Sensor Networks; Machine Condition Monitoring with Industrial Wireless Sensor Networks; Wireless Sensor Networks for Intelligent Transportation Applications; Design Challenges and Objectives in Industrial ...
8 Citations Source Cite
Richard Candell4
Estimated H-index: 4
(National Institute of Standards and Technology),
Mohamed Kashef2
Estimated H-index: 2
(National Institute of Standards and Technology)
+ 2 AuthorsSebti Foufou
Industrial wireless has great potential to improve the monitoring and control of various processes and equipment in distributed automation systems because of advances in wireless networks and installation flexibility. However, harsh industrial environments and interference from the crowded electromagnetic frequency spectrum make it challenging for wireless to achieve the required performance. Thus, it is important to understand the benefits of wireless in certain indu...
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Shahid Mumtaz12
Estimated H-index: 12
,
Ahmed Alsohaily5
Estimated H-index: 5
(University of Toronto)
+ 3 AuthorsJonathan Rodriguez19
Estimated H-index: 19
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 connect...
16 Citations Source Cite
Guntram Scheible12
Estimated H-index: 12
,
Dacfey Dzung11
Estimated H-index: 11
+ 1 AuthorsJan Erik Frey1
Estimated H-index: 1
A truly wireless S/A interface with wireless power and wireless communication for real-time factory operation has been presented. WISA uses IEEE 802.15.1 radio transceivers, but adds an optimized TDMA protocol to support a high number (120) of S/As per BS as well as short cycle times (2,048 μs).
72 Citations Source Cite