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Stig Petersen1
Estimated H-index: 1
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Simon Carlsen9
Estimated H-index: 9
The first decade of the new millennium has been a stage for the rapid development of wireless communication technologies for low-cost, low-power wireless solutions capable of robust and reliable communication [1]. IEEE Standard 802.15.4 for low-rate wireless personal area networks (WPANs) [2] has been the enabling technology for numerous applications within the field of wireless sensor networks (WSNs) [3], and more recently, wireless instrumentation. Although W...
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Guntram Scheible12
Estimated H-index: 12
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Dacfey Dzung11
Estimated H-index: 11
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Jan Endresen11
Estimated H-index: 11
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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).
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Gianluca Cena18
Estimated H-index: 18
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Adriano Valenzano22
Estimated H-index: 22
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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...
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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 ...
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Zhibo Pang2
Estimated H-index: 2
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Michele Luvisotto5
Estimated H-index: 5
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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 relie...
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Victor K.L. Huang1
Estimated H-index: 1
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Zhibo Pang2
Estimated H-index: 2
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Cheng-Jen Allen Chen1
Estimated H-index: 1
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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 ...
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Ming Zhan1
Estimated H-index: 1
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Zhibo Pang2
Estimated H-index: 2
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Ming Xiao21
Estimated H-index: 21
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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 an...
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V. Huang1
Estimated H-index: 1
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I. Sayers1
Estimated H-index: 1
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J. Long1
Estimated H-index: 1
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This article describes an alternative MESH approach that simplifies deployment and reduces costs significantly. Using the right technology tool and paying attention to practical business costs can meet the needs of the consumer while still making network deployment profitable for the operator. The scalability of the solution and the comparison example shown in the article indicates that size is important in the deployment of next generation wireless networks for simplifying deployment and...
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The history of radar has often been told by the nations who used it to win World War II (WWII). History books often stated that radar won the war for the Allies. This is probably an overstatement, as both sides used radar. Research on radar started in eight nations well before WWII: France, Germany, Italy, Japan, The Netherlands, the Soviet Union, the United Kingdom, and the United States. The first evidence of the radar principle sprung from wireless technology as early as 1897, when Ale...
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