Analysis of ultra-reliable and low-latency 5G communication for a factory automation use case

Yilmaz, Osman N. C.; Wang, Y.-P. Eric; Johansson, Niklas A.; Brahmi, Nadia; Ashraf, Shehzad; Sachs, Joachim

doi:10.1109/iccw.2015.7247339

Cited by 194 publications

(133 citation statements)

References 6 publications

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“…This becomes clear, with applications addressed in Section II requiring a reliable reception of rapidly transmitted data. A failure rate even below 10 −7 might be necessary in some 5G applications [24], [25]. This corresponds to merely 3.17 seconds of outage per year.…”

Section: B Ultra-reliable Connectivitymentioning

confidence: 99%

5G-Enabled Tactile Internet

Simsek

Aijaz

Dohler

et al. 2016

IEEE J. Select. Areas Commun.

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698

430

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Abstract-The long-term ambition of the Tactile Internet is to enable a democratization of skill, and how it is being delivered globally. An integral part of this is to be able to transmit touch in perceived real-time, which is enabled by suitable robotics and haptics equipment at the edges, along with an unprecedented communications network. The fifth generation (5G) mobile communications systems will underpin this emerging Internet at the wireless edge. This paper presents the most important technology concepts which lay at the intersection of the larger Tactile Internet and the emerging 5G systems. The paper outlines the key technical requirements and architectural approaches for the Tactile Internet, pertaining to wireless access protocols, radio resource management aspects, next generation core networking capabilities, edge-cloud and edge-AI capabilities. The paper also highlights the economic impact of the Tactile Internet as well as a major shift in business models for the traditional telecommunications ecosystem.

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Section: B Ultra-reliable Connectivitymentioning

confidence: 99%

5G-Enabled Tactile Internet

Simsek

Aijaz

Dohler

et al. 2016

IEEE J. Select. Areas Commun.

Self Cite

698

430

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“…The goodput of the studied wireless technologies is not considered in this manuscript due to the static broadcast-like behavior. We base our research on the assumptions adopted from the industrial works by Ericsson [66,67]. Our custom simulator utilized in this work was previously calibrated with the real-life measurements in [68].…”

Section: Implementation Of the Target Scenariomentioning

confidence: 99%

Secure and Connected Wearable Intelligence for Content Delivery at a Mass Event: A Case Study

Ometov

Solomitckii

Olsson

et al. 2017

JSAN

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Presently, smart and connected wearable systems, such as on-body sensors and head-mounted displays, as well as other small form factor but powerful personal computers are rapidly pervading all areas of our life. Motivated by the opportunities that next-generation wearable intelligence is expected to provide, the goal of this work is to build a comprehensive understanding around some of the user-centric security and trust aspects of the emerging wearable and close-to-body wireless systems operating in mass events and under heterogeneous conditions. The paper thus intends to bring the attention of the research community to this emerging paradigm and discuss the pressing security and connectivity challenges within a popular consumer context. Our selected target scenario is that of a sports match, where wearable-equipped users may receive their preferred data over various radio access protocols. We also propose an authentication framework that allows for delivery of the desired content securely within the considered ecosystem.

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“…However, there is no clear unified view which parts that are included in this end-toend delay. According to some research articles [11] and white papers [31], the latency budget (based on Tactile Internet ITU watch report) is given as the time delay between data being generated at the sensor and being correctly received by the actuator [31]. This requirement will become very difficult to achieve since the law of physics puts some hard limitations on this.…”

Section: B Latencymentioning

confidence: 99%

“…Recently, a set of papers from telecom vendors were published, which included requirements of industrial automation for 5G [11], [12] were listed, but most of these fail since they assume that all use cases within industrial automation has the same set of requirements. Nevertheless, industrial automation can be divided into several sub-areas, building automation (BAS), process automation (PA), factory automation (FA), and substation automation (SA), which have different distinct communication requirements, see Table I.…”

Section: Requirements Of Industrial Applicationsmentioning

confidence: 99%

Will 5G become yet another wireless technology for industrial automation?

Gidlund

Lennvall

Åkerberg

2017

2017 IEEE International Conference on Industrial Technology (ICIT)

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Abstract-With the growing interest in adoption of wireless technologies in industrial automation and the continuous search for new revenue streams new players are entering the arena in order to make their business grow further. One of the emerging wireless technologies aiming to support industrial automation applications is 5G, targeting anything from extreme throughput (> 10 Gbit/s) to extreme low latency (≤ 1 ms) to ultra high reliability (≥ 99.999%). In this article we intend to discuss the potential and challenges of adopting 5G in real industrial environments and give a more balanced picture compared to previous articles mainly written by telecom researchers and vendors as a way to promote their technology. Specifically, this article will discuss and provide some real industrial requirements, describe the main technical features of 5G and try to assess what applications it will support that are not by already supported by existing technologies. In the end, the success of 5G will depend on appealing business models and scalability, i.e., whether or not the same equipment can be deployed worldwide without any changes and spectrum rules, and the migration paths beyond 5G for reasonable business risks.

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Analysis of ultra-reliable and low-latency 5G communication for a factory automation use case

Cited by 194 publications

References 6 publications

5G-Enabled Tactile Internet

5G-Enabled Tactile Internet

Secure and Connected Wearable Intelligence for Content Delivery at a Mass Event: A Case Study

Will 5G become yet another wireless technology for industrial automation?

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