Outlook on the Network Automation Global Market to 2027 - Impact Analysis of COVID-19
January 13, 2021 05:43 ET | Source: Research and Markets Research and Markets Dublin, IRELAND
ResearchAndMarkets.com s offering. According to this report, the Global Network Automation market accounted for $2.36 billion in 2019 and is expected to reach $12.14 billion by 2027 growing at a CAGR of 22.7% during the forecast period. Some of the key factors propelling market growth include an increasing network traffic and cloud infrastructure leading to a significant transition in data centers, rising adoption of virtual and software-defined infrastructure, surge in human error rates in manual systems causing network downtime, and increasing adoption of automation technologies such as AI and machine learning. However, availability of open-source automation tools is restraining market growth.
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This research evaluates cellular broadband applications and services including revenue and usage (subscribers/users) by LTE, LTE Advanced, Advanced Pro, and 5G.
It also assesses the LTE and 5G applications market to inprivate wireless networks as well as market opportunities for Mobile Edge Computing (MEC) in public and private networks including the market for computing as a service. It also analyzes 5G NR and the market outlook for MNO and VNO to offer private IoT networks for the benefit of industrial automation and mission-critical enterprise applications and services.
This research also evaluates the outlook for 5G equipment, software and services as well as the market for infrastructure, devices, applications, and services beyond 5G (B5G). It assesses the technologies, capabilities, and anticipated communications and computing solutions for 6G. It analyzes 5G evolution and the impact of anticipated
Study May Pave Way to Wireless Technologies Similar to Fiber Optics
Written by AZoOpticsDec 24 2020
Despite significant advances in wireless technology, the manufacturing industry continues to turn to wired forms of communication such as Ethernet or fibre optics for its most critical tasks.
A new study by Cristina Cano and the full professor Xavier Vilajosana, researchers from the Wireless Networks (WiNe) group at the Internet Interdisciplinary Institute (IN3), opens the door to the use of wireless technologies with power and reliability that are comparable to fibre optics and that could replace cabled connections. The research project, published in the journal
IEEE Transactions on Wireless Communications, has created the first parameterization of a millimetre-band signal propagation model, a wireless technology capable of transmitting a huge amount of data per second, in an industrial environment. According to the researchers, this new model is the first step towards understan
Credit: Sergio Ruiz (ALBA synchrotron)
Despite significant advances in wireless technology, the manufacturing industry continues to turn to wired forms of communication such as Ethernet or fibre optics for its most critical tasks. A new study by Cristina Cano and the full professor Xavier Vilajosana, researchers from the Wireless Networks (WiNe) group at the Internet Interdisciplinary Institute (IN3), opens the door to the use of wireless technologies with power and reliability that are comparable to fibre optics and that could replace cabled connections. The research project, published in the journal
IEEE Transactions on Wireless Communications, has created the first parameterization of a millimetre-band signal propagation model, a wireless technology capable of transmitting a huge amount of data per second, in an industrial environment. According to the researchers, this new model is the first step towards understanding how this type of signal behaves in an industrial plant and
Wi-Fi technology with fibre optic-like performance for Industry 4.0
22/12/2020
A UOC team has carried out the first parameterization of a millimetre-band signal propagation model applied to an industrial environment
It is the first step towards high performance wireless communications in the manufacturing industry Despite significant advances in wireless technology, the manufacturing industry continues to turn to wired forms of communication such as Ethernet or fibre optics for its most critical tasks. A new study by the associate professor Cristina Cano and the full professor Xavier Vilajosana, researchers from the Wireless Networks (WiNe) group at the Internet Interdisciplinary Institute (IN3) and from the UOC s Faculty of Computer Science, Multimedia and Telecommunications, opens the door to the use of wireless technologies with