How Edge Computing will exponentially grow the China market

Over the past decades, there have been paradigm shifts from centralised to decentralised IT environments: from mainframe server to on-premise server and from mobile to cloud environments. In many ways, it seems like an electronic dance music loop.

Nowadays, the industry is continuing to see growth of Cloud computing, which experts believe will continue to lead the ICT infrastructure market. In that space, Edge Computing will become an exponentially growing market in itself, with the increasing penetration of network-related technologies and initiatives, such as 5G and IoT.

According to Reply’s new research ‘From Cloud to Edge’, edge computing will be an exponentially growing market in all “Europe-5” (Italy, Germany, France, Netherlands, Belgium), and “Big-5” (USA, United Kingdom, Brazil, China, India) clusters’ countries due to the growing usage of 5G and IoT solutions. It is expected that Edge computing marketing would reach a value of $8294.5 million by 2025, according to Reportlinker.com.

All the industries that require the computing tasks as close to where data is originated as possible will benefit from Edge Computing. It’s time for global enterprises to design and implement architectures that leverage the best of Edge and Cloud Computing, “while ensuring privacy and cybersecurity” commented Filippo Rizzante, CTO reply.

China: 100+ Edge Projects Deployed in China Leveraging 5G and IoT Infrastructure

According to a new GSMA intelligence report ‘Edge Computing in the 5G Era: Technology and Market Developments in China’, noted that China’s leadership in edge computing is being driven by government support for new technologies and operator investments in new 5G and IoT networks. According to the ECC, there are currently more than 100 edge computing projects up and running in 40 cities in China across various sectors.

However, even as “China’s 5G numbers might look overwhelming, the quantity is well ahead of the quality.” Explained Robert Clark, a news analyst. “The real challenge in China will be in the industrial Internet.”

Though it’s still early, as networks become virtual or software-based, 5G will be the impulse for the next wave of multibillion-dollar infrastructure spending to spur innovation across many industries along with edge computing.

Take Chinese Grids’ Transformation as an example, China’s State Grid Corp (SGCC), government-backed biggest electricity distributor, has adopted a new focus for its smart grid development to build an electricity network plus IoT (E-IoT, essentially, is to deploy blockchain, AI, cloud computing, 5G, edge computing, and other digital/tech solutions upon the physical grid operation) by 2026.

Start from 2019, SGCC has already took steps to run its digital transformation. In 2020, Kou Wei, the current chairman of SGCC set off a landmark “white paper” for the e-IoT development, which set a grand vision to “establish an initial construction of the E-IoT network by 2021 and complete the E-IoT network development by 2026.” At the same year, working with Huawei and China Telecom, a largest-scale 5G-based smart power grid project in Qingdao of Shandong province was completed. Innovations in 5G telecommunication technology applications are applied e.g. DP facility suitable for 5G distribution power lines is equipped which can automatically eliminate faults of the lines within dozens of milliseconds (the one-way latency of the DP device is lowered to 8 milliseconds and the protection can last for 50 milliseconds).

SGCC has already taken further initiatives to build edge infrastructure nationwide in the next few years to advance its E-IoT network, a source who did not wish to be named told W.media.

“Creating a favourable ecosystem environment that supports technology developments and fosters innovation will ultimately determine the pace and magnitude of edge deployments in China and beyond.” explained Sihan Bo Chen, Head of Greater China, GSMA.

In the next few years, we will see more breakthroughs brought about by edge computing in BFSI, medicine, transport, industry, agriculture and the home. Edge computing gains an ‘edge’ in performance with data processing in an intelligent way as near as possible to its source that will bring practical benefits to help with the digitization of various industries.

The year of the Ox has dawned in China, named after a zodiac animal noted for its slow-but-steady approach. The description of China’s emerging 5G private network market could not be more accurate.

Huawei launches Smart PV solution

Huawei FusionSolar, the Smart PV solution from Huawei has launched an integrated system for residential solar energy solution.
This announcement was made at its launch event in Ho Chi Minh City.
In 2020, Huawei delivered a total capacity of 4.3 GW inverters in Vietnam. To further develop the market, Huawei FusionSolar launches a new range of products for a complete integrated system for Vietnamese homeowners including Smart Energy Controller SUN2000-2-5KTL-L1 and SUN2000-5-10KTL-M1, ESS (Energy Storage System) LUNA2000-5/10/15-S0 and Smart PV Optimizer SUN2000-450W-P.

Alen Zhang, Sales Director of Huawei FusionSolar Vietnam said: “With 30 years of expertise in digital information technology, we’ve incorporated many latest ICT technologies for optimal power generation, in building the foundation for solar to become the main energy source. Vietnam is a country with high solar power potential and we look forward to contributing towards greater adoption of solar energy among Vietnamese families with Huawei FusionSolar solutions”.

When it comes to residential PV rooftop systems, residential installers are usually expected to provide homeowners with a robust, cost-effective, self-consumption system that remains highly efficient, flexible and easy to install, and comes with smart applications and reliable customer service. Huawei’s new range of products has been developed to focus on delivering three main benefits: optimal electricity cost, active safety and better experience.

Optimal Electricity Cost
PV energy generated by solar panels meets the electricity demand of homes in the daytime, and the surplus energy generated is used to charge batteries, which then discharges to meet peak electricity consumption in the night time. In this way, residential PV systems could achieve high self-consumption levels and this is where Huawei’s residential intelligent battery Smart String ESS LUNA2000-5/10/15-S0 could truly shine. Each battery pack has a built-in energy optimizer and supports independent charge and discharge management.

The AI-Powered Arc Fault Circuit Interrupter (AFCI) proactively mitigate fire risk with rapid shutdown technologies achieving zero voltage on the rooftop and zero arc risks for dual-layer protection. Huawei is the first in the industry to integrate the AI algorithm into AFCI, enabling three unique features: accurate arc fault detection via local neural network algorithm, speedy arc fault protection by inverter shutdown in 0.5s which is far below 2.5s which is stipulated in UL1699B, and pinpointing arc fault positioning, saving 80 per cent onsite troubleshooting time and cost.

The FusionSolar inverter portfolio consists of single-phase (Smart Energy Controller SUN2000-2-5KTL-L1) and three-phase (Smart Energy Controller SUN2000-5-10KTL-M1) products, both are compatible with Huawei’s SUN2000-450W-P power optimizer.

The Smart PV Management System, available in both web portal and mobile application, provides real-time energy flow and energy balance readings, and PV panel-level performance management.

Lincode partners with Global Automotive Alliance

Lincode has entered into partnership with Global Automotive Alliance, Switzerland to form an ecosystem that promotes and empowers Smart  Automotive Manufacturing.

The automotive industry is witnessing a bullish trend in adopting smart manufacturing. The industry is making large investments in smart technologies such as AI, Industrial IoT, Automation, Big data, 5G, amongst others, to streamline and scale-up the automotive manufacturing process for higher efficiency and production capacity.

By the end of 2022, automotive manufacturers expect that 24% of their plants will be smart factories and 49% of automakers have already invested more than $250 million in smart factories. However, few automotive manufacturers have translated this enthusiasm into real progress – 42% of smart factory initiatives are struggling and the digital maturity of their manufacturing operations is below par.

The Indian automotive sector has seen growth in its sales and increased adoption of critical manufacturing technologies is an important driving factor. It has led to delivering a best-in-class quality of products that are made available to the market in tandem with the demand due to better production capacity.

Rajesh Iyengar, CEO, Lincode said: “The automotive industry has shown an impressive adoption of manufacturing technologies. The manufacturers are not hesitant to deploy technology or a solution that they know will bring them high ROI. For instance, our AI-backed visual inspection solution has made the inspection of the production lines much more efficient than the traditional vision systems. The manufacturers have seen a drastic difference with our solution. They see that microscopic surface defects were detected with the highest precision and accuracy within the established time cycles and now we have seen an ever-growing demand amongst the automotive manufacturers. I certainly believe the industry is now more than ready to invest in manufacturing technologies. The future of smart automotive manufacturing is very promising.”

Ralf Mueller, Managing Director, Global Automotive Alliance: “Digitalization and continuing pressure in the automotive industry with regards to quality, efficiency, and product/process-optimization are a daily challenge to OEMs, System Suppliers, and component manufacturers. All players along the supply chain are aware of the necessity to identify suitable smart manufacturing (industry 4.0) tools, however, in many cases the global overview, in-house knowledge, experiences, and internal resources are limited to successfully scout, develop & implement tailored solutions in the own facilities. This is why GAA has selected a group of unique smart manufacturing (industry 4.0) innovation providers that can be accessed by the automotive industry as part of the “GAA Smart Manufacturing Toolbox. Lincode, as a smart manufacturing solution provider, offering a unique Visual Inspection Technology with Computer Vision and Artificial Intelligence was chosen by the GAA specialists to cover the visual inspection tasks & challenges of the industry.”

You can glean more insights on IoT, smart manufacturing and such tech during W.Media’s Digital Week 2021, from February 23-26. https://w.media/digital-events/