Industrial WLAN Market - Forecast(2024 - 2030)

Industrial WLAN Market Overview:

Industrial WLAN Market size is estimated to reach $1.8 billion by 2030, growing at a CAGR of 13.4% over the forecast period 2024-2030. Increasing demand for connected factories, smart cities, and smart utilities to provide seamless networking among associated machines and systems is set to drive the market. Increasing adoption of high-speed Machine-to-Machine (M2M) communication to transmit data between connected devices for real-time monitoring and controlling has stimulated market growth. 

The rising adoption of wireless location appliances for critical applications, such as high-value asset tracking within WLAN infrastructure, has provided a cost-effective and high-resolution location solution. This advancement has addressed the needs of industries seeking streamlined solutions for asset management and tracking. The shift towards wireless communication over traditional wired connections has been a game-changer, aiming to extend the machines' lifecycle through effective predictive maintenance strategies. As a result, the demand for Wireless Local Area Networks (WLANs) has gained substantial traction across sectors, enabling businesses to optimize operations, enhance asset tracking, and remotely monitor and control machinery, ultimately improving productivity and operational efficiency. This trend is expected to continue propelling the Industrial WLAN Market's growth as more industries recognize its potential benefits.

Industrial WLAN   Market - Report Coverage:

The “Industrial WLAN Market Report - Forecast (2024-2030)” by IndustryARC, covers an in-depth analysis of the following segments in the Industrial WLAN market.

Attribute

Segment

By Offering

Hardware (Wireless access points (WAP),Router, WLAN controllers, Network Interface Card(NIC),wireless bridges, wireless clients, others)

 Software

 Services (network design, deployment & upgradation, support & maintenance, others).

By Technology

802.11 a/b/g,

802.11 n (WIFI 4),

 802.11 ac (WIFI 5),

 802.11 ax (WIFI 6)

By Deployment

  On-Premise

  Cloud

By Industry Vertical

Automotive

General Manufacturing

Aerospace & defence

 Chemical

 Oil & gas

 Agriculture

 Education

 Food & beverage

 Pharmaceuticals

 Logistics & Transportation

 Retail & e-commerce

Power

Utilities

 Government & public sector

  Others

By Application

Supply chain management

 Emergency and incident management

Predictive maintenance

 Asset Tracking & Management

Condition Monitoring

 Industrial Communication

 Industrial Process Control & Discrete Control

Security & Surveillance

Precision Agriculture

 Others

By Geography

North America (U.S., Canada and Mexico)

 Europe (Germany, France, UK, Italy, Spain, Russia and Rest of Europe),

 Asia-Pacific (China, Japan, South Korea, India, Australia & New Zealand and Rest of Asia-Pacific),

  South America (Brazil, Argentina, Chile, Colombia and Rest of South America)

 Rest of the World (Middle East and Africa).

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COVID-19 / Russai-Ukraine Crisis - Impact Analysis:  

• Due to the global economic crisis caused by the Ukraine crisis has caused supply chain disruptions, which have driven inflation to the highest levels in three decades. The conflict has also strained ties between countries that were already under pressure due to the pandemic. The pandemic has sparked debate on the future of globalization, with nations trading with few barriers and focusing on the industries and services they do best. The global pandemic and Russia’s unprovoked invasion of Ukraine have further impacted globalization.

Key Takeaways:

• North American region held the largest share in global industrial WLAN market

Geographically, North America held the largest market share 34% in the global WLAN market in 2023. Increased demand for broadband connectivity, expansion of enterprises, and use of enterprise WLAN by small and medium-sized enterprises in the North American region is driving the North American market. 

• WIFI6 (802.11ax) Revolutionizing Connectivity in the Network Infrastructure Market

The continuous expansion of network infrastructure, driven by the ever-growing demand for high-speed internet, is poised to have a profoundly positive impact on the market. The introduction of the latest wireless standard, WIFI6 (802.11ax), is a game-changer. This technology promises not only lightning-fast connectivity but also improved efficiency in managing multiple devices simultaneously. As businesses and consumers increasingly rely on bandwidth-intensive applications, the adoption of WIFI6 is set to elevate user experiences and bolster productivity, making it a pivotal driver of market growth.

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Industrial WLAN Market Segment Analysis – By Offering

By offering, the industrial WLAN Market has been segmented under hardware, software, and services. WLAN hardware will remain the largest region, with a market share of 65% by 2030, increasing demand for wireless infrastructure in various industry verticals to enable high-speed M2M communication with optimized computational power are the prime drivers of this market. Wireless access point is estimated to witness the highest growth with a CAGR of 4% during 2024-2030. Wireless APs are analyzed to be the ideal solutions for bandwidth-consuming real-time data transmission applications in manufacturing industries, utility facilities, transportation, and logistics sectors owing to its low latency, reliability, scalability, and such advanced capabilities are anticipated to drive the market. In August 2020, NETGEAR Inc. announced the launch of WiFI6 access points featuring higher speed, increased bandwidth, and improved computation efficiency. Such technological advancements are analysed to boost the market during 2021-2026

• Automation and IoT Fuelling Industrial WLAN Market Growth

The surging demand for automation and Internet of Things (IoT) technologies is reshaping industries. These transformative technologies rely heavily on dependable wireless connectivity, propelling the expansion of the Industrial WLAN market. As businesses strive for greater efficiency and data-driven decision-making, the need for robust and reliable wireless networks has never been more crucial. Industrial WLAN solutions provide the backbone for seamless integration and operation of automation and IoT systems, positioning them as a pivotal driver of growth in this dynamic market.

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• Bandwidth Challenges and Invisible Issues Pose Hurdles for WLAN Market

The WLAN market is poised to face significant hurdles in the form of bandwidth constraints and less conspicuous, yet equally crucial, issues. With the ever-growing demand for data-intensive applications and IoT devices, bandwidth limitations can hinder network performance and user experiences. Additionally, less apparent concerns such as security, network management, and interference mitigation must be addressed effectively. Overcoming these obstacles will be essential to sustaining the growth and competitiveness of the WLAN market as it evolves to meet the demands of the digital age.

Key Market Players: 

Product/Service launches, approvals, patents and events, acquisitions, partnerships and collaborations are key strategies adopted by players in the Industrial WLAN Market. The top 10 companies in this industry are listed below:

1. Commscope Inc.

2. D-Link Corporation

3. Dell Technologies Inc.

4. Huawei Technologies Co. Ltd. 

5. Juniper Networks Inc.

6. Cisco Systems Inc.

7. Alcatel Lucent Enterprises (ALE International)

8. Aruba Networks (Hewlett Packard Enterprise Development LP)

9. Moxa

10. Aerohive Networks Ltd. 

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Scope of the Report: 

Report Metric

Details

Base Year Considered

2023

Forecast Period

2024–2030

CAGR

13.4%

Market Size in 2030

$1.8 billion

Segments Covered

By Offering, By Technology, By Deployment, By Industry Vertical and Region

Geographies Covered

North America (U.S., Canada and Mexico), Europe (Germany, France, UK, Italy, Spain, Russia and Rest of Europe), Asia-Pacific (China, Japan, South Korea, India, Australia, New Zealand and Rest of Asia-Pacific), South America (Brazil, Argentina, Chile, Colombia and Rest of South America), Rest of the World (Middle East and Africa).

Key Market Players

1.      Commscope Inc.

2.      D-Link Corporation

3.      Dell Technologies Inc.

4.      Huawei Technologies Co. Ltd.

5.      Juniper Networks Inc.

6.      Cisco Systems Inc.

7.      Alcatel Lucent Enterprises (ALE International)

8.      Aruba Networks (Hewlett Packard Enterprise Development LP)

9.      Moxa.

10.  Aerohive Networks Ltd.

Cont remote access IoTrolled Synthesis of Single-Walled Carbon Nanotubes

www.inhandnetworks.com

On a Platinum surface, the planar hydrocarbon precursor folds into an end cap, that in turn acts as seed for the growth of a well-defined (6,6) carbon nanotube. Credit: Empa / Juan Ramon Sanchez Valencia

A new study details how researchers from the Max Planck Institute and EMPA succeeded in “growing” single-wall carbon nanotubes with a single predefined structure for the first time.

For the first time, researchers at EMPA and the Max Planck Institute for Solid State Research have succeeded in “growing” single-wall carbon nanotubes (CNT) with a single predefined structure – and hence with identical electronic properties. And here is how they pulled it off: the CNTs “a remote maintenance  ssembled themselves”, as it were, out of tailor-made organic precursor molecules on a platinum surface, as reported by the researchers in the latest issue of the journal “Nature”. In future, CNTs of this kind may be used in ultra-sensitive light detectors and ultra-small transistors.

For 20 years, carbon nanotubes (CNTs) have been the subject of intensive fundamental as well as applied research. With their extraordinary mechanical, thermal and el Remote Machine Monitoring & Maintenance System  ectronic properties, these tiny tubes with their graphitic honeycomb lattice have become the paragon of nanomaterials. They could help to create next-generation electronic and electro-optical components that are smaller than ever before, and thus to achieve even faster switching times.

As uniform as possible With a diameter of roughly one nanometer, single-wall CNTs (or SWCNTs) need to be considered as quantum structures; the slightest structural changes, such as differences in diameter or in the alignment of the atomic lattice, may result in dramatic changes to the electronic properties: one SWCNT may be metallic, whilst another one with a slightly different structure is a semiconductor. Hence, there is a great deal of interest in reliable methods of making SWCNTs as structurally uniform as possible. In fact, corresponding synthesis concepts were formulated about 15 years ago. However, it is only now that surface physicists at Empa and chemists at the Max Planck Institute have successfully implemented one of these ideas in the laboratory. In the latest issue of “Nature”, they describe how, for the first time, it has been possible to “grow” structurally homogenous SWCNTs and, hence, managed to clearly define their electronic properties.

For some time, the Empa team working under the direction of Roman Fasel, Head of the “[email protected]” Laboratory at Empa and Professor of Chemistry and Biochemistry at the University of Berne, has been investigating the subject of “how molecules can be transformed or joined together to form complex nanostructures on a surface”. For instance, by means of “bottom-up” synthesis, the Empa researchers managed to produce specific nanostructures such as defined chains of “buckyballs” (essentially, CNTs shrunk into ball form) or flat nanoribbons on gold substrates. “The great challenge was to find the suitable starting molecule that would also actually ‘germinate’ on a flat surface to form the correct seed,” says Fasel, whose team has gained broad expertise in the field of molecular self-organization over the years. Finally, their colleagues at the Max Planck Institute in Stuttgart successfully synthesized the suitabmedium voltage smart grid sensorle starting molecule, a hydrocarbon with no fewer than 150 atoms.

On a Platinum surface, the planar hydrocarbon precursor folds into an end cap, that in turn acts as seed for the growth of a well-defined (6,6) carbon nanotube. Source: Empa / Juan Ramon Sanchez Valencia

Molecular origami Now how does the process actually work? In the first step, in a manner reminiscent of origami, the flat starting molecule must be transformed into a three-dimensional object, the germling. This takes place on a hot platinum surface (Pt(111)) by means of a catalytic reaction in which hydrogen atoms are split off and new carbon-carbon bonds are formed at very specific locations. The “germ” – a small, dome-like entity with an open edge that sits on the platinum surface – is “folded” out of the flat molecule. This “end cap” forms the “lid” of the growing SWCNT. In a second chemical process, further carbon atoms are attached, which originate from the catalytic decomposition of ethylene (C2H4) on the platinum surface. They position themselves on the open edge between the platinum surface and the end cap and raise the cap higher and higher; the nanotube grows slowly upwards. Only the germ defines the latter’s atomic structure, as the researchers were able to demonstrate through the analysis of the vibration modes of the SWCNTs and scanning tunnel microscope (STM) measurements. Further investigations using the new scanning helium ion microscope (SHIM) at Empa show that the resulting SWCNTs reach lengths in excess of 300 nanometers.

It works! Thus the researchers have proved that, by using made-to-measure molecular “germs”, it is possible to clearly predefine the growth (and thus the structure) of long SWCNTs. The SWCNTs synthesized in this study are mirror-image symmetrical entities. However, depending on the manner in which the honeycombed atomic lattice is derived from the starting molecule (“straight” or “oblique” in relation to the CNT axis), it would also possible be possible to produce helically-wound nanotubes, i.e. nanotubes twisting to the right or left, which are not mirror-image symmetrical. And this very structure also determines the electronic, thermoelectric and optical properties of the material. Therefore, in principle, the researchers can produce materials with different properties in a targeted manner, by selecting the starting molecule. As their next step, Fasel and his colleagues intend to gain an even better understanding of the way in which SWCNTs populate a surface. Although well over 100 million nanotubes per square centimeter are already grown on the platinum surface, actual “fully-grown” nanotubes only grow from a comparatively small proportion of the germs. This raises the questions: which processes are responsible for this, and how can the yield be increased?

The project was supported by the Swiss National Science Foundation (FNSNF).

Publication: Juan Ramon Sanchez-Valencia, et al., “Controlled synthesis of single-chirality carbon nanotubes,” Nature 512, 61–64 (07 August 2014); doi:10.1038/nature13607

Images: Empa / Juan Ramon Sanchez Valencia

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Self-service Terminal Router Networking Application

With the rapid development of the Internet of Things communication technology, not only has it facilitated people's daily life, various self-service terminals have been widely used in finance, hospitals, telecommunications, schools, shopping malls, office buildings, supermarkets, hotels, public places, etc. It also improves users' awareness of service quality and enhances the image of communication between enterprises and customers.

At the same time, self-service terminals also have problems such as scattered locations, troublesome wiring, and inconvenient unified management. With the maturity of communication equipment such as 4G/5G wireless industrial routers, these problems have been solved well. The entire self-service terminal management system mainly consists of three parts: front-end self-service terminals, network transmission equipment and back-end management platform.

Zhilian IOT ZR2000 series industrial wireless routers provide wireless network transmission for self-service terminals through Ethernet interfaces, perform data exchange services between self-service terminals and back-end platforms, realize remote management and monitoring, and can enhance data security transmission through VPN. The back-end platform can accurately grasp the location information, fault conditions, operating conditions, sales conditions, and even video surveillance of each self-service terminal. Zhilianwulian ZR2000 series products adopt a durable metal shell design and can be used in an industrial environment at -30℃~+75℃. Built-in high-performance 32-bit industrial-grade chips and industrial-grade wireless communication modules, which can be connected to serial devices (with 1 RS232/RS485), and can be connected to network devices (with 1 Ethernet WAN port, 1 Ethernet LAN port, WAN The port can be switched to the LAN port for use), which can be connected to WiFi devices to achieve data transparent transmission and routing functions. Multiple watchdog mechanisms ensure the normal operation of the equipment. Through our company's M2M cloud platform, the router can be used for online monitoring, remote operation and maintenance, and abnormal push functions to effectively improve operation and maintenance efficiency and reduce operation and maintenance costs. Read the full article

Industrial Cyber Security Market Size, Share, Trends, Statistics, Growth Factors, Sales Revenue, Emerging Technology, Competitive Landscape, Historical Analysis Forecast to 2023 | Analysis of COVID-19

Market Highlights

The global industrial cyber security market is anticipated to touch USD 24.41 billion at a 10.97% CAGR over the forecast period (2017-2023), states the new Market Research Future (MRFR) report. Industrial cyber security services have been specially designed for safeguarding industrial environments against cyber threats. This comprises of network security, industrial control systems, hardware solutions, and software solutions.

Various factors are propelling the industrial cyber security market growth. These factors, as specified by the Market Research Future (MRFR) report, include increasing adoption of IoT in industrial control systems, growing adoption of cloud security solutions, growing incidences of cyber-crime related incidents in various end-use industries including automotive, oil and gas, and aerospace and defense, and an increase in internet penetration worldwide. Additional factors boosting market growth include rising government funding for improving cybersecurity especially of the industrial environment, rising cases of data security breaches on account of an increasing number of connected devices, and growing adoption of telematics services in M2M communication.

However, lack of awareness and proper knowledge among users about cyber-attacks is projected to challenge the growth of the industrial cyber security market. Although attracted by this rapidly burgeoning market, many players are driven to invest in this market.

Segmentation:

The industrial cyber security industry is segmented into product, solutions, industries, organization size and region. The product segment is fragmented into router, gateway and Ethernet switches. A router is a networking device that transmits data between computer networks; they perform the traffic directing functions on internet. Whereas the purpose of cyber security gateway is to provide an interactive information resource on cyber security related initiatives.

The solution industrial cyber security types are antivirus, firewall, DDoS, data loss prevention, supervisory control and data acquisition (SCADA). SCADA is useful in cyber security due to their cost-efficiency, effectiveness, and interoperability which accelerates the inevitable trend of the industrial cyber security market. Due to vulnerabilities in cyber security, governments and the general public are becoming more concerned about various scenarios of large-scale cyber-attacks. Therefore, elements like antivirus, firewall, and SCADA are utilized to prevent such threatening situations. The market is segmented on the basis of organization size, which is large, small and medium size.

The industrial cyber security market is also segmented on the basis of industries, namely transportation, power grid, manufacturing and oil & gas. In various industries, the market has evolved to an established entity providing them with validated and applicable software security patches, help minimize operational risk by ensuring updates are tested, minimized risk from external cyber threats and many more. Each industry is striving to achieve cyber security excellence and strengthen their security efforts. These factors fuel the growth of industrial cyber security market in every sector globally.

Regional Analysis:

Based on the region, the industrial cyber security market report covers growth opportunities and the latest trends across the Asia Pacific (APAC), Europe, North America, and the Rest of the World (RoW). Of these, North America will spearhead the market over the forecast period. This is owing to technological advancements in the region, advanced manufacturing operations, and better industrial infrastructure. Moreover, this industry is a hub for various industries. Owing to this, the need for cyber security solutions is on the rise, and there is also a growing proliferation of digitization that is boosting the market growth.

The industrial cyber security market in the APAC region will have the second largest share in the market over the forecast period. This is on account of the growing popularity of cloud services, burgeoning need for digitalization demand for data management, inclination towards industrial automation, and rising cyber threats that has given way to various government regulations. Strict government regulations are compelling organizations in deploying cyber security solutions for data privacy. Moreover, the emerging economies such as Japan, China, as well as India, are contributing adequately to the market.

Competitive Dashboard:

Leading players profiled in the industrial cyber security market report include Kaspersky labs (Russia), Bayshore Networks (US), Cisco Systems, Dell Inc., IBM Corporation (US), Rockwell Automation (US), Schneider Electric (France), ABB Ltd (Switzerland), and Honeywell International Inc. (US).

June 2019: Renowned security solutions provider for ICS (industrial control system) and OT (operational technology) environments, Indegy has launched CIRRUS, the first ICSaaS (industrial cybersecurity as a service) offering. This will enable organizations of every size from single facility companies to global multi-site in comprehensively monitoring and protecting their OT networks through cloud-based technologies as well as benefit from real-time threat intelligence sharing.

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Development of Network Infrastructure to Support Wireless Data Communication (WDC) Market (SARS-CoV-2, Covid-19 Analysis)

Wireless Data Communication (WDC) Market

The sudden challenges created by the ongoing COVID-19 are captured effectively to exhibit the long term growth projections in the MRFR report on Wireless Data Communication (WDC) Market. The growth sectors of the Wireless Data Communication (WDC) Market are identified with precision for a better growth perspective.

FREE PDF@ https://www.marketresearchfuture.com/sample_request/1118

Wireless data communication is is a form of communication which utilizes radio spectrum, infrared, satellite, etc., to transmit data. Wireless communication technology has become an integral part of various communication devices. Market Research Future (MRFR) has recently published an in-depth report on the global wireless data communication market and has predicted the market to catapult to USD 1867.8 Mn by the end of 2023 from USD 794.6 Mn in 2018. MRFR's analysis has projected a CAGR of 18.6% over the forecast period of 2018-2023. 

Wireless data communication is being extensively used in multiple applications to save time and recede distance barriers. Steep rise in the usage of various devices such as computers, laptops, mobile phones, tablets, and others for business as well as personal use is key to the growth of the market. The emerging economies of the globe are investing heavily on the development of their network or wireless infrastructure which too is fostering the market growth. Furthermore, the development of WiMax, which is an emerging broadband wireless technology is likely to present a host of opportunities to the global wireless data communication market. WiMax is capable of serving across a wider geographical area as compared to Wi-Fi and offers extended mobility, range, and higher speed data applications. 

On the other hand, high equipment cost and cost intensive setup procedures is likely to restrain the growth of the market. 

Segmentation

The global wireless data communication market has been segmented based on component, technology, type, application, and vertical.

By component, the wireless data communication market has been segmented into hardware and services. The hardware segment has been further segmented into networking devices like switches, hubs, access points, routers, gateway and others. The services segment has been further segmented into managed services and professional services. The professional services segment is leading the market while the managed services segment is anticipated to capture the higher CAGR over the forecast period. The growth of the managed services segment is anticipated to increased adoption among large enterprises. 

By type, the wireless data communication market has been segmented into wireless local area network, wireless personal area network, satellite, low power wide area network & cellular M2M.

By vertical, the wireless data communication market has been segmented into IT/Telecom, consumer electronics, automotive, aerospace & defense, healthcare and others.

By technology, the wireless data communication market has been segmented into Wi-Fi, Bluetooth, Zigbee, NFC, 2G/3G, LTE, Lora, Other. The Wi-Fi segment is likely to exhibit substantial growth over the forecast period. The proliferation of Wi-Fi enabled connected devices such as smart TVs, washing machines, and refrigerators along with consolidation of the technology in consumer devices is fueling the growth of the segment.

Competitive Landscape

Broadcom (US), D-Link (US), AT&T (US), Intel (US), Texas Instruments (US), Enocean (Germany), Cisco (US), Marvel Technology (US), Qualcomm (US), STMicroelectronics (Switzerland), Murata Manufacturing (Japan), Verizon Wireless (US), Huawei Technologies (China), Cypress Semiconductor (US), Microchip (US), and Google(US) are the key players in the global wireless data communication market. 

Industry Updates

July 2019 - Verizon Wireless, a telecommunications company which offers wireless products and services, announced that the Commonwealth of Massachusetts has authorized the company to services to public safety through the state’s public safety grade wireless agreement. The partnership is the first state and local agency multi-vendor procurement in the nation aimed at public safety grade wireless data services.

More Information@ https://www.marketresearchfuture.com/reports/wireless-data-communication-market-1118

About Market Research Future:

At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Reports (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research and Consulting Services.

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Industrial WLAN Market - Forecast(2024 - 2030)

Industrial WLAN Market Overview:

Industrial WLAN Market size is estimated to reach $1.8 billion by 2030, growing at a CAGR of 13.4% over the forecast period 2024-2030. Increasing demand for connected factories, smart cities, and smart utilities to provide seamless networking among associated machines and systems is set to drive the market. Increasing adoption of high-speed Machine-to-Machine (M2M) communication to transmit data between connected devices for real-time monitoring and controlling has stimulated market growth. 

The rising adoption of wireless location appliances for critical applications, such as high-value asset tracking within WLAN infrastructure, has provided a cost-effective and high-resolution location solution. This advancement has addressed the needs of industries seeking streamlined solutions for asset management and tracking. The shift towards wireless communication over traditional wired connections has been a game-changer, aiming to extend the machines' lifecycle through effective predictive maintenance strategies. As a result, the demand for Wireless Local Area Networks (WLANs) has gained substantial traction across sectors, enabling businesses to optimize operations, enhance asset tracking, and remotely monitor and control machinery, ultimately improving productivity and operational efficiency. This trend is expected to continue propelling the Industrial WLAN Market's growth as more industries recognize its potential benefits.

Market Snapshot: 

Industrial WLAN   Market - Report Coverage:

The “Industrial WLAN Market Report - Forecast (2024-2030)” by IndustryARC, covers an in-depth analysis of the following segments in the Industrial WLAN market.

Attribute

Segment

By Offering

Hardware (Wireless access points (WAP),Router, WLAN controllers, Network Interface Card(NIC),wireless bridges, wireless clients, others)

 Software

 Services (network design, deployment & upgradation, support & maintenance, others).

By Technology

802.11 a/b/g,

802.11 n (WIFI 4),

 802.11 ac (WIFI 5),

 802.11 ax (WIFI 6)

By Deployment

  On-Premise

  Cloud

By Industry Vertical

Automotive

General Manufacturing

Aerospace & defence

 Chemical

 Oil & gas

 Agriculture

 Education

 Food & beverage

 Pharmaceuticals

 Logistics & Transportation

 Retail & e-commerce

Power

Utilities

 Government & public sector

  Others

By Application

Supply chain management

 Emergency and incident management

Predictive maintenance

 Asset Tracking & Management

Condition Monitoring

 Industrial Communication

 Industrial Process Control & Discrete Control

Security & Surveillance

Precision Agriculture

 Others

By Geography

North America (U.S., Canada and Mexico)

 Europe (Germany, France, UK, Italy, Spain, Russia and Rest of Europe),

 Asia-Pacific (China, Japan, South Korea, India, Australia & New Zealand and Rest of Asia-Pacific),

  South America (Brazil, Argentina, Chile, Colombia and Rest of South America)

 Rest of the World (Middle East and Africa).

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COVID-19 / Russai-Ukraine Crisis - Impact Analysis:  

• Due to the global economic crisis caused by the Ukraine crisis has caused supply chain disruptions, which have driven inflation to the highest levels in three decades. The conflict has also strained ties between countries that were already under pressure due to the pandemic. The pandemic has sparked debate on the future of globalization, with nations trading with few barriers and focusing on the industries and services they do best. The global pandemic and Russia’s unprovoked invasion of Ukraine have further impacted globalization.

Key Takeaways:

• North American region held the largest share in global industrial WLAN market

Geographically, North America held the largest market share 34% in the global WLAN market in 2023. Increased demand for broadband connectivity, expansion of enterprises, and use of enterprise WLAN by small and medium-sized enterprises in the North American region is driving the North American market. 

• WIFI6 (802.11ax) Revolutionizing Connectivity in the Network Infrastructure Market

The continuous expansion of network infrastructure, driven by the ever-growing demand for high-speed internet, is poised to have a profoundly positive impact on the market. The introduction of the latest wireless standard, WIFI6 (802.11ax), is a game-changer. This technology promises not only lightning-fast connectivity but also improved efficiency in managing multiple devices simultaneously. As businesses and consumers increasingly rely on bandwidth-intensive applications, the adoption of WIFI6 is set to elevate user experiences and bolster productivity, making it a pivotal driver of market growth.

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Industrial WLAN Market Segment Analysis – By Offering

By offering, the industrial WLAN Market has been segmented under hardware, software, and services. WLAN hardware will remain the largest region, with a market share of 65% by 2030, increasing demand for wireless infrastructure in various industry verticals to enable high-speed M2M communication with optimized computational power are the prime drivers of this market. Wireless access point is estimated to witness the highest growth with a CAGR of 4% during 2024-2030. Wireless APs are analyzed to be the ideal solutions for bandwidth-consuming real-time data transmission applications in manufacturing industries, utility facilities, transportation, and logistics sectors owing to its low latency, reliability, scalability, and such advanced capabilities are anticipated to drive the market. In August 2020, NETGEAR Inc. announced the launch of WiFI6 access points featuring higher speed, increased bandwidth, and improved computation efficiency. Such technological advancements are analysed to boost the market during 2021-2026

• Automation and IoT Fuelling Industrial WLAN Market Growth

The surging demand for automation and Internet of Things (IoT) technologies is reshaping industries. These transformative technologies rely heavily on dependable wireless connectivity, propelling the expansion of the Industrial WLAN market. As businesses strive for greater efficiency and data-driven decision-making, the need for robust and reliable wireless networks has never been more crucial. Industrial WLAN solutions provide the backbone for seamless integration and operation of automation and IoT systems, positioning them as a pivotal driver of growth in this dynamic market.

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• Bandwidth Challenges and Invisible Issues Pose Hurdles for WLAN Market

The WLAN market is poised to face significant hurdles in the form of bandwidth constraints and less conspicuous, yet equally crucial, issues. With the ever-growing demand for data-intensive applications and IoT devices, bandwidth limitations can hinder network performance and user experiences. Additionally, less apparent concerns such as security, network management, and interference mitigation must be addressed effectively. Overcoming these obstacles will be essential to sustaining the growth and competitiveness of the WLAN market as it evolves to meet the demands of the digital age.

Key Market Players: 

Product/Service launches, approvals, patents and events, acquisitions, partnerships and collaborations are key strategies adopted by players in the Industrial WLAN Market. The top 10 companies in this industry are listed below:

1. Commscope Inc.

2. D-Link Corporation

3. Dell Technologies Inc.

4. Huawei Technologies Co. Ltd. 

5. Juniper Networks Inc.

6. Cisco Systems Inc.

7. Alcatel Lucent Enterprises (ALE International)

8. Aruba Networks (Hewlett Packard Enterprise Development LP)

9. Moxa

10. Aerohive Networks Ltd. 

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Scope of the Report: 

Report Metric

Details

Base Year Considered

2023

Forecast Period

2024–2030

CAGR

13.4%

Market Size in 2030

$1.8 billion

Segments Covered

By Offering, By Technology, By Deployment, By Industry Vertical and Region

Geographies Covered

North America (U.S., Canada and Mexico), Europe (Germany, France, UK, Italy, Spain, Russia and Rest of Europe), Asia-Pacific (China, Japan, South Korea, India, Australia, New Zealand and Rest of Asia-Pacific), South America (Brazil, Argentina, Chile, Colombia and Rest of South America), Rest of the World (Middle East and Africa).

Key Market Players

1.      Commscope Inc.

2.      D-Link Corporation

3.      Dell Technologies Inc.

4.      Huawei Technologies Co. Ltd.

5.      Juniper Networks Inc.

6.      Cisco Systems Inc.

7.      Alcatel Lucent Enterprises (ALE International)

8.      Aruba Networks (Hewlett Packard Enterprise Development LP)

9.      Moxa.

10.  Aerohive Networks Ltd.

car router  MIT Energy Initiative Report Highlights the Future of Solar Energy

www.inhandnetworks.com

A new report by the MIT Energy Initiative assesses solar energy’s current and potential competitive position and identifies changes in U.S. government policies that could more efficiently and effectively support its massive deployment over the long term.

Solar energy holds the best potential for meeting humanity’s future long-term energy needs while cutting greenhouse gas emissions — but to realize this potential will require increased emphasis on developing lower-cost technologies and more effective deployment policy, says a comprehensive new study, titled “The Future of Solar Energy,” released today by the MIT Energy Initiative (MITEI).

“Our objective has been to assess solar energy’s current and potential competitive position and to identify changes in U.S. government policies that could more efficiently and effectively support its massive deployment over the long term, which we view as necessary,” says MITEI Director Robert Armstrong, the Chevron Professor in Chemical Engineering at MIT.

The study’s chair, Richard Schmalensee, the Howard W. Johnson Professor Emeritus of Economics and Management at the MIT Sloan School of Management, adds, “What the study shows is that our focus needs to shift toward new technologies and policies that have the potential to make solar a compelling economic option.”

The study group is presenting its findings to lawmakers and senior administration officials this week in Washington.

“The Future of Solar Energy” reflects on the technical, commercial, and policy dimensions of solar energy today and makes recommendations to policymakers regarding more effective federal and state support for r inhand networks esearch and development, technology demonstration, and solar deployment.

Among its major themes is the need  transformer monitoring  to prepare our electricity systems, both technically and from a regulatory standpoint, for very large-scale deployment of solar generation — which tends to vary unpredictably throughout the day. To this end, the study emphasizes the need for federal research and development support to advance low-cost, large-scale electricity storage technologies.

The analysis finds that today’s federal and state subsidy programs designed to encourage investment in solar systems should be reconsidered, to increase their cost-effectiveness, with greater emphasis on rewarding production of solar energy.

The group also recommends that state renewable portfolio standards, which are designed to increase generation of electricity from renewable resources, be brought under a unified national program that would reduce the cost of meeting set mandates by allowing unrestricted interstate trading of credits.

The study concludes by pointing to the urgent need for an ambitious and innovative approach to technology development, with federal research and development investment focused on new technologies and systems with the potential to deliver transformative system cost reductions.

The MIT “Future of …” studies are a series of multidisciplinary reports that examine the role various energy sources could play in meeting future energy demand under carbon dioxide emissions constraints. These comprehensive reports are written by multidisciplinary teams of MIT researchers. The research is informed by an exte VPN router  rnal advisory committee.

PDF Copy of the Study: The Future of Solar Energy – An Interdisciplinary MIT Study led by the MIT Energy Initiative

Image: MIT

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Is 5G a good model for network deployment in developing countries like India?

In order to give an answer I’ll have to take a bit of detour. I hope you don’t mind.

To start with lets examine what it takes to build a 5G infrastructure.

Some kind of internet back haul. Which can be either fiber optic or wireless. As of 20th June, India has 3,40,085 km of fiber optic connectivity [1]. India has done well here. Additionally fiber optic cables can be manufactured in India so when it comes to cabling the capability is present. For example HFCL builds optical fiber cables (http://www.hfcl.com/optical-fibe...) [2]

You need routers / switches. India does not have the capability to build electronic equipment so all these have to be imported. However since Fiber optic cable can be connected to a standard computer via an SFP port [3] the requirement of specialized equipment here is a bit relaxed. Further India has already started development of opensource microprocessor so its a matter of time when other electronic equipment can be natively developed. Then you need Antenna’s to send those signals over a long range. Those are developed in India too.

Client devices. If you build a 5G wireless distribution system then you need supporting devices that can actually listen to those signals and understand them. In other words consumers will have to upgrade their smart phones to gain 5G signals. India has capability of building fabless 5G modems but not mobile phone chips.

Just having infrastructure in place is not enough. 5G connectivity in traditional spectrum is difficult to achieve because they are already being used by other standards like 4g. To overcome this hurdle the standards committee has created 5g NR (NR stands for new radio) that utilizes unused frequency bands. Quoting from Wikipedia (https://en.wikipedia.org/wiki/5G_NR)

The Frequency bands for 5G NR are being separated into two frequency ranges:

Frequency Range 1 (FR1), including sub-6 GHz frequency bands

Frequency Range 2 (FR2), including frequency bands in the mmWave range (20-60GHz)

Based on my layman understanding, according to physics, as the frequency of the wave increases its wavelength decreases. As the wavelength of the wave decreases its propagation starts to suffer. Higher frequencies are able to deliver more data speed due to a dense modulation. Where are lower frequency can’t modulate that effectively and hence have limited data rate. [4]

What this means is that if 5g is deployed in high frequency NR then there have to be a huge volume of small cells in order to make the 5g signal widely available. In developing country like India this poses two problems

Energy. How can these many towers operate? How will energy be provided?

How can so many towers be accommodated? Already we’ve seen so many rooftop installation? How many more roofs do we need? How can we find space to deploy the radio towers?

From the research that I have done, to the best of my understanding and capability, I’ve come to a conclusion that 5g is an option for developed countries that are looking for lifestyle enhancement for its citizens. Since cost is no longer a hurdle for them they can simply replace old infrastructure with a new one.

For a developing country fundamental problems of connectivity needs to be addressed first. If 5G were backward compatible with other standards. If 5G were open like wifi so that licensing costs were not an issue then certainly it would have been a good choice to invest more resource into it and develop manufacturing capability.

It may be better at first to opt for open spectrum wireless distribution to prepare for a time when 5g is more feasible. For developing countries it would be better to operate in unlicensed frequencies. Enable direct connectivity with fiber optic as much as possible. Use equipment that is widely available and software that can be deployed by just about anyone. In this model large telecom operators will provide fiber management where as small Wireless Internet Service Providers will distribute the network and provide last mile connectivity.

As demonstrated by the successful WiFi choupal initiative in India [1] Wifi can provide a good introduction to data and mobile services (including messaging and voice) for rural community. In case no mobile devices are available fixed terminals like computers can be used for shared connectivity. Since Wifi is universally supported with 10’s of billions of devices the software infrastructure in already in place. With many open source , standards based XMPP applications that enable remote communication along with millions of trained professionals who know how to use and develop on this technology. Unlike 5G which is new and understood only by the absolute top talent wifi can be used and operated even by people with modest technical capabilities.

Best part is the latest wifi standard 802.11ax for which chip-sets are available for as low as $11 [5] per piece exceed 5g speeds in an open spectrum that is free for all.

Workrock wireless provides low cost equipment for distributing fiber optic network over wifi. Our routers are cable of achieving gigabit speeds in the 5Ghz channel. Wifi signals from our core routers can be transmitted to distances of up to 5Km using long range antennas and even further for point to point link.

Our devices are excellent for distribution of wifi network in short to mid range in an open spectrum. Our routers come equipped with QOS and access control services giving the operator a full range of AAA services and CRM services allowing them to manage accounts and bills for the customers. 

Workrock deploys standards based XMPP capable internet gateways that allow interoperable communication between various WISP networks. As well as enable M2M communication for IOT and smart city network.

Our routers are capable of meeting PCI DSS WLAN security requirements to deploy interoperable digital banks that can give financial institutions the ability to digitize their operations without having to build an API in house.

Through India Technology and Economic Cooperation Workrock offers on demand support to more than 137 developing countries.

https://www.reddit.com/user/workrockin/comments/c5n4yd/workrocks_support_for_itec_partner_countries/

Footnotes

[1] I briefly touched upon this subject while answering Vandana Sree ‘s question https://www.quora.com/What-are-1...

[2] Recently HFCL was chosen for an 879 crore project for Bharat Net — https://telecom.economictimes.in...

[3] What kind of technology is needed to bring fiber optic to your home? — https://workrockin.quora.com/Tec...

[4] In the world of theoretical physics bandwidth is not related to frequency. In engineering we’ve divided frequencies into channels and auctioned them off. So for all intents and purposes lower frequencies have lesser bandwidth (since there are fewer channels available). Higher the frequency more the bandwidth available, more the bandwidth greater the channel capacity or bitrate.The physics involved is explained well in this answer — https://physics.stackexchange.co...

[5] https://ark.intel.com/content/ww...

ZR9000 3G 4G 5G Dual Card Wireless Industrial Router from [email protected] on Vimeo.

Shenzhen ChiLink IoT Technology Company limited is an IoT manufacturer dedicated to providing industrial-grade wireless network communication products and solutions. ChiLink IoT Technology integrates product development, production, sales, technical services, and customized development. Since its establishment, the company has provided M2M series products and solutions based on mobile communications for all walks of life. Products include Industrial Router, Industrial 3G 4G LTE 5G Router, Industrial 3G 4G Remote Control Gateway, MQTT Gateway, Serial Device Server, NB-IoT / 3G 4G DTU,IP modem embedded router board, 4G module, industrial-grade wireless router, car WIFI, live load balancing router, M2M cloud platform, and other hardware and software.It covers smart electricity, smart transportation, smart fire protection, smart home, smart water conservancy, smart medical care, express cabinets, charging piles, self-service terminals, public safety, security communications, industrial monitoring, environmental protection, environmental monitoring, street lighting, flower cultivation, and on-board vehicles Wifi and other fields. ChiLink has a professional R&D team of industrial network communication products, which is composed of electronic engineers, software engineers, and network engineers with rich experience in the system application. ZR9000 series industrial-grade 4G/5G wireless routers are a new generation of mobile routers independently developed by Shenzhen ChiLink IOT Technology Co., Ltd. It integrates 5G/4G/3G, and 2.4G and 5.8G WiFi, routing, switching, network management, VPN , Firewall, security and other technologies. It provides software features such as static routing/dynamic routing, 5G/4G/3G dial-up, QOS, and smart IoT. It is a cost-effective, full-featured edge network device newly created by ChiLinkIoT. The ZR9000 series supports 5G Sub-6G, LTE CAT 20, and HSPA+. Zr9000 series industrial-grade 5G routers adopt industrial-grade design and have the characteristics of high adaptability, high reliability, high stability, and centralized management. It is a high performance for users to use in industrial sites, automation, small office places, etc. 5G wireless gateway equipment. ChiLink sincerely looks forward to cooperating with you!

NetComm NTC-140-02 Industrial 4G Router (2m DC power cable included, PowerPlug Adapter available separately) for just $745.29 The NetComm Wireless 4G M2M Router (NTC-140) is built for industrial applications. Feature rich and user friendly, the powerful router enables highly complex M2M and industrial IoT deployments. It features dual 4G antennas for improved cellular performance, two Gigabit Ethernet ports, a USB port and a MicroSD slot for added storage flexibility. The device is ideal for mobile asset monitoring, supporting vehicle voltage power supply, an Ignition sensing port and built-in stand-alone GPS. Dependable automatic-failover Custom performance Simple and cost-effective Future-proof remote asset management Industrial grade design Stock is in Australia and typically dispatches next business day. We typically deliver in 1 to 3 business days. More shipping options at checkout. Package dimensions (H x W x D): 190.00mmx150.00mmx80.00mm All pictures shown are for illustration purpose only. Actual product colour, branding and dimensions may vary due to product enhancement.

Industrial Cyber Security Market Trends, Global Analysis with Focus on Opportunities, Sales Revenue, Comprehensive Plans, Growth Potential & Forecast 2018 – 2023

Market Highlights

The global industrial cyber security market is anticipated to touch USD 24.41 billion at a 10.97% CAGR over the forecast period (2017-2023), states the new Market Research Future (MRFR) report. Industrial cyber security services have been specially designed for safeguarding industrial environments against cyber threats. This comprises of network security, industrial control systems, hardware solutions, and software solutions.

Various factors are propelling the industrial cyber security market growth. These factors, as specified by the Market Research Future (MRFR) report, include increasing adoption of IoT in industrial control systems, growing adoption of cloud security solutions, growing incidences of cyber-crime related incidents in various end-use industries including automotive, oil and gas, and aerospace and defense, and an increase in internet penetration worldwide. Additional factors boosting market growth include rising government funding for improving cybersecurity especially of the industrial environment, rising cases of data security breaches on account of an increasing number of connected devices, and growing adoption of telematics services in M2M communication.

However, lack of awareness and proper knowledge among users about cyber-attacks is projected to challenge the growth of the industrial cyber security market. Although attracted by this rapidly burgeoning market, many players are driven to invest in this market.

Segmentation:

The industrial cyber security market size is segmented into product, solutions, industries, organization size and region. The product segment is fragmented into router, gateway and Ethernet switches. A router is a networking device that transmits data between computer networks; they perform the traffic directing functions on internet. Whereas the purpose of cyber security gateway is to provide an interactive information resource on cyber security related initiatives.

The solution industrial cyber security types are antivirus, firewall, DDoS, data loss prevention, supervisory control and data acquisition (SCADA). SCADA is useful in cyber security due to their cost-efficiency, effectiveness, and interoperability which accelerates the inevitable trend of the industrial cyber security market. Due to vulnerabilities in cyber security, governments and the general public are becoming more concerned about various scenarios of large-scale cyber-attacks. Therefore, elements like antivirus, firewall, and SCADA are utilized to prevent such threatening situations. The market is segmented on the basis of organization size, which is large, small and medium size.

The industrial cyber security market is also segmented on the basis of industries, namely transportation, power grid, manufacturing and oil & gas. In various industries, the market has evolved to an established entity providing them with validated and applicable software security patches, help minimize operational risk by ensuring updates are tested, minimized risk from external cyber threats and many more. Each industry is striving to achieve cyber security excellence and strengthen their security efforts. These factors fuel the growth of industrial cyber security market in every sector globally.

Regional Analysis:

Based on the region, the industrial cyber security market report covers growth opportunities and the latest trends across the Asia Pacific (APAC), Europe, North America, and the Rest of the World (RoW). Of these, North America will spearhead the market over the forecast period. This is owing to technological advancements in the region, advanced manufacturing operations, and better industrial infrastructure. Moreover, this industry is a hub for various industries. Owing to this, the need for cyber security solutions is on the rise, and there is also a growing proliferation of digitization that is boosting the market growth.

The industrial cyber security market in the APAC region will have the second largest share in the market over the forecast period. This is on account of the growing popularity of cloud services, burgeoning need for digitalization demand for data management, inclination towards industrial automation, and rising cyber threats that has given way to various government regulations. Strict government regulations are compelling organizations in deploying cyber security solutions for data privacy. Moreover, the emerging economies such as Japan, China, as well as India, are contributing adequately to the market.

Competitive Dashboard:

Leading players profiled in the industrial cyber security market report include Kaspersky labs (Russia), Bayshore Networks (US), Cisco Systems, Dell Inc., IBM Corporation (US), Rockwell Automation (US), Schneider Electric (France), ABB Ltd (Switzerland), and Honeywell International Inc. (US).

June 2019: Renowned security solutions provider for ICS (industrial control system) and OT (operational technology) environments, Indegy has launched CIRRUS, the first ICSaaS (industrial cybersecurity as a service) offering. This will enable organizations of every size from single facility companies to global multi-site in comprehensively monitoring and protecting their OT networks through cloud-based technologies as well as benefit from real-time threat intelligence sharing.

Related Reports:

https://telegra.ph/Micro-Server-Market-2019-Worldwide-Impressive-Growth-Rate-and-Threshold-2023-04-06

https://telegra.ph/3D-Animation-Market-Share-Global-Overview-Business-Growth-Sales-Revenue-Competitive-Landscape-and-Industry-Expansion-Strategies--04-06

https://telegra.ph/Blockchain-in-Insurance-Market-to-Witness-a-Pronounce-Growth-of-6972-CAGR-by-2023-Global-Size-Share-Sales-and-Regional-Analysis--04-06

https://issuu.com/sampeerzade/docs/fiber_optic_industry

https://issuu.com/sampeerzade/docs/crm_market_size

IP Telephony System In India

Telephony, simply put, is a technology that allows individuals to communicate with each other at a distance, and IP telephony is the aspect of communication that allows individuals to communicate with each other at a distance via the Internet. Allows IP telephony is becoming an increasingly popular form of communication, often replacing traditional telephone (older phone) systems.

IP phones, sometimes called VOIP telephones, are designed for SIP phones or softphones VOIP and are connected to data networks (or broadband routers in small businesses) rather than phone networks.

Internet protocol telephony (IP telephony) networks are used to create, provide, and access voice, data, or other types of telephone communication. IP telephony is an IP-based network that provides traditional telephonic communication over the Internet - through the Internet Service The provider (ISP) or directly from the Telecommunication service provider. IP Telephony also supports video communication between two or more users.

In simple words

IP telephony (Internet Protocol Telephony) is a technique that uses packet-switched connections to Internet protocols to transmit voice, fax, and other types of information in traditionally dedicated circuits of public switched telephone networks (PSTNs). Carried out on switched connections. The calls travel as packets of data over the share lines in a reliable flow to the user.

Components of IP Telephony The IP telephony system is composed of these basic elements:

End device These may be IP phones, traditional telephones / or audio-equipped personal computers.

Gateway Traditional telephones handle signal translation between devices and IP network devices.

Gatekeeper / Proxies Gatekeeper/proxies manage central calls such as user location, authentication, bandwidth management, address translation, etc.

Benefits of IP Telephony

Low cost of voice network

Reduce device administration costs

Centralized network control and management

Enhancing customer satisfaction through the use of distributed call center applications

Enhancing communication capabilities and productivity for remote and mobile employees

How IP Telephony Works IP telephony uses the "Internet Protocol" to communicate over the Internet via digital means. By using this technology instead of traditional phone systems, business owners can leverage hardware and applications with an Internet connection to communicate more effectively.

By taking advantage of IP telephony, the user can connect voice, data, video and multimedia technologies together that are digitally based.

call: 011 4290 8899

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#Robustel R3000 Lite Industrial Dual SIM Cellular VPN Router is a cost effective, industrial-grade VPN gateway designed for cost-sensitive M2M applications. If you are interested, come and find it here! #robustel https://www.robustel.com/

Industrial 4G WiFi Router

The 4G Industrial Router is an IoT wireless communication router that provides users with wireless long-distance data transmission functions using a public LTE network. Currently, China is initially testing the mobile LTE network, which has not yet been commercialized in China.

The existing 4G routers are already compatible with the original 3G networks: WCDMA, TD-CDMA, EVDO, and include HSPA+ for 3.75G networks. The actual network application will be faster than the existing 3G network, and the uplink and downlink speeds will be multiplied, which greatly solves the drawbacks of the delay in the application of wireless networks to large data transmission, such as transmitting high-definition video images. This will solve the drawbacks of the application of optical fiber in the past for large data volumes and high-definition video images, which will alleviate the existing wired network.

Features

1. High-speed stability, full Netcom speed experience

1.1 Optional support for 4G (FDD LTE), EVDO, WCDMA, backward compatible with HSUPA/EVDO/GPRS, and support for a multi-mode full-network mode.

1.2 Support DNS proxy and support DDNS. 2. Wired/wireless backup

2.1 Support wired/wireless dual backup, wireless and wireless mutual backup

2.2 Support dual wireless (3G/4G antenna and WiFi antenna) to access the Internet, antenna interface lightning protection

3. Powerful WiFi for a fast operating experience

3.1 Transmission rate up to 150Mbps

3.2 Easily penetrate obstacles

4. Multiple working modes are available

4.1 Optional WLAN support, AP mode, Station mode, Repeater mode can be customized.

5. Up and down line detection, real-time monitoring of traffic

5.1 Support regular management to effectively control Internet traffic and duration

5.2 Support data triggering online, idle offline

5.3 Support SMS, voice wake-up online (optional)

5.4 Supports link detection functions such as LCP detection, ICMP detection, interface traffic detection, and heartbeat packet detection.

6. Remote management/maintenance/upgrade to help companies reduce operation and maintenance costs

6.1 Support local and remote platform firmware/patch upgrade

6.2 Support parameter backup and import, support private key import/export configuration parameters

6.3 Support multi-parameter and multi-function combination switching function independently developed by E-lins Technology to realize flexible and fast communication switching when multi-server

6.4 Provide system local log and remote log sending to realize real-time network monitoring

7. M2M cloud platform management realizes business scale and centralized management

7.1 Device fault alarm to improve the online rate of devices in remote areas

7.2 Support SIM card management, no need to fix IP, improve scale management ability

7.3 The operation is upgraded, the fault is self-recovery, and the transmission pipeline is smooth.

7.4 Multiple encryption technology to ensure communication link data security

7.5 Remote management and maintenance of equipment, reducing operation and maintenance costs and improving efficiency

7.6 Support network management function, controllable traffic, manageable, and reduce operation and maintenance costs

7.7 Automatically generate business statistics reports to provide a strong basis for operational decision-making

8. Industrial design, stable operation at 7×24h

8.1 High-performance industrial grade 32-bit communication processor wireless module

8.2 Metal enclosure, protection class IP30, enclosure and system safety isolation, especially suitable for industrial control applications

8.3 Antenna interface lightning protection

Typical Application

Vending machines, ATM, street light monitoring, fuel collection, financial management, Water supply monitoring, Environmental monitoring, Earthquake monitoring, Highway monitoring, Coal monitoring, Public security monitoring, Remote meter reading, etc.

Technical specifications

1. 4G Network standard : selects different modules according to user requirements, can support different network standards

2. Antenna interface : 4G antenna interface: SMA-K female; Wi-Fi antenna interface: SMA-K female

3. SIM card : 1.8V/3.0V

4. LAN interface : support 4*LAN

5. Operating Voltage : 5-50V DC

6. Work temperature: -30°C to 70°C option for -30°C to 80°C;

Storage temperature: -40°C to 85°C

7. Humidity: 95% Maximum (Non-condensing)

Industrial 4G routers have brought great changes to people's lives in the past ten years, enabling the network to quickly cover every region, and also making international trade develop rapidly, making international exchanges more convenient.

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Source: https://4gmodemsrouter.wordpress.com/2018/11/20/industrial-4g-wifi-router/

Astrophysicists Show How Universe’s Violent Yo distribution Line Monitoring  uth Seeded Cosmos with Iron

www.inhandnetworks.com

The universe underwent a turbulent youth 10 to 12 billion years ago, as shown in this illustration. Stars formed at very high rates, but many of these newborn stars died quickly in supernova explosions that produced the chemical elements beyond helium – the building blocks of planets like our and life like us. In the same period, supermassive black holes in the centers of galaxies devoured large amounts of the gas around them, producing strong jets and outflows. The combined energy from numerous supernova explosions and black hole jets created powerful “winds” that blew these elements out of the galaxies, into intergalactic space. (Akihiro Ikeshita)

The even Industrial LTE router   distribution of iron throughout the Perseus cluster has allowed astrophysicists to tell the billion-year-old story of how exploding stars and black holes sowed the early cosmos with heavy elements.

New evidence that iron is spread evenly between the galaxies in one of the largest galaxy clusters in the universe supports the theory that the universe underwent a turbulent and violent youth more than 10 billion years ago. That explosive period was responsible for seeding the cosmos with iron and other heavy elements that are critical to life itself.

Researchers from the Kavli Institute for Particle Astrophysics and Cosmology (KIPAC), jointly run by Stanford University and the Department of Energy’s SLAC National Accelerator Laboratory, shed light on this important era by analyzing 84 sets of X-ray telescope observations from the Japanese-US Suzaku satellite. Their results appear in the Oct. 31 issue of the journal Nature.

In particular, the researchers looked at iron distribution throughout the Perseus cluster, a large grouping of galaxies about 250 million light-years away.

“We saw that iron is spread out between the galaxies remarkably smoothly,” said Norbert Werner, an astrophysicist at KIPAC and lead author of the paper. “That means it had to be present in the intergalactic gas before the Perseus cluster formed.”

The even distribution of these elements supports the idea that they were created at least 10 billion to 12 billion years ago. According to the paper, during this time of intense star remote monitoring   formation, billions of exploding stars created vast quantities of heavy elements in the alchemical furnaces of their own destruction. This was also the epoch when black holes in the hearts of galaxies were at their most energetic.

“The combined energy of these cosmic phenomena must have been strong enough to expel most of the metals from the galaxies at early times and to enrich and mix the intergalactic gas,” said co-author and KIPAC graduate student Ondrej Urban.

To settle the question of whether the heavy elements created by supernovae remain mostly in their home galaxies or are spread out through intergalactic space, the researchers looked through the Perseus cluster in eight different directions. They focused on the hot, 10-million-degree gas that fills the spaces between galaxies and found the spectroscopic signature of iron reaching all the way to the cluster’s edges.

The researchers estimate that the amount of iron in the cluster is roughly equivalent to the mass of 50 billion suns.

“We think most of the iron came from a single type of supernovae, called Type Ia supernovae,” said former KIPAC member and co-author Aurora Simionescu, who is currently with the Japanese Aerospace Exploration Agency as an International Top Young Fellow.

In a Type Ia supernova, a star explodes and releases all its materiverizon industrial routeral to the void. The researchers believe that at least 40 billion Type Ia supernovae must have exploded within a relatively short period on cosmological time scales in order to release that much iron and have the force to drive it out of the galaxies.

The results suggest that the Perseus cluster is probably not unique and that iron – along with other heavy elements – is evenly spread throughout all massive galaxy clusters, said Steven Allen, a KIPAC associate professor and head of the research team.

“You are older than you think – or at least, some of the iron in your blood is older, formed in galaxies millions of light years away and billions of years ago,” Simionescu said.

The researchers are now looking for iron in other clusters and eagerly awaiting a mission capable of measuring the concentrations of elements in the hot gas with greater accuracy.

“With measurements like these, the Suzaku satellite is having a profound impact on our understanding of how the largest structures in our universe grow,” Allen said. “We’re really looking forward to what further data can tell us.”

The research was supported by the Japanese Aerospace Exploration Agency and by the US Department of Energy.

Publication: Norbert Werner, et al., “A uniform metal distribution in the intergalactic medium of the Perseus cluster of galaxies,” Nature 502, 656–658 (31 October 2013); doi:10.1038/nature12646

PDF Copy of the Study: A uniform metal distribution in the intergalactic medium of the Perseus cluster of galaxies

Image: Akihiro Ikeshita

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