From Data to Strategy: Mapping the 5G Technology Market Potential

Introduction

The 5G revolution is no longer on the horizon — it’s here, and it’s reshaping industries, economies, and daily life across the globe. As the successor to 4G LTE, 5G (Fifth-Generation) wireless technology promises dramatically improved data speeds, ultra-low latency, massive device connectivity, and unparalleled network reliability. Beyond faster smartphones, 5G is the cornerstone for enabling advanced technologies like autonomous vehicles, smart factories, telemedicine, augmented reality (AR), and the broader Internet of Things (IoT) ecosystem.

The global 5G technology market has entered an accelerated growth phase, driven by soaring demand for high-speed data connectivity and the growing adoption of cloud-based applications and AI-powered services. From telecom providers and network hardware manufacturers to cloud service vendors and chipmakers, the 5G era is shaping new business models and competitive landscapes.

Market Overview

The 5G market encompasses a broad range of products and services — including network infrastructure (base stations, small cells, antennas), mobile devices (smartphones, tablets, routers), software (network slicing, SDN), and service providers offering 5G network access.

As of 2024, commercial 5G networks have been deployed across 80+ countries, with billions of connected devices expected to rely on 5G by 2032. The technology is being integrated into industries beyond telecom, including healthcare, automotive, smart cities, manufacturing, and media.

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Key Market Drivers

Exploding Data Consumption

The proliferation of video streaming, cloud gaming, real-time collaboration tools, and immersive media has overwhelmed 4G LTE networks. 5G’s ability to deliver multi-gigabit per second speeds addresses this gap, making it indispensable for modern digital consumption.

Growth in IoT Devices

From smart homes and wearable health monitors to industrial automation, the number of IoT devices worldwide is projected to surpass 30 billion by 2032. 5G networks are uniquely designed to handle this surge, enabling seamless connectivity across millions of devices per square kilometer.

Industry 4.0 and Automation

In manufacturing and logistics, 5G enables real-time machine-to-machine (M2M) communication, predictive maintenance, remote operations, and digital twins — cornerstones of Industry 4.0. Private 5G networks are increasingly being adopted for operational control in factories, warehouses, and even oil rigs.

Support for Emerging Technologies

Augmented Reality (AR), Virtual Reality (VR), autonomous vehicles, and advanced telemedicine require low latency (often below 1 millisecond) and high bandwidth, both of which 5G provides. The growth of these cutting-edge technologies is tightly linked to the global rollout of 5G.

Market Challenges

While 5G adoption is accelerating, the market faces several challenges:

High Infrastructure Costs

Deploying 5G requires a dense network of small cells, fiber optic backhaul, and advanced antennas, representing substantial capital expenditure for telecom providers. The business case for 5G is still under pressure in low-ARPU (Average Revenue Per User) regions.

Spectrum Availability and Regulation

5G performance depends heavily on spectrum allocation — particularly in the millimeter-wave (mmWave) and mid-band frequencies. Regulatory delays in spectrum auctions and inconsistent allocation policies across countries can slow down market growth.

Security Concerns

The complex, software-defined nature of 5G networks introduces new vulnerabilities. Network slicing, virtualization, and multi-vendor environments create a broader attack surface, making cybersecurity a critical priority.

Industry Trends

Rise of Private 5G Networks

Large enterprises, particularly in the manufacturing, logistics, and healthcare sectors, are deploying private 5G networks to ensure high security, dedicated performance, and total control over network architecture. This trend is expected to become mainstream by 2027.

Network Slicing

5G enables network slicing — the ability to partition a single physical network into multiple virtual networks optimized for different use cases (e.g., autonomous vehicles, telehealth, streaming). This dynamic allocation of network resources will play a significant role in service delivery over the next decade.

Open RAN (Radio Access Network)

Traditional telecom networks have long been locked into proprietary hardware ecosystems. Open RAN is reshaping the 5G landscape by promoting hardware-agnostic, interoperable solutions that reduce costs and foster vendor diversity.

Edge Computing Integration

As 5G’s low-latency potential becomes fully realized, edge computing is evolving in parallel. By moving data processing closer to the user or device, edge computing enhances response times and reduces data load on core networks — a critical enabler for autonomous systems and immersive applications.

Regional Insights

North America

The U.S. and Canada are global leaders in 5G commercialization, backed by heavy investments from operators like Verizon, AT&T, T-Mobile, and Rogers. 5G is driving adoption in connected cars, remote surgeries, smart cities, and military communications.

Europe

European Union countries are focusing on pan-European 5G corridors for cross-border autonomous vehicle operations and industrial IoT applications. Operators like Vodafone, Deutsche Telekom, and Orange are at the forefront of 5G rollout, supported by government-backed initiatives.

Asia-Pacific

China, South Korea, and Japan are trailblazers in the 5G race. China, with over 3 million base stations as of 2024, leads in scale, while South Korea boasts some of the world’s fastest average 5G speeds. The Asia-Pacific region is also witnessing strong 5G growth in India, Singapore, and Australia.

Competitive Landscape

The 5G market is intensely competitive, involving global telecom giants, semiconductor companies, network equipment vendors, and cloud providers.

Key players include:

Telecom Operators: Verizon, AT&T, China Mobile, Vodafone, SK Telecom

Equipment Providers: Huawei, Ericsson, Nokia, Samsung Networks

Chip Manufacturers: Qualcomm, Intel, MediaTek

Cloud Providers: Amazon Web Services (AWS), Microsoft Azure, Google Cloud

Strategic partnerships, spectrum acquisitions, and R&D investments are driving differentiation in an increasingly commoditized market.

Market Forecast to 2032

According to industry forecasts, the global 5G technology market is expected to grow at a compound annual growth rate (CAGR) of approximately 28% from 2024 to 2032, reaching a market valuation of over USD 1.8 trillion by the end of the forecast period.

Key growth segments include:

Consumer Applications: Smartphones, smart homes, immersive media

Enterprise Applications: Private 5G networks, industrial IoT, remote collaboration

Public Infrastructure: Smart cities, autonomous transportation, telehealth

With each successive year, network capabilities, device compatibility, and use-case diversity will expand, unlocking new economic opportunities and technological breakthroughs.

Conclusion

5G technology represents a seismic shift in how the world connects, communicates, and computes. Far more than a simple speed upgrade, 5G enables a new digital ecosystem — one that fuels real-time, intelligent, and immersive experiences across every sector.

As the global rollout continues, industries will need to address challenges related to infrastructure, regulation, and security. However, the long-term impact of 5G is clear: it will be a foundation for future innovations ranging from self-driving cars and AI-powered robotics to remote surgery and fully connected smart cities.

Stakeholders that invest early in 5G ecosystem development — from chip design and network planning to application-layer solutions — will be best positioned to lead in the data-driven economy of 2032 and beyond.

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Challenges and Opportunities in the Industrial Internet of Things Market

The global industrial internet of things market size is anticipated to reach USD 1,693.30 billion by 2030 and projected to grow at a CAGR of 23.2% from 2024 to 2030, according to a new report by Grand View Research, Inc. The market growth is being driven by a significant focus on predictive maintenance, automation, and efficient supply chain management across various industrial sectors, particularly manufacturing. Many organizations have acknowledged the advantages of integrating industrial IoT to enhance productivity and have implemented a variety of advanced Industrial IoT solutions using compatible hardware, such as actuators and sensors, along with software. This has contributed to the market growth.

Companies are involved in strategic partnerships and collaborations and are allocating substantial resources towards research and development to drive innovation and to stay competitive in the industry. For instance, in February 2024, Digi International Inc. introduced the Digi IX40, a 5G edge computing industrial IoT cellular router solution. The Digi IX40 is specifically designed for Industry 4.0 applications, including advanced robotics, predictive maintenance, asset monitoring, industrial automation, and smart manufacturing. Such strategies by market players are anticipated to augment the market growth in the coming years.

The increasing application of M2M across various industries, such as automotive, smart cars, utilities, smart grids, home automation, healthcare, and security, is expected to drive the adoption of industrial IoT across businesses. The data collected by OT, M2M, and IoT systems is expected to integrate both operational and informational technology, thereby opening new insights to innovate the decision-making process.

The adoption of sensors and distributed control systems will help to control and manage work processes and automate management processes for all industrial operations. As a result, the demand for implementing sensors and DCS in various business operations will increase annually. Thus, there is a global increase in the need for sensors and DCS due to multiple associated advantages, which is driving the market growth in the coming years.

Gather more insights about the market drivers, restrains and growth of the Industrial Internet of Things Market

Industrial Internet of Things Market Report Highlights

• Based on component, the services segment is anticipated to grow at the fastest CAGR from 2024 to 2030, owing to a significant increase in the number of connected gadgets

• Based on end use, the manufacturing sub-segment led the market with the largest revenue share of 18.22% in 2023, as companies are rapidly adopting digital manufacturing technologies, while logistics & transport segment is anticipated to grow at the fastest CAGR from 2024 to 2030

• North America accounted for the largest revenue share of 32.0% in 2023, closely followed by Europe owing to the early adoption and implementation of industrial internet of things technology

• In May 2024, Proxgy, an industrial internet of things startup, launched a satellite-based smart lock locator, designed for the transportation and logistics industry. The smart lock comes with state-of-the-art features, including real-time tamper alerts, geofencing, geolocation tracking, RFID and NFC smart key unlock, and remote lock/unlock capabilities

Industrial Internet of Things Market Segmentation

Grand View Research has segmented the global industrial internet of things market report based on component, end use, software, connectivity technology, device and technology, and region.

Industrial Internet of Things Component Outlook (Revenue, USD Million, 2018 - 2030)

• Hardware

• Solution

o Remote Monitoring

o Data Management

o Analytics

o Security Solutions

o Others

• Services

o Professional

o Managed

• Platform

o Connectivity Management

o Application Management

o Device Management

Industrial Internet of Things End Use Outlook (Revenue, USD Million, 2018 - 2030)

• Aviation

• Metal & Mining

• Chemical

• Manufacturing

• Energy & Power

�� Smart Grids

• Oil & Gas

• Healthcare

• Logistics & Transport

o Intelligent Signaling System

o Video Analytics

o Incident Detection System

o Route Scheduling Guidance System

• Agriculture

o Precision Farming

o Livestock Monitoring

o Smart Greenhouses

o Fish Farming

• Retail

o Point of Sales

o Interactive Kiosks

o Self-Checkout Systems

• Others

Industrial Internet of Things Software Outlook (Revenue, USD Million, 2018 - 2030)

• Product Lifecycle Management

• Manufacturing Execution Systems

• SCADA

• Outage Management Systems

• Distribution Management Systems

• Remote Patent Monitoring

• Retail Management Software

• Visualization Software

• Transit Management Systems

• Farm Management Systems

Industrial Internet of Things Connectivity Technology Outlook (Revenue, USD Million, 2018 - 2030)

• Wired Technology

o Ethernet

o Foundation Fieldbus

• Wireless Technology

o Wi-Fi

o Bluetooth

o Cellular Technologies

o Satellite Technologies

Industrial Internet of Things Device and Technology Outlook (Revenue, USD Million, 2018 - 2030)

• Sensors

• Radio Frequency Identification (RFID)

• Industrial Robotics

• Distributed Control Systems

• Condition Monitoring

• Smart Meters

• Electronic Shelf Labels

• Cameras

• Smart Beacons

• Interface Boards

• Yield Monitors

• Guidance & Steering

• GPS/GNSS

• Flow & Application Control Devices

• Networking Technology

Industrial Internet of Things Regional Outlook (Revenue, USD Million, 2018 - 2030)

• North America

o U.S.

o Canada

• Europe

o Germany

o UK

o France

o Italy

o Spain

o Benelux

o Nordics

• Asia Pacific

o China

o Japan

o India

o South Korea

o Australia

• Latin America

o Brazil

o Mexico

o Chile

o Peru

• Middle East & Africa (MEA)

o UAE

o Saudi Arabia

o South Africa

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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.

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.

Industrial Cellular Routers: Encouraging Communication in Isolated and Dangerous Settings

Traditional wired networks are no longer the only way to connect in the modern digital era. Robust, dependable, and secure communication solutions are essential for industries operating in distant or harsh areas in order to connect their vital assets and provide real-time data sharing. The industrial cellular router is a type of customized networking equipment that can be used in industrial environments where cable infrastructure may not be available or is impractical.

An Industrial Cellular Router: What Is It? A ruggedized networking device called an industrial cellular router uses cellular networks to provide wide-area connection for industrial applications. Industrial cellular routers use cellular technology (3G, 4G, and increasingly 5G) to transfer data wirelessly over great distances, in contrast to typical routers that depend on physical connections. They are designed especially to endure the harsh conditions found in industrial settings, such as high humidity, high temperatures, vibration, and electromagnetic interference.

Features and Functionalities: The following are some of the main features and functions of industrial cellular routers:

Wireless Connectivity: Reliable wireless communication is made possible by industrial cellular routers, which enable cellular network communication between industrial systems and equipment. They are compatible with multiple carriers and areas because they support a range of cellular standards and frequencies.

Secure Communication: Security is paramount in industrial applications, especially when transmitting sensitive data over public cellular networks. To secure data and defend against cyber threats, industrial cellular routers use virtual private networks (VPNs), firewalls, and sophisticated encryption techniques.

Remote Management: An administrator may monitor, configure, and troubleshoot devices from a central location with the help of several industrial cellular routers' remote management features. Industrial network implementation, maintenance, and optimization are made easier by this remote management feature.

Redundancy and Failover: Industrial cellular routers may provide redundancy and failover capabilities to guarantee constant connectivity and reduce downtime. In the event of a network outage or disturbance, they can immediately switch between the primary and backup cellular networks or use other communication channels.

Importance in Business Environments: Industrial cellular routers are essential in many different industrial domains, such as:

Oil and Gas: Industrial cellular routers provide for real-time monitoring of production processes, equipment health, and environmental conditions in remote oil and gas fields or offshore platforms. This promotes proactive maintenance and operational efficiency.

Utilities: Industrial cellular routers offer connectivity for remote monitoring, control, and optimization of essential infrastructure in utilities like water treatment plants, electrical substations, and renewable energy installations. This increases dependability and resilience.

Transportation and Logistics: By sending location data, sensor readings, and telemetry information over cellular networks, industrial cellular routers facilitate supply chain visibility, fleet management, and vehicle tracking in transportation and logistics operations.

Manufacturing: Machine-to-machine (M2M) communication in manufacturing facilities is supported by industrial cellular routers, which facilitate the smooth integration of robotic automation, inventory management systems, and production systems.

In summary: For enabling connectivity in remote, difficult, and mission-critical industrial environments, industrial cellular routers are essential equipment. Because of their capacity to deliver dependable, secure, and robust wireless communication, industries are able to maximize operations, maintain a competitive edge in an increasingly interconnected world, and reap the benefits of digital transformation. Organizations in a variety of industrial industries can improve efficiency, spur innovation, and close communication gaps by utilizing industrial cellular routers.

5G Fixed Wireless Access Market May See a Big Move | Mimosa Networks, Samsung Electronics, Huawei, Cisco

Advance Market Analytics published a new research publication on “Global 5G Fixed Wireless Access Market Insights, to 2028” with 232 pages and enriched with self-explained Tables and charts in presentable format. In the study, you will find new evolving Trends, Drivers, Restraints, Opportunities generated by targeting market-associated stakeholders. The growth of the 5G Fixed Wireless Access market was mainly driven by the increasing R&D spending across the world.

Major players profiled in the study are:

Qualcomm Technologies (United States), Nokia Corporation (Finland), Samsung Electronics (South Korea), Huawei (China), Ericsson (Sweden), Mimosa Networks, Inc. (United States), Cohere Technologies, Inc. (United States), Siklu Communication, Ltd.  (Israel), AT&T Inc. (United States), Verizon Communications Inc. (United States), Cisco (United States)

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Scope of the Report of 5G Fixed Wireless Access

Fixed wireless access is defined as a connection that provides broadband access through mobile network-enabled customer premises equipment (CPE). This includes various form factors of CPEs, such as indoor (desktop and window) and outdoor (rooftop and wall-mounted). It does not include portable battery-based Wi-Fi routers or dongles. Fixed wireless access (FWA) connections are forecast to grow threefold and reach close to 160 million by the end of 2025, accounting for 25 percent of total mobile network data traffic globally. There were an estimated 51 million FWA connections globally at the end of 2019, FWA traffic is predicted to grow to reach 53EB in 2025, accounting for 25 percent of global mobile network data traffic, there will be close to 160 million FWA connections by the end of 2025, providing access to approximately 570 million individuals. There are three main factors that drive the FWA market and the uptake of connections. First, demand from consumers and businesses for digital services continues, driving the need for broadband connectivity. Second, FWA delivered over 4G or 5G is an increasingly cost-efficient broadband alternative in areas with limited availability of fixed services such as DSL, cable, or fiber. Increasing capacity allowed by greater spectrum allocations and technology advancements for 4G and 5G networks is driving higher network efficiency in terms of the cost per delivered gigabyte. Third, governments are fueling broadband connectivity through programs and subsidies, as it is considered vital for digitalization efforts and economic growth.

10th June 2020, Nokia had announced new research highlighting 5G Fixed Wireless Access (FWA) as the most desirable 5G use case amongst consumers globally. The study, which was conducted by Parks Associates, surveyed 3,000 people in the UK, US, and South Korea and examined consumer understanding and demand for 5G services across six different use cases including autonomous vehicles, video surveillance and immersive technologies

The Global 5G Fixed Wireless Access Market segments and Market Data Break Down are illuminated below:

by Application (Internet of Things (IoT), Broadband Internet, Pay TV, Others), Demography (Urban, Semi-Urban, Rural), Offerings (Hardware (Customer Premises Equipment Devices, Access Units), Services), End User (Residential, Commercial, Industrial, Government)

Market Opportunities:

Growing Demand for 5G FWA Networks From Varied Industries

Intensifying Demand for IoT and Cloud-Based Services

Market Drivers:

Growing Demand for High-Speed Internet Connectivity and Broad Network Coverage With Reduced Latency and Power Consumption

Market Trend:

High Adoption of Advanced Technologies Such as Machine-To-Machine (M2M)/Internet of Things (IoT)

Upsurging Use of Millimeter-Wave Technology in 5G FWA

What can be explored with the 5G Fixed Wireless Access Market Study?

Gain Market Understanding

Identify Growth Opportunities

Analyze and Measure the Global 5G Fixed Wireless Access Market by Identifying Investment across various Industry Verticals

Understand the Trends that will drive Future Changes in 5G Fixed Wireless Access

Understand the Competitive Scenarios

Track Right Markets

Identify the Right Verticals

Region Included are: North America, Europe, Asia Pacific, Oceania, South America, Middle East & Africa

Country Level Break-Up: United States, Canada, Mexico, Brazil, Argentina, Colombia, Chile, South Africa, Nigeria, Tunisia, Morocco, Germany, United Kingdom (UK), the Netherlands, Spain, Italy, Belgium, Austria, Turkey, Russia, France, Poland, Israel, United Arab Emirates, Qatar, Saudi Arabia, China, Japan, Taiwan, South Korea, Singapore, India, Australia and New Zealand etc.

Have Any Questions Regarding Global 5G Fixed Wireless Access Market Report, Ask Our Experts@ https://www.advancemarketanalytics.com/enquiry-before-buy/82676-global-5g-fixed-wireless-access-market?utm_source=Benzinga&utm_medium=Vinay

Strategic Points Covered in Table of Content of Global 5G Fixed Wireless Access Market:

Chapter 1: Introduction, market driving force product Objective of Study and Research Scope the 5G Fixed Wireless Access market

Chapter 2: Exclusive Summary – the basic information of the 5G Fixed Wireless Access Market.

Chapter 3: Displaying the Market Dynamics- Drivers, Trends and Challenges & Opportunities of the 5G Fixed Wireless Access

Chapter 4: Presenting the 5G Fixed Wireless Access Market Factor Analysis, Porters Five Forces, Supply/Value Chain, PESTEL analysis, Market Entropy, Patent/Trademark Analysis.

Chapter 5: Displaying the by Type, End User and Region/Country 2017-2022

Chapter 6: Evaluating the leading manufacturers of the 5G Fixed Wireless Access market which consists of its Competitive Landscape, Peer Group Analysis, BCG Matrix & Company Profile

Chapter 7: To evaluate the market by segments, by countries and by Manufacturers/Company with revenue share and sales by key countries in these various regions (2023-2028)

Chapter 8 & 9: Displaying the Appendix, Methodology and Data Source

Finally, 5G Fixed Wireless Access Market is a valuable source of guidance for individuals and companies.

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Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Middle East, Africa, Europe or LATAM, Southeast Asia.

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There are varied types of network connectivity and signal distribution devices are available in the market such as routes, Modbus gateways, modems, M2M routers, Ethernet switches, Industrial routers, etc. Apart from network connectivity tools, you will also find varied types of data converter devices and data security tools and software that you can easily install in the system too.

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Br industrial IoT router  ain Regions Associated With the Successful Spread of Ideas Identified

www.inhandnetworks.com

Psychologists report for the first time that the temporoparietal junction (TPJ) and dorsomedial prefrontal cortex (DMPFC) brain regions are associated with the successful spread of ideas, often called ‘buzz.’

UCLA scientists have identified for the first time the brain regions associated with the successful spread of ideas.

How do ideas spread? What messages will go viral on social media, and can this be predicted?

UCLA psychologists have taken a significant step toward answering these questions, identifying for the first time the brain regions associated with the successful spread of ideas, often called “buzz.”

The research has a broad range of implications, the study authors say, and could lead to more effective public health campaigns, more persuasive advertisements and better ways for teachers to communicate with students.

“Our study suggests that people are regularly attuned to how the things they’re seeing will be useful and interesting, not just to themselves but to other people,” said the study’s senior author, Matthew Lieberman, a UCLA professor of psychology and of psychiatry and biobehavioral sciences and author of the forthcoming book “Social: Why Our Brains Are Wired to Connect.” “We always seem to be on the lookout for who else will find this helpful, amusing or interesting, and our brain data are showing evidence of that. At the first encounter with information, people are already using the brain network involved in thinking about how this can be interesting to other people. We’re wired to want to share information with other people. I think that is a profound statement about the social nature of our minds.”

The study findings are published in the online edition of the journal Psychological Science, with print publication to follow later this summer.

“Befor Dual SIM M2M router e this study, we didn’t know what brain regions were associated with ideas that become contagious, and we didn’t know what regions were associated with being an effective communicator of ideas,” said lead author Emily Falk, who conducted the research as a UCLA doctoral student in Lieberman’s lab and is currently a faculty member at the University of Pennsylvania’s Annenberg School for Communication. “Now we have mapped the brain regions associated with ideas that are likely to be contagious and are associated with being a good ‘idea salesperson.’ In the future, we would like to be able to use these brain maps to forecast what ideas are likely to be successful and who is likely to be effective at spreading them.”

In the first part of the study, 19 UCLA students (average age 21), underwent functional magnetic resonance imaging (fMRI) brain scans at UCLA’s Ahmanson–Lovelace Brain Mapping Center as they saw and heard information about 24 potential television pilot ideas. Among the fictitious pilots — which were presented by a separate group of students — were a show about former beauty-queen mothers who want their daughters to follow in their footsteps; a Spanish soap opera about a young woman and her relationships; a reality show in which contestants travel to countries with harsh environments; a program about teenage vampires and werewolves; and a show about best friends and rivals in a crime family.

The students exposed to these TV pilot ideas were asked to envision themselves as television studio interns who would decide whether or not they would recommend each idea to their “producers.” These students made videotaped assessments of each pilot.

Another group of 79 UCLA undergraduates (average age 21) was asked to act as the “producers.” These students watched the interns’ videos assessments of the pilots and then made their own ratings about the pilot ideas based on those assessments.

Lieberman and Falk wanted to learn which brain regions were activated when the interns were first exposed to information they would later pass on to others.

“We’re constantly being exposed to information on Facebook, Twitter and so on,” said Lieberman. “Some of it we pass on, and a lot of it we don’t. Is there something that happens in the moment we first see it — maybe before we even realize we might pass it on — that is different for those things that we will pass on successfully versus those that we won’t?”

It turns ou cashless payment t, there is. The psychologists found that the interns who were especially good at persuading the producers showed significantly more activation in a brain region known as the temporoparietal junction, or TPJ, at the time they were first exposed to the pilot ideas they would later recommend. They had more activation in this region than the interns who were less persuasive and more activation than they themselves had when exposed to pilot ideas they didn’t like. The psychologists call this the “salesperson effect.”

“It was the only region in the brain that showed this effect,” Lieberman said. One might have thought brain regions associated with memory would show more activation, but that was not the case, he said.

“We wanted to explore what differentiates ideas that bomb from ideas that go viral,” Falk said. “We found that increased activity in the TPJ was associated with an increased ability to convince others to get on board with their favorite ideas. Nobody had looked before at which brain regions are associated with the successful spread of ideas. You might expect people to be most enthusiastic and opinionated about ideas that they themselves are excited about, but our research suggests that’s not the whole story. Thinking about what appeals to others may be even more important.”

The TPJ, located on the outer surface of the brain, is part of what is known as the brain’s “mentalizing network,” which is involved in thinking about what other people think and feel. The network also includes the dorsomedial prefrontal cortex, located in the middle of the brain.

“When we read fiction or watch a movie, we’re entering the minds of the characters — that’s mentalizing,” Lieberman said. “As soon as you hear a good joke, you think, ‘Who can I tell this to and who can’t I tell?’ Making this judgment will activate these two brain regions. If we’re playing poker and I’m trying to figure out if you’re bluffing, that’s going to invoke this network. And when I see someone on Capitol Hill testifying and I’m thinking whether they are lying or telling the truth, that’s going to invoke these two brain regions.

“Good ideas turn on the mentalizing system,” he said. “They make us want to tell other people.”

The interns who showed more activity in their mentalizing system when they saw the pilots they intended to recommend were then more successful in convincing the producers to also recommend those pilots, the psychologists found.

“As I’m looking at an idea, I might be thinking about what other people are likely to value, and that might make me a better idea salesperson later,” Falk said.

By further studying the neural activity in these brain regions to see what information and ideas activate these regions more, psychologists potentially could predict which advertisements are most likely to spread and go viral and which will be most effective, Lieberman and Falk said.

Such knowledge could also benefit public health campaigns aimed at everything from reducing risky behaviors among teenagers to combating cancer, smoking and obesity.

“The explosion of new communication technologies, combined with novel analytic tools, promises to dramatically expand our understanding of how ideas spread,” Falk said. “We’re laying basic science foundations to addressimportant public health questions that are difficult to answer otherwise — about what makes campaigns successful and how we can improve their impact.”

As we may like particular radio DJs who play music we enjoy, the Internet has led us to act as “information DJs” who share things that we think will be of interest to people in our networks, Lieberman said.

“What is new about our study is the finding that the mentalizing network is involved when I read something and decide who else migh cashless vending  t be interested in it,” he said. “This is similar to what an advertiser has to do. It’s not enough to have a product that people should like.”

Co-authors of the study are Sylvia Morelli, a former graduate student in Lieberman’s lab who is now a postdoctoral scholar at Stanford University; Locke Welbourn, a UCLA graduate student in Lieberman’s laboratory; and Karl Dambacher, a former UCLA undergraduate research assistant.

Publication: Emily B. Falk, et al., “Creating Buzz – The Neural Correlates of Effective Message Propagation,” Psychological Science, May 30, 2013; doi: 10.1177/0956797612474670

Image: UCLA Newsroom

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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.

IOT in security & surveillance

Abstract: Security and surveillance has become a common facet of business. There are dangers in the world: some are personal dangers, others are dangers or risks associated with assets. While there has been much recent debate about the appropriate use and amount of surveillance, it is fair to say that some amount of security and surveillance is necessary in today’s world.

                                                   INTRODUCTION 

Security and surveillance solutions include everything from the most simple home monitoring systems and burglar alarms, to high-definition, motion-detecting cameras and retina scanning security solutions. Various forms of connectivity – both fixed-line and wireless – enable a basic type of M2M security solutions. However, when data from the solutions are aggregated and analyzed to predict behavior or thwart crimes, and we are able to access these data on common platforms and devices – including mobile devices – we have entered the world of the Internet of Things (IoT).

In 2012 there were 28 million security and surveillance IoT device connections worldwide growing to 170 million in 2021 at a compound-annual-growth-rate of 22%. See Figure 1. These include device connections in homes and businesses. Today, quite a large percentage of security and surveillance systems – especially those in homes – are unconnected. We anticipate an increase over the next ten years of the percentage of these kind of home systems that are connected

                                                      WORKING

To function as intended, IoT devices need to be managed both internally, (e.g., software maintenance) and externally (i.e., their communication with other devices).

This is accomplished by connecting every IoT device to a management unit, known as a command and control (C&C) center. Centers are responsible for software maintenance, configurations, firmware updates to patch bugs and vulnerabilities, as well as the provisioning and authentication of tasks, such as device enrollment.

Communication between devices is enabled via application program interface (API). Once a device’s manufacturer exposes its API, other devices or applications can use it to gather data and communicate. Some APIs even allow control over devices. For example, a building manager can use an API to remotely lock doors inside a specific office. 

C&C centers and APIs effectively manage day-to-day IoT operations. That said, their centralized nature creates a number of exploitable weak spots, including:

Unpatched vulnerabilities – Connectivity issues or the need for end-users to manually download updates directly from a C&C center often result in devices running on outdated software, leaving them open to newly discovered security vulnerabilities.

Weak authentication – Manufacturers often release IoT devices (e.g., home routers) containing easily decipherable passwords, which might be left in place by vendors and end-users. When left open to remote access, these devices become easy prey for attackers running automated scripts for bulk exploitation.

Vulnerable APIs – As a gateway to a C&C center, APIs are commonly targeted by a variety of threats, including Man in the Middle (MITM), code injections (e.g., SQLI), and distributed denial of service (DDoS) assaults. More information about the implications of API-targeting attacks can be found here.

Data Theft

An IoT device contains vast amounts of data, much of which is unique to its individual users, including online browsing/purchase records, credit card details and personal health information.

An improperly secured device leaves this data vulnerable to theft. What’s more, vulnerable devices can be used as gateways to other areas of the network they are deployed on, allowing for more sensitive data to be extracted.

Physical Harm

IoT devices are now commonplace in the medical industry, with examples including pacemakers, heart monitors and defibrillators. While convenient (e.g., a doctor can fine-tune a patient’s pacemaker remotely), these devices are also vulnerable to security threats.

An improperly secured device can be exploited to interfere with a patient’s medical care. It’s an exceedingly rare occurrence, albeit one to be considered when developing a strategy for securing IoT devices.

                                             APPLICATIONS  

The Opportunity - Smart Surveillance

Everyone is talking about the Iot, a trendy area of tech that is fairly new and growing exponentially. According to some estimates, the Internet of Things will connect 50 billion devices (not including PCs, smartphones and tablets) by 2020 – 250 of which will get connected every second. Also, the global economic value of IoT will reach $19 trillion by 2020. These figures have gotten everyone interested, including big players like IBM, which has recently invested $3 billion in its IoT division. So what is the significance for the video surveillance and security sector? The Internet of Things is likely to have a tremendous impact, as all types of organizations will look to connect their devices, enhance security and create ‘smart surveillance’ solutions.

Approach Reformulated With IoT

For many years, the focus within the video surveillance industry has been to connect most systems to Internet Protocol (IP) based networks. The next phase, Machine-to-Machine (M2M) as we call it, managed to create a connected device-based industry, and IP video surveillance systems perfectly integrated into that. Typical M2M successful examples would be GPS tracking solutions and remote asset (fixed or mobile) monitoring, to name a few. The result of these migrations was a huge amount of data that businesses had to manage.

With the recent improvements in mobile network (like LTE high speed connections), cloud technology and readily available fiber optics backbone, the Internet of Things (IoT) came into play. IoT brings a holistic approach to the table where connected systems and generated data are analyzed locally, or in the cloud, returning to decision makers the information they need, when they need it and in a fully customisable and easy-to-read interface.

Applications – IoT In Mining Industry

For example, in the mining industry, the technology can optimize operations and reduce risk. It can be used to monitor operations and videos, estimate the traffic going underground in the mines, and help with sub-systems management. Advanced video surveillance solutions, powered by the Internet of Things, can be used to read sensors and integrate with them. Thus, IoT can provide an array of connected sensors to businesses, which will help reduce the points of failure. With the deployment of IoT, 10-25% of operating costs can be reduced, like those associated with people and vehicle counting, and temperature and gas sensing.IoT can also help in the reduction of costs involved in the special care that has to be taken with monitoring and managing operations around inflammable gases. With smart surveillance and sensing systems, cameras can be programmed to trigger notifications. This can help businesses be better prepared and allocate resources strategically. Another direct application would be to help with managing the airflow in mines. There is also a risk of loss of lives, when it comes to mining operations, and this can be prevented with smart sensor systems. Connected sensing systems and smart video surveillance support with a predictive analytics component can help businesses predict hazards and take corrective actions in real time.

Smart Surveillance In Aviation Industry

Another industry that can benefit greatly from IoT is aviation. An airbus A380-1000, expected to be ready in 2020, will have 10,000 sensors per wing. An aircraft of this size is estimated to generate 8 Terabytes of data per day, which can be gathered and analyzed. Also, the aviation sector sees 35 million departures per year and, while there is surveillance data, nobody is analyzing these sensors. So, the opportunity in the aviation industry is huge. Security vulnerabilities are a major cause of concern for this industry, and this is where a smart video surveillance and sensory system can be helpful. By analyzing connected sensors and learning from the vast amounts of data generated, air travel can be made safer.

                                                         DISCUSSION

This survey intended to give an overview of the current trends in IoT security research. At the same time, this survey presented some attack vectors and challenges to IoT security. High quality papers from Web of Knowledge were reviewed and categorized into by their objectives, methods used in the research, and the simulation tools used in order to simulate or validate the results. It was found that other than the simulation tools and modeller, the availability of the platform to validate the security protocol will help in producing a novel IoT security protocol. Hence, there is no doubt that the rapid progress of research in IoT security is supported by the availability of simulation tools and IoT modellers. There have been real catastrophic events resulting from attackers using insecure devices as “thingbots” to attack the IoT network. This is strong evidence that the security of the IoT is of pressing concern. It is also assumed that the IoT will remain a target and attack vector for years to come. This is due to the increasing number of IoT devices, the heterogeneity of the protocols used in the IoT, and the minimal or default security measures embedded in the devices by the manufacturers. Clearly, cyber (IT) security, such as authentication, encryption, and firewalls, should be implemented as security measures in the IoT. But this is not sufficient. The interaction and integration between physical and cyber systems make the IoT different from the traditional network.

                                                     FUTURE SCOPE 

Internet of Things (IoT) is an escalating trend in today's world, and has proved to be a game changer in the field of technology. More and more sensors and devices are being connected together to develop new systems to solve real world problems. With the increase in technology and automation, security has become a major concern. The first line of defense for any property is always a security system, which alerts the owners regarding intrusion in real time. Currently, there exist multiple security systems, which make use of various motion sensors to detect any motion and notify the owner about the intrusion. However, most of these systems do not provide the features of zone barriers, facial recognition, remote camera surveillance and power failure detection, combined with ease of use, economic viability and power efficiency. The main objective of the proposed architecture is to overcome all these problems by developing a smart security and surveillance system which makes use of multiple ultrasonic sensors to detect intrusion attempts on the property of the owner, in order to notify them of the presence of an unauthorized person. Also, the system provides a warning to the person who has intentionally or unintentionally entered the property, so that they can step back in time, without triggering any alarm. With the help of a remote camera surveillance feature, the owner can monitor the surroundings of their property remotely. This system will issue an alert to the owner in case of a power failure as well. This system provides face recognition as an authentication procedure, in order to allow the valid entrants to enter into their property. All these features combined, create a flexible and reliable security system, which can be used in various properties, such as homes, offices, museums and so on.

                                                          CONCLUSION 

By harnessing the power of IoT for your security and surveillance solutions, you enable building owners, organization managers, and security professionals to:

Manage and control surveillance devices remotely to monitor all aspects of a facility.

Make smarter decisions about the best course of action to take based on real-time security conditions.

Determine when there is a false alarm without having to physically inspect the location or unnecessarily dispatch law enforcement.

Collect and analyze data to make important improvements to security processes and systems.

Perhaps the greatest benefit of using IoT solutions for your security system is the ability to prevent the loss of critical assets. IoT security solutions allow organizations to

Gain greater visibility over who enters and leaves a facility in real-time.

Consistently and securely monitor facility conditions from any location with Wi-Fi access.

Act quickly on important security alerts delivered right to their mobile device.

IoT makes it possible to gain greater visibility over your assets to improve security and prevent critical loss through real-time surveillance. Telit enables integrated wireless IoT security and surveillance solutions for security service providers, building owners, public organizations, and cities that want to build effective and secure security systems.

Author:

Jai Vardhan Singh Rathore, Anjali kale, Prathmesh Jadhav, Vaishnavi Jadhav  

We can expect to see more innovations involving m2m routers. Australian made Industrial wireless Modems & routers can play an important role in reshaping the industry.

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The Internet has increased the business of the companies as now they can connect with more number of people that would increase their marketing. Now the M2M router is used in the offices so that they can increase the exchange of information from machine to machine that would increase the efficiency of the firms.