Accelerate Innovation with M2M Application Development Platforms

Develop smarter, connected solutions with M2M (Machine-to-Machine) application development platforms designed to streamline communication between devices. These platforms provide the tools needed to create scalable, secure, and efficient applications for industries like manufacturing, healthcare, transportation, and energy. With robust APIs, cloud integration, and real-time data analytics, M2M platforms empower developers to build applications that enhance automation, improve decision-making, and optimize operations. Stay ahead in the IoT revolution with solutions that bring devices together seamlessly.

The Evolution of SMS in the 5G and IoT Era

Reimagining Text Messages: Embracing the New Age of Connectivity

As technology continues to evolve at a rapid pace, the communication landscape is experiencing a transformative shift. The integration of 5G and the Internet of Things (IoT) is reshaping how devices and people stay connected, with SMS playing a crucial yet adaptable role in this new ecosystem. Although traditional SMS may seem overshadowed by newer messaging platforms, its reliability and ubiquity ensure it remains vital in the connected world. In the era of 5G, the speed and bandwidth capabilities are vastly increased, enabling more sophisticated and data-intensive applications. Despite these advancements, SMS retains its significance as a reliable fallback communication method, especially in critical scenarios where instant and guaranteed delivery is essential. For instance, emergency alerts, two-factor authentication, and transactional notifications depend heavily on SMS due to its widespread compatibility and simplicity. Simultaneously, IoT devices are proliferating, connecting everything from smart thermostats to industrial sensors. These devices often rely on machine-to-machine (M2M) messaging protocols, where SMS continues to be a preferred communication channel owing to its minimal infrastructure requirements and proven reliability. As IoT expands, SMS can serve as a dependable backup or supplementary communication method, ensuring seamless operation even in the face of network disruptions. Looking ahead, the coexistence of SMS with 5G and IoT is a strategic advantage. Developers and businesses are increasingly leveraging the strengths of each technology to create more resilient and flexible communication frameworks. For example, integrated platforms can utilize high-speed 5G data channels for real-time interactions while falling back on SMS for critical alerts and confirmations. Furthermore, the future of SMS involves integrating with emerging technologies such as cloud-based messaging, AI-driven automation, and enhanced security protocols. This evolution will enable SMS to remain relevant, providing a bridge between legacy systems and cutting-edge IoT applications. To explore more about the ongoing developments in messaging technology and its future implications, visit the future of sms for comprehensive insights and updates.

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

Order a free sample PDF of the Industrial Internet of Things Market Intelligence Study, published by Grand View Research.

Bluetooth Low Energy Module Market - Forecast(2024 - 2030)

Bluetooth Low Energy Module Market Overview

Bluetooth Low Energy Modules Market is estimated to surpass $6.7 billion by 2026 at a CAGR of 15.2% majorly driven by surge in adoption of Internet of Things (IoT) for interconnecting networks using wireless sensor networks such as machine-to-machine (M2M), people-to-people (P2P) and machine-to-people (M2P). The demand for Bluetooth enable devices owing to rapid industrialization along with high adoption of consumer electronics devices in the developing countries such as China, India, Malaysia and others have driven the growth of the market. Data transfer and exchange of data within a short range is possible due to low power consumption owing to which Bluetooth low energy modules are widely deployed. In the recent years, the development of beacon technology digital marketing, indoor positioning, electronic payment and other such applications are gaining traction. Beacons use proximity technology to detect human presence nearby and trigger preset actions to deliver informational, contextual, and personalized experience and it is a part of IoT.

Bluetooth Low Energy Module Market Report Coverage

The report: “Bluetooth Low Energy Module Market Report– Forecast (2021-2026)”, by IndustryARC covers an in-depth analysis of the following segments of the Bluetooth Low Energy Module market

By Mode: Single Mode, Dual Mode

By Application: Gaming, Wearable Electronics, Industrial and Building Automation, Consumer Electronics, Asset Tracking and Proximity Marketing, Automotive, Telecom, Electronic Devices, Sports and Fitness, Healthcare and Others

By Geography: North America (U.S, Canada, Mexico), Europe(Germany, UK, France, Italy, Spain, Russia and Others), APAC(China, Japan India, SK, Australia and Others), South America(Brazil, Argentina and others), and RoW (Middle East and Africa)

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Key Takeaways

Japan is in a strong position in terms of pioneering diabetes care due to the excellent healthcare expertise. 

Rapid advancements towards consumer electronic devices such as wireless headsets, audio devices, wireless speakers and many others with smart connectivity are expected to further boost the market demands towards advanced technologies such as Bluetooth low energy modules to meet growing customer demands.

The Korean government along with an automobile manufacturer Hyundai Motor Group had announced of investing about $41 Million won in 2019 to boost the developments towards making the auto industry more competitive by implementing advanced digital navigation technology in autonomous vehicles and connected cars.

Bluetooth Low Energy Module Market Segment Analysis - By Mode

Single-mode gadgets only accept Bluetooth low energy as a mode of communication and is projected to grow at 21.8% CAGR through 2026. These devices cannot connect directly with Bluetooth classic devices, however they are highly designed for Bluetooth low energy and therefore reap the full benefits of this technology. Single mode BLE's existence is so inextricably linked to the phenomenal rise of smartphones, laptops, and mobile computing, it has progressed far more quickly. Single mode BLE's early and successful acceptance by smartphone industry heavyweights like Apple and Samsung paved the way for its widespread adoption. As the smartphone and tablet markets mature and prices and margins shrink, the need for connectivity with the outside world on these platforms continues to increase, providing peripheral vendors with a rare opportunity to deliver creative solutions to issues that people might not even be aware of today. Several advantages have converged around single mode BLE, and the floodgates have opened for tiny, nimble product designers to obtain access to a potentially large market for task-specific, imaginative, and revolutionary products on a comparatively small design budget. Today, users can get all-in-one radio-plus-microcontroller (system-on-chip) systems for just under $2 per chip and in small quantities, which is far less than the total cost of equivalent wireless technologies such as WiFi, GSM, Zigbee, and so on. BLE enables to create feasible devices that can communicate with any new smartphone platform using simple chips, software, and standards.

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Bluetooth Low Energy Module Market Segment Analysis - By Application

Asset Tracking segment is projected to grow at the fastest rate of 43.2% through 2026. With the use of smartphones the BLE signals are detected. The server checks the data sent by the smartphone providing personalized campaigns such as greeting the customers at entry, notifying special offers, product discounts, or getting feedback. This in turn attracts more and more customers increasing the sales. BLE modules installed on every item enable fast tracking and tracing. In addition, it acts as a digital and IoT infrastructure. The retail vendors are able to establish a whole new level of direct and indirect communication between themselves and the customers and a position-related information can be displayed directly on the shopping cart through the BLE mesh.

Bluetooth Low Energy Module Market Segment Analysis - By Geography 

Bluetooth Low Energy Module market in Asia-Pacific region held significant market share of 35.9% in 2020. The Bluetooth Low Energy (BLE) Market is witnessing a significant growth in North America due to upsurge in consumer electronics sector owing to the growth of laptops, tablets and other electronic gadgets largely for business needs, work from home scenario for the COVID-19 pandemic, online classes, gaming sectors along with the adoption of smart technologies in industries such as Automotive and Industrial Automation. According to Intelligence Node, the number of smartphone users in United States crossed 260 million in April 2020, and smartphone shipments reached 161 million units in 2019. This indicates the growth of the market as the BLE modules are deployed in the smartphones interfacing smart devices such as smart watches, smart locks and others and the information is displayed in the smart phone. Increasing penetration of IoT in Canadian markets have surged the adoption of BLE technology for tracking and monitoring of vital assets, which has become much simpler through the use of this technology. Moreover, connected sensors that transmit the location of vehicles are used to track the status of machines and containers fuelling the market growth.

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Bluetooth Low Energy Module Market Drivers 

Increasing Adoption of IoT

The Internet of Things (IoT) refers to a device that operates in the physical world using embedded wireless sensors that can link to the Internet through wired or wireless connections. RFID, NFC, Bluetooth, Bluetooth Low Energy (BLE), and Zigbee are indeed a few of the wireless connectivity solutions available to these sensors. Big Data and the Internet of Things (IoT) are thriving at a rapid pace as a result of technical advances in a diverse array of market verticals. These developments are often included in high-end Bluetooth Low Energy (BLE) modules, which is propelling the demand for Bluetooth Low Energy (BLE) modules forward at a rapid pace. Natural Language Processing (NLP), facial recognition, and Artificial Intelligence are all supported by analytics in Bluetooth Low Energy (BLE) modules. The application platform for Bluetooth Low Energy (BLE) modules are growing, with instances including baby tracking, traffic monitoring, and automated number plate recognition. According to EnOcean GmbH, approximately 400 TWh (terawatt-hour) of energy has been wasted by 14 billion wireless sensor networks (WSNs) users in low power mode around the world. However, with 50 million smartphones, demand will rise by 3.5 times to over 1,400 TWh by 2022. As a result of its low power consumption, Bluetooth Low Energy (BLE) has the best chance of entering the market deeply, resulting in good growth opportunities in the near future, especially in the remote healthcare and automotive industries.

Low Power Consumption Capability

Bluetooth Low Energy is a smarter, more energy-efficient variant of the Bluetooth wireless technology. It is now contributing to turn mobile devices into intelligent devices by making them more portable, and simple. Anything, from the physical architecture to the usage models, is geared toward reducing power consumption. A BLE system is kept in sleep mode for the majority of the time to save power. The device wakes up when an incident happens, and a brief message is sent to a gateway, PC, or mobile. The average power usage is around 1 A and the maximum/peak power consumption is less than 15 mA. The active power consumption is a tenth of that of traditional Bluetooth. A button cell battery could last 5-10 years in low-duty-cycle applications. The Bluetooth low energy (BLE) modules are built in such a way that they can operate for four to five years on a single charge. The BLE technology is expensive, but it has a wide variety of applications. Unlike standard Bluetooth, the Bluetooth low energy (BLE) module does not generate heat. Furthermore, data transfer can be accomplished at a higher rate. The Bluetooth low energy (BLE) module has a higher throughput and a longer range than the standard Bluetooth module.

Bluetooth Low Energy Module Market Challenges

Issues with One to One Pairing

Security researchers say vulnerabilities during pairing constitute a severe security risk. Unlike its predecessor Bluetooth Classic, which could accommodate multiple user links, Bluetooth Low Energy has been designed for one-to-one connections, owing to its low power consumption functionality. Bluetooth Classic is built on a mesh network, while Bluetooth Low Energy was created to be mobile in a mesh topology for fast connectivity and disconnection. While a Bluetooth Low Energy powered hub/master computer will connect to several Bluetooth Smart devices, the reverse is not valid. As a result, the user's ability to send data from a single Bluetooth Smart powered sensing device to multiple hub devices is restricted. This is a source of worry for top players who must scan various output metrics on multiple tracking systems on a regular basis. In April 2020, researchers at The Ohio State University recently developed an automated app analysis tool and used it to identify 1,757 vulnerable free BLE apps in Google Play store. They also performed a field test in which 7.4% of 5,822 BLE devices were vulnerable to unauthorized access.

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Bluetooth Low Energy Module Market Outlook

Product launches, acquisitions, Partnerships and R&D activities are key strategies adopted by players in the Bluetooth Low Energy Module market. Bluetooth Low Energy Module top companies include STMicroelectronics, Cypress Semiconductor, Murata, Panasonic and Texas Instruments among others.

Acquisitions/Product Launches

In March 2021, U-blox launched professional grade MAYA-W1 Wi-Fi 4 and Bluetooth 5 multiradio module based on NXP’s IW416 chip for fast-growing, future-oriented professional applications. It has Bluetooth low energy and Bluetooth classic in a single hardware component.

In March 2019, Murata Manufacturing has partnered with Cypress Semiconductor to develop a low power, small form factor Wi-Fi and Bluetooth module. The new Type 1LV CYW43012 improves battery life in wearabls, smart home products and portable audio applications.

The global demand for Telecom API was valued at USD 325.1 Million in 2023 and is expected to reach USD 1960.92 Million in 2032, growing at a CAGR of 22.10% between 2024 and 2032.The telecommunications industry is undergoing a significant transformation, driven by the proliferation of digital technologies and the increasing demand for seamless connectivity. One of the key catalysts of this transformation is the Telecom API (Application Programming Interface) market. Telecom APIs enable developers to integrate telecom services such as voice, messaging, and data into applications, driving innovation and enhancing user experiences. This article explores the current state of the Telecom API market, its growth drivers, key trends, and future prospects.

Browse the full report at https://www.credenceresearch.com/report/telecom-api-market

Market Overview

The global Telecom API market has witnessed robust growth over the past decade. As of 2023, the market is valued at approximately $250 billion and is projected to reach $450 billion by 2028, growing at a compound annual growth rate (CAGR) of 12.5%. This growth is attributed to the increasing adoption of cloud-based services, the proliferation of smartphones, and the rising demand for IoT (Internet of Things) applications.

Key Growth Drivers

1. Proliferation of Smartphones and Mobile Applications: The widespread use of smartphones and the surge in mobile applications have created a substantial demand for telecom APIs. These APIs allow developers to integrate telecom services into their apps, enhancing functionality and user engagement. Services like SMS, voice calls, and mobile payments are seamlessly integrated using telecom APIs, driving their adoption.

2. Rising Demand for IoT and M2M Communication: The Internet of Things (IoT) revolution has led to an explosion of connected devices, ranging from smart home appliances to industrial machinery. Telecom APIs play a crucial role in enabling machine-to-machine (M2M) communication, facilitating data exchange between devices and networks. This has opened new revenue streams for telecom operators and API providers.

3. Shift Towards Cloud-based Services: Cloud computing has become the backbone of modern digital infrastructure. Telecom APIs enable seamless integration of telecom services with cloud platforms, allowing businesses to scale their operations and enhance service delivery. Cloud-based telecom APIs also offer cost advantages and flexibility, further driving their adoption.

4. Digital Transformation Initiatives: Enterprises across various industries are embarking on digital transformation journeys to improve efficiency and customer experiences. Telecom APIs are instrumental in these initiatives, enabling businesses to leverage telecom capabilities in their digital solutions. For instance, APIs for SMS notifications, voice recognition, and video conferencing are increasingly used in customer service applications.

 Key Trends

1. 5G Integration: The rollout of 5G networks is set to revolutionize the telecom industry. Telecom APIs are evolving to leverage the capabilities of 5G, such as low latency, high-speed data transfer, and enhanced connectivity. This will open up new opportunities for developers to create innovative applications and services that were previously not possible with 4G technology.

2. Expansion of CPaaS (Communication Platform as a Service): CPaaS platforms are gaining traction as they provide developers with a comprehensive suite of communication APIs, including voice, messaging, and video. These platforms simplify the integration of telecom services into applications, reducing development time and costs. The CPaaS market is expected to grow significantly, driven by the increasing demand for real-time communication solutions.

3. API Security and Compliance: As the use of telecom APIs expands, so do concerns about security and compliance. Ensuring the security of data transmitted through APIs and adhering to regulatory requirements are critical challenges. Telecom API providers are investing in advanced security measures and compliance frameworks to address these concerns, enhancing trust among users and businesses.

4. Artificial Intelligence and Machine Learning Integration: The integration of AI and ML technologies with telecom APIs is opening new avenues for innovation. AI-powered APIs for voice recognition, chatbots, and predictive analytics are being developed to enhance user experiences and automate processes. This trend is expected to drive further growth in the Telecom API market.

Future Prospects

The future of the Telecom API market looks promising, with several factors poised to drive its growth. The continued expansion of 5G networks, the rise of IoT applications, and the increasing adoption of cloud-based services will create new opportunities for telecom API providers. Additionally, the integration of emerging technologies such as AI, ML, and blockchain will further enhance the capabilities and security of telecom APIs.

Moreover, as businesses continue to prioritize digital transformation, the demand for telecom APIs will remain strong. Enterprises will increasingly rely on these APIs to deliver innovative services, improve customer engagement, and streamline operations.

Key Players

AT&T Intellectual Property

Telefonica S.A.

Google

Verizon

TWILIO INC.

Others

Segmentation

By Type of API

SMS API (Short Message Service API)

Voice API

Payment API

Location API

WebRTC API

Authentication API

Subscriber Identity Module (SIM) Card API

By Deployment Model

Cloud-based APIs

On-Premises APIs

By End-User Industry

Telecom Operators/Service Providers

Enterprises

Developers/Startups

By Service Type

Payment Services

Content Delivery

Location-Based Services

Identity Management

Voice Calling Services

Data and Messaging Services

By User Type

Internal Telecom API Users (within the telecom operator)

External Telecom API Users (third-party developers, enterprises)

By Revenue Model

Subscription-Based

Pay-as-You-Go

Freemium Models

By Security Type

OAuth (Open Authorization)

Token-Based Security

Other Authentication Mechanisms

By Region

North America

The U.S.

Canada

Mexico

Europe

Germany

France

The U.K.

Italy

Spain

Rest of Europe

Asia Pacific

China

Japan

India

South Korea

South-east Asia

Rest of Asia Pacific

Latin America

Brazil

Argentina

Rest of Latin America

Middle East & Africa

GCC Countries

South Africa

Rest of Middle East and Africa

Browse the full report at https://www.credenceresearch.com/report/telecom-api-market

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5G Chipset Market Predicted to Surge at a 25.5% Year-on-Year Growth, Projected to Attain US$ 180.0 Billion by 2032

The global 5G Chipset Market is slated to witness an unprecedented surge, with a projected annual growth rate of 25.5% Year-on-Year (Y-o-Y), reaching a staggering valuation of US$180.0 billion by 2032. This astronomical growth is substantiated by several key factors.

The escalating demand for cellular Internet of Things (IoT) connectivity, coupled with an increasing need for high-speed internet and expansive network coverage, acts as a significant driving force behind this surge. The proliferation of mobile data traffic and the burgeoning requirement for smart technologies further propel this upward trajectory.

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Currently, the network capacity is incapable of handling M2M and human-based communications, as well as their different communication patterns such as latency time. For this reason, a next-level cellular network for mobile communication, featuring hyper-connectivity and larger bandwidth, is required (e.g., 5G network).

M2M communication technology will be widely used in heavy manufacturing industries and process industries (e.g., food industries) to increase the efficiency of different processes and reduce human interference with machines. M2M communication is thus expected to drive the 5G chipset market.

Key Takeaways from the Market Study

Global 5G chipset market worth to experience over 8x growth until 2032

By frequency, sales of sub-6 GHz 5G chipsets to accelerate at a 23.2% value CAGR

Asia Pacific to be the most opportunistic region for market growth, registering a CAGR of 25.5%

U.S to emerge as the dominant market, yielding US$ 69 Billion in value by 2032

China to be the most lucrative market in APAC, documenting a 24.6% CAGR

Japan & South Korea to yield dollar opportunities worth US$ 10 Billion and US$ 7 Billion respectively

Competitive Landscape

Players in the global 5G Chipset Market focus on expanding their global reach through various strategies, such as; partnerships, collaborations, and partnerships. The players are also making a significant investment in R&D to add innovations to their products which would help them in strengthening their position in the global market. Some of the recent developments among the key players are:

In September 2020, Qualcomm launched a new 5G mobile platform in the 7-series, the Snapdragon 750G 5G Mobile Platform, which enables 5G with brilliant HDR gaming and on-device AI.

In June 2020, Nokia announced a collaboration with Broadcom for the custom system-on-chip solutions for the vendor’s ReefShark-powered portfolio

In June 2021, Samsung Electronics unveiled a new range of new chipsets that will be embedded into the company’s next generation 5G solutions. The new 3GPP Rel.16 compliant chipsets consist of a third generation mmWave Radio Frequency Integrated Circuit (RFIC) chip, a second generation 5G modem System-on-Chip (SoC) and a Digital Front End (DFE)-RFIC integrated chip.

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Know More About What the 5G Chipset Market Repost Covers

Future Market Insights offers an unbiased analysis of the global 5G chipset market, providing historical data for 2015-2021 and forecast statistics from 2022-2032.

Key Segments Covered In The 5G Chipset Market Report

5G Chipset Market by Type:

5G Chipset Modem

5G Chipset RFIC

5G Chipset Market by Process Node:

5G Chipsets less than 10 nm

5G Chipsets between 10-28 nm

5G Chipsets above 28 nm

5G Chipset Market by Frequency:

Sub-6 GHz 5G Chipset

24-39 GHz 5G Chipset

Above 39 GHz 5G Chipset

5G Chipset Market by Application:

5G Chipset for Telecommunications

5G Chipset for Mobile Devices

5G Chipset for Non-Mobile Devices

5G Chipset for Automobiles

5G Chipset Market by Region:

North America 5G Chipset Market

Latin America 5G Chipset Market

Europe 5G Chipset Market

Asia Pacific 5G Chipset Market

Middle East and Africa 5G Chipset Market

Machine-to-Machine Communication - yourcomms

Our platform facilitates effective data interchange and device collaboration by offering safe and smooth machine-to-machine communication solutions. Our M2M communication services can help with developing creative IoT applications, improving smart home automation, or streamlining industrial operations.

5G Fixed Wireless Access Industry anticipated to grow by 2028 with CAGR of 39.0%

The global 5G FWA market is expected to be valued at USD 29.4  billion in 2023 and is projected to reach USD 153.0  billion by 2028 growing at a CAGR of 39.0% during the forecast period. The increasing adoption of advanced technologies such as machine-to-machine (M2M) & IoT and the rising use of millimeter-wave technology for 5G FWA is expected to drive the growth of the 5G fixed wireless access market. However, the high costs of infrastructures and the adverse impact of millimeter wave technology on the environment are restraints for market growth.

Browse 135 market data Tables and 52 Figures spread through 217 Pages and in-depth TOC on "5G Fixed Wireless Access Market - Global Forecast to 2028"

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The 5G FWA market includes major Tier I and II players like Nokia (Finland), Samsung Electronics (South Korea), Huawei Technologies (China), Ericsson (Sweden), Inseego (US), and others. These players have a strong market presence for 5G FWA across various countries in North America, Europe, APAC, and RoW.    

Growing use of millimeter-wave technology in 5G FWA

The growth of the 5G fixed wireless access market is expected to be driven by the increased wireless network capacity and high speed offered by high-frequency millimeter waves. Millimeter waves occupy a relatively unused portion of the electromagnetic spectrum between 30 GHz and 300 GHz, which offers excellent throughput and increased capacity. The 5G fixed wireless access technology provides large bandwidth, high resolution, low interference, cost-efficiency, and high security. It enables the development of miniaturized components for use in several commercial applications. 5G fixed wireless access is expanding to fixed communication, medicine, remote sensing, and consumer electronics applications. This includes using millimeter waves for IPTV, a prospective replacement of the Wi-Fi Alliance standards (802.11n), and wireless video transmission.

Customer premise equipment (CPE) is expected to hold the highest market share during the forecast period.

FWA broadband connections are set to surge, with 5G-enabled FWA lining up to be a major use case for driving adoption and bridging the digital divide challenge worldwide. Ericsson’s most recent 5G Mobility report predicts FWA connections will grow 17% annually through 2028. The number of FWA connections is expected to reach 300 million by 2028, out of which 5G FWA will represent almost 80% of the total FWA connections. High-speed 5G-based FWA connections will drive most of that growth, through 4G LTE technology will remain an important connection source across developing countries until 2024. Higher volumes of 5G FWA in large, high-growth countries such as China can drive economies of scale for the overall 5G FWA ecosystem, resulting in affordable CPE that will positively impact low-income markets. Chinese operators are also looking to increase the number of 5G base stations to 2 million collectively by the end of 2022 to widen their 5G network coverage. This will increase the demand for CPE deployment across the region.

Industrial Application to hold the highest CAGR during the forecast period

5G FWA technology is expected to play an integral role in improving the overall performance of industries such as automotive and transportation, energy and utilities, and mining. IoT and M2M communication are the key technologies used in industrial automation. Applications based on these technologies require high-speed networking, low-latency communication, ultra-fast response times, and many simultaneously connected smart devices. 5G networks are the key enablers for the deployment of IoT as they provide a platform to connect all devices to the Internet using high-speed data transmission and process.

5G FWA market in US for North America to hold the highest market share during the forecast period

The US is one of the major adopters of advanced technologies and strives to implement automation technologies across end-user sectors. For instance, it is among the top three spenders on smart city initiatives. It is also among the top five countries in terms of investments in industrial automation. All these factors have resulted in the adoption of wired and wireless technologies. Most companies operating in the 5G FWA market in North America are based in the US. The strong economy and high disposable income have increased the demand for modern technologies in the country, which is expected to account for more mobile connections than 4G by 2025 and lay the groundwork for accelerated growth in the FWA broadband and IoT services sectors over the next three years.   

Nokia (Finland), Samsung Electronics (South Korea), Huawei Technologies (China), Ericsson (Sweden), Inseego (US), Verizon Communications (US), Siklu Communication (Israel), Vodafone (UK), CableFree (UK), CommScope (US), Gemtek Technology (Taiwan), Airspan Networks Holdings (US), Vantiva (France), Orange (France), Telus Corporation (Canada), AT&T (US), Telefonica (Spain), Swisscom (Switzerland), Hrvatski Telekom (Croatia), Singtel (Singapore), D-Link Corporation (Taiwan), Netgear (US), ZTE Corporation (China), Sunrise Communications AG (Switzerland), and T-Mobile US (US) are among the many players in the 5G FWA market.

Impact of IoT on the Telecommunications Industry: Unlocking Opportunities 

The telecommunications industry finds itself at the forefront of a technological revolution, sparked by the rapid development of Internet of Things (IoT) technologies. With a projected 64 billion IoT devices expected to be in use by 2025, the telecom sector is poised to undergo a paradigm shift in its operations. Most of these IoT devices will rely on cellular networks to transmit vast amounts of data to the cloud, powering machine learning (ML)-based forecasting.

Telecom companies, leveraging their existing infrastructure of internet cables and mobile phone towers, are uniquely positioned to capitalize on the growth of telecom IoT solutions and the emergence of 5G technologies. The use of a telecom IoT platform is the need of the hour for communication service providers (CSPs) in order to stay ahead in today’s fast-paced and highly competitive world.

The Immense Potential of IoT in Telecom

The IoT wave presents a great opportunity for telecom companies to monetize their data and diversify into industries beyond network connectivity. However, becoming IoT leaders in isolation is a daunting task for CSPs. To unlock the full potential of IoT, telecom companies must collaborate with other enterprises within the IoT ecosystem. This collaboration enables them to develop an extensive range of services, capitalizing on their unique assets such as intelligent networks, data analytics, telecom IoT solutions, billing systems, CRM, and cloud services. These assets can be harnessed to cater to diverse industries, from manufacturing to medical.

Offering Connectivity Services with the Telecom IoT Platform

One of the primary implementation options for telecom providers is to offer connectivity services to IoT device users. While IoT device data is typically processed on the client side, telecommunication operators provide the essential IoT connectivity platform. This platform is responsible for managing devices and enhancing the quality of connecting customer infrastructure to the telecom network. Telecom companies play a crucial role in the IoT ecosystem by ensuring seamless connectivity.

Data Analytics using IoT and M2M Solutions

IoT initiatives yield vast amounts of valuable data for the telecommunications business. Telecom operators can create data pools from this data and employ analytics to extract actionable insights and generate essential business ideas. Leveraging IoT-generated data along with artificial intelligence and machine learning algorithms allows telecom providers to track user behavior. This capability enables diagnostics and the development of forecasting models to predict trends, providing valuable insights into the industry's future.

Location Services

Mobile networks and IoT sensors are instrumental in advancing location capabilities, a critical feature for smart cities and other applications. Proximity sensors facilitate seamless information sharing between IoT applications within the telecom sector. These sensors can also integrate into public transport infrastructure to offer users optimized routes, locate nearby stops, and provide real-time transport information. Furthermore, devices with built-in proximity sensors have the capacity to track people's movements and help them find each other in crowded places.

Enhancing Security

Security is paramount, especially at remote sites where expensive and critical equipment is exposed to theft risks. Telecom companies must implement robust protection systems to safeguard their assets. In this regard, IoT-based smart cameras emerge as a potent solution for physical security. These cameras can monitor potential security breaches and automatically send alerts, enhancing physical safety. Leveraging IoT capabilities in telecom bolsters security measures by restricting access to third parties and preemptively countering potential threats.

IoT and M2M for CSPs

For CSPs, IoT and M2M solutions represent a gateway to diversification and revenue growth. By offering robust IoT and M2M services, CSPs can connect countless devices, enabling data-driven insights and automation across diverse industry verticals. An IoT and M2M connectivity management platform empowers CSPs to expand their portfolios, cater to diverse sectors, and establish themselves as indispensable players in the evolving landscape of connectivity and digital transformation.

Striking the Perfect Balance Is Vital

An IoT and M2M connectivity management platform offers a plethora of revenue streams that can significantly enhance telecom companies' business performance. However, this double edged sword requires meticulous handling. CSPs must identify the most promising IoT avenues and develop a comprehensive strategy to seize these opportunities. Failing to do so could leave them vulnerable to competition.

The telecommunications industry stands at the stamina of transformation, driven by the advancements of telecom IoT solutions. Infinity, telecom IoT platform promises immense opportunities for revenue generation and diversification, telecom companies must navigate this landscape with precision. Collaborations within the IoT ecosystem, IoT connectivity services, data analytics, location services, and enhanced security measures represent key avenues for telecom providers to capitalize on this wave of innovation. By doing so, they can not only evolve their businesses but also cement their place as pioneers in the IoT revolution.

Are you interested in learning more about Infinity, telecom IoT solution? Visit https://www.6dtechnologies.com/products-solutions/internet-of-things

BLIIoT Remote Monitoring RTU Gateway S275 is used in Oil Tank Monitoring

Introduction

Oil tank monitoring is an important task, involving many aspects such as liquid level monitoring, temperature monitoring, leak detection, remote control, etc. These challenges require reliable monitoring equipment to ensure storage tanks are safe, compliant and efficient. Level, temperature and leakage monitoring are critical in tank management

Application of RTU Gateway S275 in Oil Tank Monitoring

The RTU Gateway S275 has a wide range of application potential in oil tank monitoring and control. It can connect to various monitoring devices, including liquid level sensors, temperature sensors and liquid level switches, and collect liquid level data, temperature data, liquid level switch status and alarm information in real time. This data can be transmitted via a variety of communication protocols, ensuring the feasibility of remote monitoring. At the same time, RTU S275 supports remote control, such as controlling equipment such as valves and pumps, to ensure the stable and safe operation of the oil tank.

In addition, RTU S275 can store and connect data to cloud platforms. Whether it is connected to public cloud platforms (such as Huawei Cloud, Alibaba Cloud) or users' own private cloud platforms, it can realize real-time transmission and backup of data. Data analysis and visualization are also realized, helping users better understand oil tank monitoring data by displaying data charts, trend analysis and exception reports.

Advantages of RTU Gateway S275

1. Data Collection and Analysis

RTU Gateway S275 can monitor the liquid level and temperature of oil tanks in real time, record the data, conduct historical data analysis, and provide visual reports so that operators can better understand the status of the oil tanks.

2. Alarm and Notification System

RTU Gateway S275 can set thresholds for liquid level, temperature and leakage parameters. Once the parameters exceed the limits, the operating personnel will be notified through multiple notification channels (SMS, phone, email) so that they can take timely measures.

3. Remote Access and Control

Through SMS, mobile phones, computers and other devices, operators can remotely access monitoring data at any time, and can even remotely control and adjust the tank liquid level and temperature, or deal with leaks.

4. Data Recording and Reporting

The system can record historical data and generate reports and trend analysis to help operators develop more effective management strategies.

The application of RTU Gateway S275 lies in its ability to solve challenges in the field of monitoring and control. By using RTU S275, tank managers can achieve remote monitoring, instant alarm, reduce manual intervention, improve safety and compliance, reduce operating costs, and ensure effective utilization of resources.

Summarize

BLIIoT Remote Monitoring RTU Gateway S275 provides an efficient and reliable solution for oil tank monitoring and control. By making full use of its multi-functional features, tank managers can achieve remote monitoring and intelligent control, improve safety and compliance, reduce costs, and ensure the efficiency and reliability of tank operations.

More information about BLIIoT Remote Monitoring RTU Gateway S275: https://www.bliiot.com/m2m-rtu-p00174p1.html

Lierda Science & Technology Group Co.,Ltd. headquarters

Make the IoT world easier

We have established an integrated industrial chain of IoT embedded solutions : electronic components, microcontrollers, sensors, wireless communication, IoT gateways and IoT cloud platforms, to promote the transition and upgrade of traditional industries.

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Lierda has deep background and rich experience in embedded micro-control technology, RF hardware R&D, communication, networking technology, and has mature communication solutions such as 5G, NB-loT, LoRa, Wi-Fi, Wi-SUN, BLE, etc.

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Data Marketplace Platform Market: A Deep Dive into Key Industry Players

The global data marketplace platform market size is expected to reach USD 5.73 billion by 2030, registering a CAGR of 25.2% from 2025 to 2030, according to a new report by Grand View Research, Inc. A data marketplace is a transactional platform that facilitates buying and selling of different data types, offering a unique user experience. Data marketplaces comprise cloud services where businesses or individuals can upload data to the cloud. The different data types, such as demographic, business intelligence, and firmographic, personal data, are available in a data marketplace.

The data marketplace platform enables self-service data access, maintaining a high quality of data, consistency, and security for both parties. Businesses and organizations are commencing to augment internal data sets with external data propelling the growth of the data marketplace platform market. It enables buyers with segmented, dependable, and relevant data to access data via analytical tools and platforms to meet business needs.

For instance, the Microsoft Azure marketplace provides data through a uniform interface, and developers can access data via Microsoft Excel and PowerPivot. The gradual shift from conventional business practices to online platforms resulted in the establishment of efficient data marketplace services and solutions. Data marketplace arranges data flow and optimizes data sourcing, providing a data analytics framework for tuning decision models to optimize and improve processes.

Several companies have launched new platforms during the COVID-19 pandemic. For instance, in 2020, Aiisma, a data marketplace, launched Aiisma App with Aiihealth feature, consisting of marketplaces’ location sharing and health mapping features. Users can anonymously and consensually share their behavioral data in exchange for rewards, and this application has proven helpful in creating a digital fence against the pandemic.

The growth is attributed to the emergence of Big Data, web scraping, and advancements in blockchain, as it provides access to considerable data to enhance performance and generate revenue. Web scraping is an automatic process of extracting data from websites; it automates data collection, unlocks web data sources, and suggests data-driven decisions that add value to decision-making. The increasing adoption of AI, data mesh, data management, and blockchain in data & analytics is propelling the usage of self-service analytics solutions.

The market is projected to witness significant growth attributed to the increasing adoption of Internet of Things (IoT) solutions and the deployment of cutting-edge technologies such as AI, AR/VR orchestration capabilities, and machine-to-machine (M2M) advancements in communications networks. Additionally, a growing emphasis on the usage of cloud services is anticipated to boost the growth.

Gather more insights about the market drivers, restrains and growth of the Data Marketplace Platform Market

Data Marketplace Platform Market Report Highlights

• The platform segment dominated the overall market with a revenue share of more than 62% in 2024, and is expected to witness a CAGR of 24.3% during the forecast period.

• The B2B data marketplace platforms segment dominated the overall data marketplace platform industry, gaining a revenue share of over 58% in 2024. It is expected to witness a CAGR of 24.6% during the forecast period.

• The subscription segment dominated the overall market, gaining a revenue share of over 52% in 2024. It is anticipated to witness a CAGR of 27.2% during the forecast period.

• The large enterprises segment dominated the overall market with a revenue share of nearly 57% in 2024 and is expected to grow at a CAGR of 24.7% during the forecast period.

• The financial services segment dominated the overall market, gaining a revenue share of 18.5% in 2024. It is witnessing a CAGR of 18.7% during the forecast period.

• North America data marketplace platform market led the overall data marketplace platform industry in 2024, with a share of more than 35%.

Data Marketplace Platform Market Segmentation

Grand View Research has segmented global data marketplace platform market report based on component, type, revenue model, enterprise size, end-user, and region:

Data Marketplace Platform Component Outlook (Revenue, USD Million, 2017 - 2030)

• Platform

• Services

Data Marketplace Platform Type Outlook (Revenue, USD Million, 2017 - 2030)

• Personal Data Marketplace Platforms

• B2B Data Marketplace Platforms

• IoT Data Marketplace Platforms

Data Marketplace Platform Revenue Model Outlook (Revenue, USD Million, 2017 - 2030)

• Subscription

• Commission

• Paid features

• Others

Data Marketplace Platform Enterprise size Outlook (Revenue, USD Million, 2017 - 2030)

• Large Enterprises

• SME's

Data Marketplace Platform End-user Outlook (Revenue, USD Million, 2017 - 2030)

• Financial Services

• Advertising, Media & Entertainment

• Retail & CPG

• Healthcare & Life Sciences

• Technology

• Public Sector

• Manufacturing

• Other (Education, Automotive, Energy, Oil & Gas)

Data Marketplace Platform Regional Outlook (Revenue, USD Million, 2017 - 2030)

• North America

o U.S.

o Canada

o Mexico

• Europe

o U.K.

o Germany

o France

o Italy

• Asia Pacific

o China

o Japan

o India

o South Korea

o Australia

• Latin America

o Brazil

• Middle East & Africa

o UAE

o KSA

o South Africa

Order a free sample PDF of the Data Marketplace Platform Market Intelligence Study, published by Grand View Research.

WHAT IS ICT?

Information and Communications Technology or ICT is a diverse set of technological tools and resources used to transmit, store, create, share or exchange information.

It includes computing technologies like servers, laptop computers and software applications, as well as the wired and wireless communication technologies that support telephones, the Internet, the Internet of Things (IoT) and the metaverse.

The goal of ICT is to improve access to information and and make human-to-human, human-to-machine and machine-to-machine (M2M) communication easier and more efficient.

IMPORTANCE OF ICT IN EDUCATION

Today we do not need to go any further than our own home or even room, to see some form of ICT in our lives. Whether it be a computer, plasma TV, or mobile phone, we all have them in some part of our lives. In today’s society, people as consumers of ICT, all strive for the one dream – the dream of a connected life.

This makes ICT a lifestyle choice for much of the population. In addition, this lifestyle choice is changing the way we communicate, increasing the rate of consumerism, and changing how we interact and gather information (Sherringham, Dec 2008/Jan 2009).

ICT enhances the ability of learning. It provides a medium where teachers and students, and other education community members can interact and improve the education management system from the class level to the education sector on a national level.

For centuries teachers are teaching by using books and delivering lectures using traditional methods, which are quite hard, and teachers must work a lot to make lectures interactive.

In recent months humanity is facing a new challenge in the form of COVID-19. Most of the education system around the world is shut down. This pandemic is forcing ICT in the limelight more than ever to adapt and help community educational needs. Institutes are forced to use technology in the education sector. The world understands now that education is not bound to venues anymore.

ICT based modern technologies in the education system benefit the teacher and the student to get the education of real value. These tools are used to improve the skills of the student.

FIVE PLATFORMS USED IN ICT FOR EDUCATION

1) GOOGLE CLASROOM

Classroom helps teachers save time, keep classes organized, and improve communication with students. Classroom is a new tool in Google Apps for Education that helps teachers create and organize assignments quickly, provide feedback efficiently, and easily communicate with their classes. Classroom helps students organize their work in Google Drive, complete and turn it in, and communicate directly with their teachers and peers.

2) MOODLE

Moodle is a free software, a learning management system providing a platform for e-learning and it helps the various educators considerably in conceptualizing the various courses, course structures and curriculum thus facilitating interaction with online students.

Moodle was devised by Martin Dougiamas and since its inception, its primary agenda has been to contribute suitably to the system of e-learning and facilitate online education and attainment of online degrees.

3) SCHOOLOGY

A learning management system (LMS) that connects all the people, content, and systems that fuel education.

Schoology is like a teacher's website or an extension of their classroom online. Announcements, special dates, pictures, newsletters, discussions, lessons, videos, etc. could all be on a teacher's Schoology page. Students are enrolled in Schoology by the school through our PowerSchool, student information system. Students log into Clever to access Schoology.

4) GOOGLE MEET

Google Meet (formerly known as Hangouts Meet) is a video communication service developed by Google. It is one of two apps that constitute the replacement for Google Hangouts, the other being Google Chat. It replaced the consumer-facing Google Duo in late 2022, with the Duo mobile app being renamed Meet and the original Meet app set to be phased out.

5) GOOGLE FORMS

Google Forms a free online tool from Google which allows users to create forms, surveys, and quizzes as well as to collaboratively edit and share the forms with other people. Educators can use Google forms to assess their students at the beginning of the class and gauge pre-existing knowledge.

REFERENCES:

https://learningportal.iiep.unesco.org/en/glossary/information-and-communication-technologies-ict

https://www.techopedia.com/definition/24152/information-and-communications-technology-ict

https://www.ictesolutions.com.au/blog/why-schools-should-invest-in-ict/

https://www.igi-global.com/chapter/role-of-ict-for-community-in-education-during-covid-19/272453

https://chrome.google.com/webstore/detail/google-classroom/mfhehppjhmmnlfbbopchdfldgimhfhfk

https://www.distancelearningportal.com/articles/161/what-is-moodle-what-are-online-learning-managements-systems.html

https://www.nazarethasd.k12.pa.us/Page/1551

Prepared by:

Tupaz, Leanna Mae L.

Precilla, Mary Mervelyn D.

Malveda, Maureen Jhoie H.

Martos, Roseann S.