Wireless Data Radio Modem Market Analysis Forecast till 2032

Wireless Data Radio Modem Market size was valued at USD 527.87 Million in 2021 and is projected to reach USD 739.30 Million by 2030, growing at a CAGR of 3.82% from 2023 to 2030.

The competitive analysis of the Wireless Data Radio Modem Market offers a comprehensive examination of key market players. It encompasses detailed company profiles, insights into revenue distribution, innovations within their product portfolios, regional market presence, strategic development plans, pricing strategies, identified target markets, and immediate future initiatives of industry leaders. This section serves as a valuable resource for readers to understand the driving forces behind competition and what strategies can set them apart in capturing new target markets.

Market projections and forecasts are underpinned by extensive primary research, further validated through precise secondary research specific to the Wireless Data Radio Modem Market. Our research analysts have dedicated substantial time and effort to curate essential industry insights from key industry participants, including Original Equipment Manufacturers (OEMs), top-tier suppliers, distributors, and relevant government entities.

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Market Segmentations:

Global Wireless Data Radio Modem Market: By Company • Adeunis • Atim Radiocommunications • Campbell Scientific • Cohda Wireless • Encom Wireless • Harris Corporation • Intuicom • Pro4 Wireless • Advantech B+B Smartworx • Freewave Technologies • Microhard Systems • Pacific Crest • Digi International • Woods & Douglas • Simrex Corporation • MotoRola Solutions • Satel OY • Arada Systems • Javad Gnss • Schneider Electric • GE Grid Solutions • Harxon Corporation • ABB Global Wireless Data Radio Modem Market: By Type • Short Range • Long Range Global Wireless Data Radio Modem Market: By Application • SCADA & Telemetry • Precision Farming • Transportation

Regional Analysis of Global Wireless Data Radio Modem Market

All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Wireless Data Radio Modem market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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Key Report Highlights:

Key Market Participants: The report delves into the major stakeholders in the market, encompassing market players, suppliers of raw materials and equipment, end-users, traders, distributors, and more.

Comprehensive Company Profiles: Detailed company profiles are provided, offering insights into various aspects including production capacity, pricing, revenue, costs, gross margin, sales volume, sales revenue, consumption patterns, growth rates, import-export dynamics, supply chains, future strategic plans, and technological advancements. This comprehensive analysis draws from a dataset spanning 12 years and includes forecasts.

Market Growth Drivers: The report extensively examines the factors contributing to market growth, with a specific focus on elucidating the diverse categories of end-users within the market.

Data Segmentation: The data and information are presented in a structured manner, allowing for easy access by market player, geographical region, product type, application, and more. Furthermore, the report can be tailored to accommodate specific research requirements.

SWOT Analysis: A SWOT analysis of the market is included, offering an insightful evaluation of its Strengths, Weaknesses, Opportunities, and Threats.

Expert Insights: Concluding the report, it features insights and opinions from industry experts, providing valuable perspectives on the market landscape.

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Global Wireless Data Radio Modem Market Analysis, Size, Trends 2020-2024 | KandJ Market Research

KandJ Market Research announces that it has promoted a new study Global Wireless Data Radio Modem: Market Shares, Strategy, and Forecasts, Worldwide, 2020 to 2024. The 2020 study has 98 pages, tables and figures.

The key insights of the report:

The report provides key statistics on the market status of the Wireless Data Radio Modem manufacturers and is a valuable source of guidance and…

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Qualcomm attempts to revive its IoT fortunes with Aware, a powerful device-to-cloud platform

Overview Of the Qualcomm Aware platform

Qualcomm announced the launch of its Aware platform- an API-rich, device-to-cloud technology platform to enable industrial digital transformation. A key strength of the Aware platform is energy-efficient real-time location services, which is a great fit with asset visibility applications such as asset tracking and condition monitoring. 

The Qualcomm Aware platform integrates Qualcomm’s hardware with location technology assets from Skyhook (#cellular+Wi-Fi+#GNSS) and PoLTE (cellular: #4G & #5G) acquired in May 2022 and February 2023 respectively. Through these acquisitions, Qualcomm Aware platform enables energy-efficient location tracking for battery-operated sensor devices used in supply chain visibility applications. Along with the location services, The Qualcomm Aware platform also offers additional software capabilities such as connectivity management, end-to-end security and feature-rich open #API tools for solution developers and system integrators to seamlessly integrate with ERP and cloud systems across vertical industries. 

Softening demand, market fragmentation and supply chain complexities underpin Qualcomm #SaaS move

As the semiconductor market increasingly faces stiff competition, as the cost of radio chipsets and modems continues to depreciate annually. Demand for #IoThardware has also dwindled as enterprise IoT adoption is disrupted due to various global market uncertainties triggered by the #US-China trade wars, the #COVID-19 pandemic, and more recently Russia-Ukraine war. These market uncertainties have also exposed vulnerabilities in the industrial supply chain due to the lack of visibility in global value chains and the concentration of production in a few countries. IoT IC chipset market growth has suffered in the last few years across all regions except for #China which accounts for a large majority of the IoT chipset/module sales driven by smart meter(enerygy and water) and smart city applications. 

The above market conditions have accelerated communication chipset and module vendors need to strengthen their hardware portfolio with value-added software and to move up the value chain and ensure a larger share of revenues from enterprise #digital #transformation. With the Aware platform, #Qualcommis creating a one-stop-shop for device-to-cloud solutions by strategically partnering with device OEMs such as #ikotec and #Sodaq. 

Qualcomm Aware platform attempts to address the technology market fragmentation and complexities of device-to-cloud data management, and low-power, low-cost location tracking, a key criterion for battery-operated sensor devices. The Aware platform will play a significant role in enabling supply chain visibility in enterprises that are undertaking digital transformation of their operations by implementing sensor networks. These sensor networks will allow enterprises to gather new data streams that offer real-time actionable insights to continuously improve operational visibility and control. 

The Qualcomm Aware platform helps simplify the provisioning and commissioning of connected field devices when implemented, using multiple wireless connectivity technologies at scale across geographical locations and environments. The platform’s positioning technology will help field technicians automatically tag the location of devices during the installation process. Device location data is not only important for tracking mobile assets but also is an essential data point when installing stationary assets. In vertical IoT applications like smart meters, #streetlights, power transformers, industrial containers, feed silos, etc, tagging the precise location of field assets is an essential data requirement while provisioning the connected assets. The location data of fixed assets are integrated into enterprises' #GIS and subsequently used for periodic maintenance and other field service operations.

Skyhook and PoLTE location technology merged into a powerful device-to-cloud platform

Founded in 2007, Skyhook is a Boston, US-based location software that offers positioning technology using #WiFi, cellular, and #GNSS signals, or a combination of these wireless technologies to calculate device geo-location in the cloud. The accuracy and precision of the geolocation vary depending on the environment and wireless network technology. 

PoLTE based in Dallas, Texas, is a location technology company founded in 2005. PoLTE, #proprietary #Cloud #location over cellular (C-LOC) technology leverages carriers' terrestrial LTE and 5G networks to offer real-time location services. 

Both these cloud-based location technologies require a small firmware upgrade in device hardware to install a software agent that analyses signals from already deployed networks (Wi-Fi, cellular, and GNSS). This data is transmitted to the cloud to calculate near real-time geolocation of the device.  

PoLTE and Skyhook achieve this using powerful cloud solvers leveraging either cellular and/or short-range wireless (Wi-Fi & #BLE) network scan data to compute accurate location data in the cloud. For example, a Wi-Fi-enabled device uses network scan information (eg. signal strength) from multiple Wi-Fi access points to compute the location of the device. Similarly, in the case of cellular networks, the device location is computed using measurement data obtained from cellular radio towers. The devices transmit network characteristics with an accurate time stamp to the cloud where powerful algorithms use data points either from a single network or in the case of hybrid solvers using multiple networks to compute the location with accuracy varying from a few centimetres to 10’s of meters. 

Qualcomm Aware platform embeds these two powerful #geolocationtechnologies in PoLTE and Skyhook to their Qualcomm IoT modem chipsets. Integration of PoLTE and Skyhook technologies brings together their strengths in cellular and WiFi network geolocation to the Aware platform. This enables Qualcomm to offer #energy-efficient geolocation services, by transferring the location processing workload from the device to the cloud. This is a crucial requirement for battery-operated sensor devices that need to operate autonomously in the field for several years to create a strong business case and a positive return on investment (ROI) for various digital transformation projects. 

One-Stop-Shop device to cloud platform will help reduce solution time to market 

Vendors offering digital supply chain solutions using Qualcomm chipsets will gain the most value as they can quickly integrate Qualcomm’s Aware platform as an off-the-shelf solution to its asset visibility solution stack. This will help IoT device OEMs, system integrators and solution providers to accelerate their solution time to market. The platform's capabilities reduce complexities in device provisioning and commissioning, connectivity management, and security of IoT devices at scale.

Qualcomm Aware will potentially help reduce fragmentation and offers enterprises an end-to-end solution. The Aware platform is a device-to-cloud service that comes with integrated devices, global data connectivity, device management, tracking and sensing #modules, and developer-friendly cloud APIs. 

As part of the Aware platform launch, Qualcomm has also announced a developer device, the Qualcomm QT S110 tracker which uses the #MDM9205 modem. The device is designed for global multi-modal supply chain visibility needs and comes pre-integrated with Aware Cloud. Qualcomm plans to add three new deviceswhich include:

Aware Thin Tracker, a credit card-sized tracker for shipment logistics.

Aware Cellular Label, a smart label for tracking parcels.

Aware Sensor, a low-cost inclinometer for pole tilt monitoring.

Analyst view: Opportunity in Enterprise Supply chain visibility-“You cannot improve what you don’t measure”

To improve industrial supply chains, enterprises are increasingly demanding near real-time visibility in the form of geolocation and condition of field assets. Furthermore, supply chain visibility will play a crucial role for industries to transition from existing linear to more #sustainable and #circular supply chains. The need for reliable and real-time data on assets and processes has become a critical requirement to plan, strategise and execute the necessary changes. Qualcomm aware platform has identified six asset-intensive industry verticals- construction, energy & utilities, healthcare, logistics, manufacturing, and retail. However, over time the demand for digital tools that help transition to circular/sustainable supply chains will be felt across all industries. 

Broader market segmentation for potential opportunities in enterprise asset visibility can be briefly summarised as follows.

A) Indoor/Campus Asset Visibility

Visibility (location and condition) of assets within the premises of a building or a campus. This includes tracking movement and condition of assets/goods within building facilities such as factories, warehouses, hospitals, retail shops, transportation hubs, construction sites, educational institutions etc. The requirement for asset visibility in indoor environments are as follows-

Have a higher density of assets in indoor environments with location tracking and condition-monitoring at the item level and/or aggregate level (pallets, containers, Re-usable transport units).

Indoor asset visibility solutions today are dominated by short-range wireless connectivity technologies deployed as campus networks. Over the years, #RFID and to some extent BLE have gained mainstream adoption across key industry verticals such as Retail & apparel, logistics, manufacturing, and health care.

Location accuracy requirements for of indoor asset tracking can vary from a few centimetres to meters. 

Short-range wireless connectivity technologies such as RFID, #UWB, Wi-Fi, and BLE are popular technology choices for enabling asset visibility indoors, 

Cellular network technologies such as #NBIoT, #LTEM and 5G and non-cellular LPWAN LoRaWAN are increasingly gaining indoor coverage, especially through the deployment of private networks.

Qualcomm Aware platform fit- Low: Qualcomm Aware platform currently does not support RFID and BLE 2 dominant connectivity technologies used in indoor asset visibility. Native support of the RFID, BLE and UWB on the Aware platform would help enterprises with legacy asset visibility systems benefit from cloud applications and expand their indoor asset visibility use cases enabled by new capabilities enabled by technologies such as Wi-Fi-6, UWB and 5G.

B) Outdoor Asset Visibility

The demand for Asset visibility in outdoor environments is often for high-value assets or assets transported in the aggregate form in pallets, boxes or containers. The requirement of asset visibility for outdoor environments are as follows-

Item-level tracking of assets is mostly implemented through an edge gateway (parent) embedded with cellular and GNSS connectivity that is linked to multiple trackers (child) used to monitor either individual items or at aggregate levels when assets are being transported.

Location accuracy for outdoor asset visibility typically varies from a few 10’s of meters to hundreds of meters with the data transmission frequency of a few times a day. Sensors such as temperature sensors, vibration sensors, level sensors, humidity/moisture sensors, and pressure sensors are typically used to monitor the condition of goods while in transit. 

Devices use public connectivity network infrastructure and require reliable regional coverage and/or even multi-regional coverage for use cases such as multi-modal container tracking.

Low-cost asset tracker devices use RFID, BLE and #Zigbee to track at the item level.

Asset trackers using #LPWA network technologies such as 5G (LTE-M, NB-IoT) and LoRa and Sigfox have emerged as popular technology choices to offer simple, low-cost outdoor tracking solutions at the item and/or aggregate level without the need for gateways devices.

Qualcomm Aware platform fit- High: Provides strong value proposition in this segment as the Aware platform offers an Off-the-shelf solution that will help enterprises transition from legacy outdoor asset visibility solutions using cellular technologies such as 2G/3G networks that are expected to be sunset soon to more energy efficient technologies such as #CAT1, LTE-M and NB-IoT. The simplicity and TCO benefits from low-power, low-cost, outdoor asset trackers will also help replace existing complex point-to-point tracking systems and also stimulate new demand for asset visibility.  

C) Seamless Indoor and Outdoor Asset visibility

End-to-end supply chain visibility requires seamless tracking of goods or assets as it moves through factory floors to warehouses to end-customer locations and in some cases returned back. 

Changing environments present several challenges as no single location tracking technology is suitable for seamless indoor and outdoor tracking. Asset visibility application requirements also vary depending on the environment. 

Relatively more complex solution designs to address application and business use-case requirements.

Leverages a combination of private/campus networks and public network infrastructure for device connectivity. 

To enable seamless indoor and outdoor tracking capability use multi-radio connectivity hardware using a combination of short-range wireless technologies such as RFID, Wi-Fi, BLE and UWB for indoor environments and WAN technologies for cellular, GNSS and non-cellular LPWA for outdoor environments to mitigate connectivity network coverage limitations.

Qualcomm Aware platform fit- Medium: In this segment, connectivity technology limitations contribute to solution design challenges that have a direct impact on device/solution complexity from multi-radio hardware, cost, implementation complexity, data silos, integration challenges etc that directly impacts enterprise adoption. The Qualcomm Aware platform’s growth in this segment will depend on indoor network coverage of cellular (4G/5G) and Wi-Fi to drive adoption or the platform will require plug-ins, and integrations with indoor asset visibility solution providers to offer end-to-end supply chain visibility. 

Conclusion and Recommendations:

As briefly explained above, application requirements for location technologies vary depending on the industrial supply chain process, interoperability with existing systems, location/environment, the total cost of ownership, ease of implementation and several other factors. Qualcomm’s Aware platform currently supports Wi-Fi, Cellular and GNSS network technologies and does not include BLE and RFID two popular location technologies used in indoor location services. The platform also does not support emerging location technologies such as UWB and LoRaWAN. These limitations can be potentially addressed by leveraging the open APIs to integrate data generated from connectivity technologies currently not supported by the platform. 

Qualcomm’s acquisition of Skyhook and PoLTE and its integration into the Qualcomm Aware platform also validate the value and demand for cloud-based location technologies. However, Qualcomm through this strategic acquisition has also created problems for several of its competitors. Over the years, Skyhook and PoLTE had developed strategic partnerships with several chipset vendors including #Mediatek, #Unisoc, #Altair Semi, #Nordic Semiconductor, and #Sequans Communications that have embedded their location technology in their chipsets to offer similar geolocation services. it’s unclear after the acquisition of PoLTE and Skyhook, how these chipset vendors will mitigate the impact on its continuity of geolocation service. In the short term, the affected chipset vendors can potentially switch to other cloud-based location software technology providers such as #Google, #Here, #unwired labs, and #Ubudu, which offer similar indoor and outdoor geolocation solutions.

The Qualcomm Aware platform will directly compete with connectivity platforms and solutions from large telecom operators such as #AT&T, #Verizon, #Vodafone, #DeutscheTelekom, #Orange Etc that offer similar enterprise asset visibility solutions. That said, the Qualcomm Aware platform also helps other regional telecom operators with similar ambitions to offer end-to-end solutions will be able to quickly develop their asset visibility offerings and significantly reduce their solution time to market. 

Finally, the acquisition of Skyhook and PoLTE by Qualcomm highlights the need for the industry to collaborate on an open-source, standards-based low-power location technology for sensor devices that are agnostic of connectivity technology and radio-chipset vendor. Such an open-source standards-based solution will foster a multi-vendor cloud-based location technology supplier and chipset supplier ecosystem, enabling interoperability and reducing the risks of vendor lock-in for end customers. 

Wireless RAN Market Demand By Manufacturers, Countries, Type and Application, Forecast to 2030

TheWireless RAN Market report gives a comprehensive analysis of the industry, including essentials such as the industry chain’s structure and implementations. In addition, this report highlights the key driving factors, constraint, opportunities, and challenges in the market. The Wireless RAN Market report delivers market status from the reader’s point of view, providing certain market stats and business intuitions. The global Wireless RAN Market industry includes historical and futuristic data related to the industry. The study report on the Wireless RANmarket uses primary and secondary research methodologies to provide accurate data to its readers. In order to completely evaluate the market and key players. Analysts have also used SWOT analysis and Porter’s five forces analysis.

The Global Wireless RAN Market Is Expected To Grow At A CAGR Of 8.6% To Reach USD 31.6 Billion During The Forecast Period 2022-2030.

Wireless: The Radio Access Network (RAN) makes sure that radio sites manage their resources together and lets them give radio access. Its main job is to connect the user's equipment to the network's core. When a device connects wirelessly to the core network, the radio access network sends its signal to many endpoints. The signal travels with traffic from different networks. It is scalable, flexible, and saves energy because it is a new wireless idea. As a result, they are used in transmission infrastructure, baseband processing resources, shared cell sites, radio spectrum, and other end uses like telecommunications, aerospace, defense, data centers, medical service providers, industrial, etc. The global wireless RAN market is growing a lot and will keep growing a lot over the next few years.

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Top Key Players:

AT&T Mobility, Ericsson, Huawei, Nokia, ZTE, Samsung, and Others.

Strategic Market Developments:

In February 2019, MaxLinear Inc. announced the release of its next-generation quad RF transceivers, the MxL1500 and MxL1600, for 5G wireless infrastructure. These transceivers help provide high system integration, wide bandwidth with high performance and wide system flexibility. With their low power consumption features, both transceivers create high deployments in wireless infrastructure radios.

In February 2019, Signalchip announced the release of semiconductor chips for 5G NR modems. The company has launched the SCRF4502, a 2x2 transceiver specifically designed for the 5G NR standard. These transceivers are optimally designed to deliver high performance in support of evolving network architectures.

Market Segmentation:

By Type

Broadcast Radio

Cellular Radio

Other

By Application

Healthcare

Automotive

Consumer Electronics

Defence

Industries

Others

Regional Analysis: –

Major regions covered in the report include North America, Asia Pacific, Europe, East and Africa, and South America. In addition, the report provides country level analysis for 25+ major countries including US, Germany, UK, Japan, China, India, UAE, South Korea, South Africa, and Brazil. Regional analysis provides regional as well as country level information about the market highlighting the dynamics of the market by various segments covered in the report.

The Asia-Pacific region is expected to grow a lot in the global wireless RAN market, from 2022 to 2030. In 2020, it will have a 36.5% share. The wireless RAN market in the region is growing because of how much money is being spent on research and development and how the consumer electronics market is growing. Also, factors like the growing number of smartphone users and the increase in digitization have helped the market for wireless RAN grow quickly. The growth of the wireless RAN market has also been affected by how much money mobile companies in China have spent on developing infrastructure for 5G base stations.

Key Highlights of the Report:

Market Study: It includes key market segments, key manufacturers covered, the scope of products offered in the years considered, global Wireless RAN Market and study objectives. Additionally, it touches the segmentation study provided in the report on the basis of the type of product and applications.

Market Executive summary: This section highlights the key studies, market growth rate, competitive landscape, market drivers, trends, and issues in addition to the macroscopic indicators.

Market Production by Region: The report delivers data related to import and export, revenue, production, and key players of all regional markets studied are covered in this section.

 Market Profile of Top leading competitors: Analysis of each Wireless RAN market player profiled is detailed in this section. This segment also provides SWOT analysis, products, production, value, capacity, and other vital factors of the individual player.

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Table of Contents:

1 Market Overview 2 Market Competition by Manufacturers 3 Production and Capacity by Region 4 Global Wireless RAN Market Consumption by Region 5 Production, Revenue, Recent development 6 Consumption Analysis by Application 7 Key Companies Profiled 8 Wireless RAN Market Manufacturing Cost Analysis 9 Marketing Channel, Distributors and Customers 10 Market Dynamics 11 Production and Supply Forecast 12 Consumption and Demand Forecast 13 Forecast by Type and by Application (2023-2030) 14 Research Finding and Conclusion

About Us: Contrive Datum Insights (CDI) is a global delivery partner of market intelligence and consulting services to officials at various sectors such as investment, information technology, telecommunication, consumer technology, and manufacturing markets. CDI assists investment communities, business executives, and IT professionals to undertake statistics-based accurate decisions on technology purchases and advance strong growth tactics to sustain market competitiveness. Comprising of a team size of more than 100 analysts and cumulative market experience of more than 200 years, Contrive Datum Insights guarantees the delivery of industry knowledge combined with global and country-level expertise.

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Satellite Communication Market Manufacturers Global Industry Analysis, Size, Share, Growth, Trends, And Forecast, 2021-2031

Satellite Communication (SATCOM) Market Research Report: Information by Product (SATCOM Transponder, SATCOM Transceiver, SATCOM Antenna, SATCOM Modem, and SATCOM Receiver), Technology (SATCOM VSAT, SATCOM Telemetry, SATCOM Automatic Identification System (AIS), SATCOM-On-the-Move by MRFR

Market Forecast

The satellite communication (SATCOM) market is projected to register a CAGR of 8.44% between 2021 and 2027. SATCOM is used for the transmission of information from one place to another with the aid of a satellite that orbits around the Earth. SATCOM is employed for a wide range of mobile applications, including communication to aircraft, ships, vehicles, and hand-held terminals, as well as for TV and radio broadcasting.

The increasing deployment of small satellites, growing demand for high-speed Internet, and rising adoption of maritime VSAT are primarily driving the market's growth. Additionally, increasing demand for small form factor SATCOM solutions and frequent launches of military satellitesare driving the global market's growth.

Globally, military spending has increased significantly in recent years. Factors such as ongoing conflicts in the Middle East & Africa, long-standing tensions, territorial disputes between countries in Asia-Pacific, and a focus on counterterrorism activities are prompting governments to strengthen their defense capabilities. Moreover, the nature of warfare has changed significantly over the past decade. It is transforming from being weapon-centric to technology-centric. Thus, a rise in military spending directly boosts the demand for advanced defense systems, covering everything from aircraft and weapons to satellites.

Currently, military forces and defense organizations around the world are using satellites. Satellites can carry payloads, offering voice or data communication and optical imagery. These features offer several benefits in communication, intelligence, surveillance, and reconnaissance. Moreover, the launch of these satellites is increasing over the last few years. In 2019, the US Air Force launched its 10th military communication satellite. Furthermore, the US Space Force is working with the UK on military space projects and looking into further areas of cooperation, including small satellites, space deterrence and reduction of on-orbit space debris, satellite communications, and launch. Therefore, the increasing defense expenditure & frequent launches of satellites for military application is expected to drive the growth of the global satellite communication market during the forecast period.

Market USP

Increasing need for advanced satellite communication for rapidly advancing communications industry

Key Players Operating in the Global Satellite Communication (SATCOM) Market:

Inmarsat plc (UK)

Honeywell International Inc. (US)

L3Harris Technologies, Inc. (US)

Indra Sistemas, S.A. (Spain)

General Dynamics Mission Systems, Inc. (US)

Cobham Plc (UK)

Viasat Inc. (US)

Iridium Satellite Communications Inc. (US)

Qualcomm Technologies, Inc. (US)

Gilat Satellite Networks (Israel)

Segmental Analysis

By Product

The SATCOM transponder segment is expected to grow at the highest rate: The SATCOM transponder segment is expected to registerthe highest CAGR during the forecast period, 2021 to 2027. Additionally, the segment dominated the market in 2020. The growth can be attributed to the several advantages that the SATCOM transponders have to offer, such as flexibility, complete control over a specific system, and the capability for sustaining new and developed applications.

The SATCOM transceiver segment accounted for a significant market share in 2020: The SATCOM transceiver segment held a considerable market share in 2020. This can be ascribed to the technological advancements in the SATCOM transceiver and their abundant use in wireless communications.

The SATCOM antenna segment generated considerable revenues in 2020: The SATCOM antenna segment accounted for significant revenues in 2020. The growth can be attributed to the growing number of new players engaged in SATCOM antenna manufacturing and their extensive use in military and commercial applications.

The SATCOM modem segment is expected to grow at a significant rate: The SATCOM modem segment is likely to register a notable CAGR during the forecast period, 2021 to 2027. New product launches in the segment are one of the primary reasons for the expected growth during the review period.

The SATCOM receiver segment is likely to account for a significant market share: The SATCOM receiver segment is likely to account for a substantial market share in the coming years during the conjectured period. The rising adoption of unmanned aerial vehicles (UAVs) and unmanned vehicles is expected to drive the growth of this segment. Additionally, technological advancements aimed towards the enhancement of the efficiency of SATCOM receivers are likely to propel the growth of the segment in the global market.

By End Use

The commercial segment is expected to witness the higher growth rate: The commercial segment is forecasted to witness significant growth, registering the higher CAGR during the forecast period. Telecommunications, data communication, and TV programming through cable or Direct-To-Home (DTH) programming are some of the most popular applications of SATCOM commercially. Furthermore, satellite imagery is also in demand commercially to provide consumers up-to-date, high-resolution imagery, some common applications being Google Maps, Google Earth, and others.

SATCOM also plays a crucial role in the development of 5G technology. Satellite communications are critical to expanding 5G cellular networks to remote and hard-to-reach places, including planes, trains, boats, and other vehicles, especially in areas of the world that cellular providers have traditionally been unable to reach.

The government & defense segment accounted for a significant market share in 2020: The government & defense segment held a considerable market share in 2020. There are several applications of SATCOM in government and military initiatives. SATCOM services are used in case of national disasters and emergencies when land-based communication serves do not function properly. With the help of mobile satellite products, communication can be reestablished in emergency areas. Furthermore, several government initiatives utilize SATCOM services.Moreover, SATCOM plays a crucial role in the defense sector. Clear, reliable, and secure between the troops on the field and in command centers is vital and can be achieved only through the utilization of SATCOM equipment.

Full Report @ https://www.marketresearchfuture.com/reports/satellite-communication-market-8466

Radio Modem Market Size, Share, Growth Opportunity and Trends by Growing CAGR till 2026

The global Radio Modem Market report offers a comprehensive assessment of the market for the forecast years. The report contains several segments and an analysis of the market trends and growth factors that are playing a vital role in the market. These factors encompass the drivers, restraints, and opportunities. This globe industry offers an outlook on the strategic development of the market in terms of revenue profits over the forecast period 2021-2026.

The key market players for the global Radio Modem market are listed below:

Digi

Westermo

RACOM

Campbell Scientific

Advantech B+B SmartWorx

SATEL

ATIM

Raveon Technologies

RF DataTech

Warwick Wireless

Radiometrix

ADEUNIS RF

Others

Click here to get a FREE Sample Copy of the Radio Modem Market Research Report @ https://www.decisiondatabases.com/contact/download-sample-20679

The Global Radio Modem Market Report is equipped with market data from 2016 to 2026. The report gives a market overview covering key drivers and risk factors. The report is bifurcated by top global manufactures mentioning sales, revenue, and prices as applicable. It also evaluates the competitive scenario of the leading players. The report expands to cover regional market data along with type and application. The report forecasts sales and revenue from 2021 to 2026. The detailed sales channel is also covered in the study.

COVID-19 Impact Analysis on Radio Modem Market

The global pandemic COVID-19 has affected the Radio Modem market directly or indirectly. This study covers a separate section giving an explicitly clear understanding of the aftereffects of this pandemic. The detailed study highlights the probable outcomes of this global crisis on the Radio Modem industry. The impact study on production, supply-demand, and sales provides a holistic approach to the future.

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Why Purchase this Report?

A robust research methodology has been followed to collect data for the report. Data, thus collected passes through multiple quality checks to ensure the best quality is served.

The report gives a holistic view of the competitive scenario of the Radio Modem market

The latest product launches along with technological changes and development are covered in the report.

The data analysis in the report helps in understanding the anticipated Radio Modem market dynamics from 2021 to 2026.

DecisionDatabases has a vast repository of data, therefore, we can accommodate customized requirements also.

The graphs, tables and pie charts, and info-graphics covered in the report will help in a better understanding of the report.

The market drivers, restraints, upcoming opportunities, and anticipated restraints cited in the report will assist in making an informed decision.

To better understand the market scenario, the Radio Modem market is segmented as below:

By Types:

License-Free frequency

UHF

Wi-Fi

VHF

By Applications:

Government & Defense

Transportation

Electronic and Electricity

Mining & Oil

Others

By Regions:

North America (U.S., Canada, Mexico)

Europe (U.K., France, Germany, Spain, Italy, Central & Eastern Europe, CIS)

Asia Pacific (China, Japan, South Korea, ASEAN, India, Rest of Asia Pacific)

Latin America (Brazil, Rest of L.A.)

The Middle East and Africa (Turkey, GCC, Rest of Middle East)

The content of the study subjects includes a total of 14 chapters:

Chapter 1: To describe Radio Modem product scope, market overview, market opportunities, market driving force, and market risks. Chapter 2: To profile the top manufacturers of Radio Modem, with price, sales, revenue, and global market share of Radio Modem in 2018 and 2019. Chapter 3: The Radio Modem competitive situation, sales, revenue, and global market share of top manufacturers are analyzed emphatically by landscape contrast. Chapter 4: The Radio Modem breakdown data are shown at the regional level, to show the sales, revenue, and growth by region, from 2015 to 2020. Chapter 5 and 6: To segment the sales by type and application, with sales market share and growth rate by type, application, from 2015 to 2020. Chapter 7, 8, 9, 10 & 11: To break the sales data at the country level, with sales, revenue, and market share for key countries in the world, from 2016 to 2021 and Radio Modem market forecast, by regions, type, and application, with sales and revenue, from 2021 to 2026. Chapter 12, 13 & 14: To describe Radio Modem sales channel, distributors, customers, research findings and conclusion, appendix, and data source.

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Global Radio Modem market analysis major competitor and strategies regional outlook 2020 to 2027

The Global Radio Modem Market Report provides an in-depth analysis of the market by assessing the growth trends, products, applications, end-user segment, historical data, and information obtained through interviews of industry experts. This market intelligence report includes a comprehensive evaluation of the market, discussing the value, volume, size, share, growth rate, key trends, demand & supply ratio, gross revenue, competitive landscape, regional analysis, manufacturers, product types, and end-user applications to give a 360° overview of the global Radio Modem Market. The study provides key information pertaining to the different elements that are propelling or restraining the growth of the sector. It draws accurate forecasts to estimate the prospective growth of the overall business. 

This document gives the latest information on the ongoing COVID-19 pandemic and its aftermath. The coronavirus pandemic has massively affected every aspect of the global industry and has resulted in various changes in the market scenario. The ever-evolving business landscape and the initial and future assessment of the impact are also examined in the report. The report discusses the significant aspects of the market and includes expert opinions on the current status, along with historical data.

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Global Radio Modem Market: Competitive Landscape

Global Radio Modem Market: Leading Participants

Adeunis RF

Arada Systems, Inc.

ATIM Radiocommunications

Autotalks Ltd

B&B Electronics Manufacturing Co.

Campbell Scientific Inc.

Cohda Wireless

Kapsch TrafficCom AG

Motorola Solutions, Inc.

Start-up traction

In 2017, Intel Corporation introduced the Commercial 5G New Radio Modems. This new radio modem supported 2G, 3G, and 4G.

In 2014, Intuicom Inc. launched in the market new wireless data solutions named Intuicom RTK Bridge-X.  This solution holds a built-in Wi-Fi hotspot functionality that connects it to the Wi-Fi devices like laptops, tablets, and smartphones.

Deals Analysis

In 2015, Lear acquired Arada Systems.

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Segmentation Analysis

Global Radio Modem Market: Segmentation

By Type (Revenue, USD Million; Volume in Tons, 2017–2027)

License Free

UHF

Wi-Fi

VHF

By Application Type (Revenue, USD Million; Volume in Tons, 2017–2027)

Point to Point

Point to Multipoint

Regions covered in the Report:

North America (the US, Mexico, and Canada)

Asia Pacific (China, Japan, India, and Rest of Asia Pacific)

Europe (Germany, the UK, France, and Rest of Europe)

Latin America (Brazil and Rest of Latin America)

Middle East & Africa (GCC Countries and Rest of Middle East & Africa)

The report includes an extensive study of Radio Modem Market manufacturers, strategic initiatives adopted by major companies, growth prospects, market position, and shares held by key participants to provide readers a comprehensive overview of the competitive landscape. The report also studies strategic initiatives undertaken by major companies in the market, including product launches, product innovation, and technological development, to strengthen their position in the market. It also studies notable business events, including collaborations, mergers and acquisitions, joint ventures, partnerships, and brand promotions.  

Browse the full report @https://www.reportsanddata.com/report-detail/radio-modem-market

Key questions answered:

Which of these regions – North America, Europe, Asia Pacific, Latin America, and Middle East &  Africa, dominates market share?

What is the outcome of the COVID-19 Impact Analysis performed in the report?

What are the revenue estimations for every region in the Radio Modem Market?

What is the current market valuation of each region and the estimated market size by the end of the forecast period?

What is the projected growth rate of the global Radio Modem Market?

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GPS TRACKER MARKET ANALYSIS (2018-2026)

GPS tracking devices are used for tracking the movements any person or vehicles, which help in determining the exact location of the assets. This information is stored in the tracking unit, which are further transmitted to a central location database by using a cellular devices, radio, or satellite modem embedded in the unit.

Increasing adoption of Internet of Things (IoT) and Cloud Technology is one of the major factors driving growth of the market

One of the major factors attributed to growth of the market is advancement in Internet of Things (IoT) and cloud technology due to increasing penetration of internet users across the world. For instance, according to the Internet World Stats, in June 2017, total Internet users were reported to be 3.88 billion among global population of 7.52 billion. Moreover, according to the Coherent Market Insights’ analysis, the number of Internet of things (IoT) connected devices was US$ 17.72 billion in 2016, and it has increased to US$ 20.38 billion, worldwide. Integration of IoT and cloud technology provides facility to install the GPS tracking device in any location such as office, home, and many more, which further  increases security of physical assets placed in the residential and business. This device allows users to monitor individual, animals, vehicles, or any object in real time, which in turn makes communication rapid and faster between devices and users along with high accuracy, precision, and reliability. Moreover, GPS tracking also helps the organizations to run smoothly and timely which in turn, organizations to keeps customers satisfied with accurate time frames and scheduling. Hence, this factor is expected to propel growth of the GPS tracker market during the forecast period (2018-2026) However, sometimes GPS tracker fails to perform in bad weather conditions such as heavy rainfall, snowfall, and others, which is expected to restrain growth of the GPS tracker market over the forecast period (2018 - 2026).

Global GPS Tracker Market: Segment Trends

Among deployment type, commercial vehicles segment accounted for the largest market share in 2017, and expected to hold the largest market share in the global GPS tracker market during the forecast period (2018 to 2026). The factor attributed to growth of the market is increasing sales of commercial vehicles worldwide. For instance, according to The Organisation Internationale des Constructeurs d'Automobiles (OICA), in 2015 the sales of commercial vehicles was 23.3 million and it has grown up to 24.3 million in 2016. Hence, this factor will further increase the installation of GPS tracker in the commercial vehicles as this GPS tracker help in reducing the fuel consumption by tracking the miles of the vehicles and it also identify the shortest path of the route which further help in eliminating unnecessary fuel expenses.

Global GPS Tracker Market: Regional Insights

The GPS tracker market in Asia Pacific region is expected to exhibit the highest CAGR during the forecast period of 2018 to 2026. The factor attributed to market growth is increasing stringent government regulations along with increase in production of vehicles in emerging economies such as India and China. For instance, according to the International Organization of Motor Vehicle Manufacturers (OICA), the production of commercial vehicles in India in 2016 was 4.51 million and it has grown to 4.78 million in 2017. According to a press release of Autocar pro, a leading semiconductor manufacturing company, in January 2018, the Ministry of Road Transport and Highways (MoRTH) had mandated the installation of GPS tracking devices and panic button to all the passengers transport vehicles, which further helps in improving safety of individuals who utilise passenger transport vehicles. Therefore, stringent government norms will inadvertently increase the installation of GPS tracker in the vehicles, which in turn is driving growth of the market in this particular region.

Global GPS Tracker Market: Competitive Landscape

Major player operating in the global tracker GPS market include Orbcomm Inc., Laird PLC., Teltonika UAB, Geotab Inc., Sierra Wireless, Inc., Queclink Wireless Solutions Co., Ltd, Tomtom International Bv, Rilapp Technology Inc., Calamp Corporation, and Shenzhen Concox Information Technology Co.

The key players of the market are adopting new product development strategy in order to gain competitive edge in the market. For instance, in November 2016, the Rilapp Technologies launched the R-locator GPS tracking devices. The facilities included in system are real time tracking, ignition detection, engine cut-off, distance calculation, speed monitoring, movement monitoring, in build battery backup for electricity failure, in build memory for historical data upload under different circumstances, and others.

Global GPS Tracker Market: Taxonomy

By Product Type

Standalone Tracker

Convert GPS Trackers

Advance Tracker

By Components

GPS Loggers

Personal GPS Tracker

Real Time GPS Tracker

By Deployment Type

Commercial Vehicle

Cargo & Container

By Tracking Devices

Satellite

Cellular

By Verticals

Transportation & Logistics

Construction

Oil & Gas

Metals & Mining

Government

Others (Education, Retail, Hospitality, Agriculture, and Health care)

By Region

North America

Europe

Asia Pacific

Latin America

Middle East

Africa

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Private LTE & 5G Network Market Development, Market Trends, Key Driven Factors, Segmentation and Forecast To 2020-2027

Private LTE & 5G Network Market: Introduction

Transparency Market Research delivers key insights on the global private LTE & 5G network market. In terms of revenue, the global private LTE & 5G network market is estimated to expand at a CAGR of ~49% during the forecast period, owing to numerous factors, regarding which TMR offers thorough insights and forecasts in its report on the global private LTE & 5G network market.

Huge industrial demand for high speed data connectivity, lower latency across developed as well as developing countries across the globe, increased proliferation of Internet of Things (IoT) connected devices, and rapid technological advancements in the field of sensors and semiconductors are expected to fuel the growth of the private LTE & 5G network market.

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Private LTE & 5G Network Market: Dynamics

The introduction of 5G technologies is expected to boost the private LTE & 5G network market during the forecast period. According to GSMA, 5G connections are likely to reach 1.8 billion by 2025. Following are the companies building the value chain of 5G networking and can help in pioneering the private LTE & 5G network market: OEMs for edge computing and data centers such as Huawei Technologies, Dell EMC, Cisco Systems, Hewlett Packard Enterprise, IBM, Lenovo, and Pure Storage. Suppliers of edge compute components and datacenters - Broadcom, NVIDIA, Qualcomm, Advanced Micro Devices, Intel, Samsung Electronics, and Xilinx. Providers of network transformation include Nokia, Ericsson, Huawei Technologies, Intel, National Instruments, Samsung Electronics, and ZTE Corporation. Suppliers of IP and modems include Ericsson, Nokia, Intel, Huawei, Qualcomm, and Samsung Electronics.

Governments across major countries such as the U.S., Japan, Germany, China, and India are active in introducing 5G spectrum to ensure efficient networking solutions and are thus, expected to boost the private LTE & 5G network market during the forecast period. Furthermore, with progress in adoption of IoT, a large number of devices would be connected, pushing for higher bandwidths networks- a strong proposition for private LTE & 5G network. Thus, a private LTE & 5G network is an important pillar for the Internet of Things (IoT) technology, simultaneously addressing security related concerns.

Enterprises across the U.S., China, and Japan are already working toward developing a dedicated network and are collaborating with various telecom providers to deploy private LTE & 5G network infrastructure. Hence, increase in government investments for deployment of 5G is expected to propel the private LTE & 5G network market during the forecast period.

Private LTE & 5G Network Market: Prominent Regions

North America is anticipated to dominate the private LTE & 5G network market during the forecast period. In North America, the U.S. market is expected to expand at the highest CAGR, owing to Citizens Broadband Radio Systems (CBRS). Private LTE is an attractive option for new business and industry verticals. Enterprises and industry verticals are adopting private LTE as it can provide reliable connectivity and seamless mobility for general wireless communication and industrial IoT applications. According to GSMA Intelligence, the penetration of 5G connections in North America is expected to reach 48% of the total connections by the end of 2025. The private LTE & 5G network market in Asia Pacific is likely to expand at a high CAGR during the forecast period. The market in Middle East & Africa and South America is also projected to expand moderately over the forecast period.

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Private LTE & 5G Network Market: Key Players

Key players operating in the global private LTE & 5G network market are ADVA Optical Networking SE, AMBRA Spectrums, AT&T, Inc., Blue Wireless Pte. Ltd., Deutsche Telekom AG, ETELM, Ericsson AB, Fujitsu Ltd., Future Technologies LLC, HCL Technologies Limited, Huawei Technologies Co., Ltd., Intel Corporation, ip.access, Mavenir Systems, MECSware GmbH, NEC Corporation, NetNumber Inc., Nokia Networks, Qualcomm Technologies, Inc., Quortus Limited, Redline Communications, Ruckus Networks, Samsung Group, Sercomm Corporation, SpiderCloud Wireless, Squire Technologies, Tecore, Inc., ThinkSmallCell Ltd., Verizon Communications Inc., Vertel, and ZTE Corporation.

Global Private LTE & 5G Network Market: Segmentation

Private LTE & 5G Network Market, by Type

Infrastructure

Device

Infrastructure

Device

Private LTE & 5G Network Market, by Application

Real-time Surveillance

Operations Visibility & Optimization

Authentication & Access Control

Worker Safety Monitoring

Remote Diagnostics & Predictive Maintenance

Asset Management

Private LTE & 5G Network Market, by Vertical

Discrete Manufacturing

Process Industries

Power Generation

Power Transmission & Distribution

Water Utilities

Transport Venues

Military Bases

Maritime Ports

Mining

Oil & Gas

Private LTE & 5G Network Market, by Region

U.S.

Canada

Rest of North America

Germany

U.K.

France

Spain

Italy

Netherlands

Finland

Austria

Switzerland

Estonia

Sweden

Norway

Russia

Belgium

Rest of Europe

China

India

Japan

Australia

Indonesia

South Korea

Singapore

Rest of Asia Pacific

GCC Countries

South Africa

Rest of Middle East & Africa

Brazil

Rest of South America

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Global Millimeter Wave Technology Market :Industry Analysis and Forecast (2019-2027) –By Product, Frequency Band, License Type, Application, and Region.

Global millimeter wave technology market size was US$ XX Bn in 2019 and is expected to reach US$ XX Bn by 2027, at a CAGR of 26.4% during the forecast period.

The report study has analyzed the revenue impact of COVID -19 pandemic on the sales revenue of market leaders, market followers, and market disrupters in the report, and the same is reflected in our analysis.

Market Definition

Millimeter-wave technology represents the radio frequency signals in the electromagnetic spectrum with frequency ranging from 30 GHz to 300GHz and with a wavelength ranging from 1mm to 10mm. It is also known as extremely high frequency and sometimes abbreviated as mmWave and MMW.

Market Dynamics

Rapidly growing adoption of millimeter wave technology by consumers ranging from single users with smartphones to enterprise-level data centers which require higher bandwidth rates is a major driving factor behind the growth of the market. Increasing demand of innovative or latest technologies to provide higher data transmission rates, rising demand of millimeter wave technology from military for applications in airport security scanner, fire-control radar, weapon systems, and many others, a surge in the adoption of mmWave technology for other applications like scientific research, telecommunication equipment, security screening applications and in medicine for the treatment of diseases and increasing technological advancements in the 5G wireless communication network with mmWave technology are expected to improve the growth of the market during the forecast period. Millimeter-wave technology provides some benefits such as higher bandwidth, higher resolution, small component sizes, cost efficiency, low interference, and improved security, which are ultimately propelling the growth of the market. However, a limited wavelength range of mmWave technology is a major restraining factor that could hamper the growth of the market. Also, high costs associated with the manufacturing of hardware components with small sizes could restrict the growth of the market.

Global Millimeter Wave Technology Market: Segmentation Analysis

By product, the telecommunication equipment segment dominated the market in 2019 and is expected to maintain its dominance at CAGR of 11.23% during the forecast period. The segment is majorly driven by the growing market for the telecommunication industry across the globe and the rising demand for advanced telecommunication equipment. Increasing use of mmWave in applications like point to point and point to multipoint communication, inter-satellite links, autonomous vehicular communications, and in 5G mobile phones are expected to witness fast growth during the forecast period.

Nowadays, many Smartphone users are making a demand for more reliable services and high-speed data transfer rates, which is ultimately grabbing the attention of various leading manufacturers to produce next-generation telecom equipment which can handle mmWave technology to operate in high frequencies. For instance, in Oct 2016, Qualcomm announced the commercial availability of its first integrated 5G modem named as Snapdragon X50 5G modem, with the download speeds of 5 Gbit/s. Furthermore, increasing import-export activities of telecom equipment from countries like the US, China, Canada, India, Japan. and many others are propelling the growth of the market.

Increasing initiatives by the Indian Governments to bar or to boycott Chinese companies like Huawei and ZTE from providing telecommunication equipment could impact on telecom equipment market. Also, Indian telecom department is planning to cancel 5G and 4G telecom equipment tender by MTNL Ltd and BSNL Ltd by keeping out Chinese vendors and also planning to bar companies like Huawei and ZTE from 5G network deployment.

Global Millimeter Wave Technology Market: Regional Analysis

Region-wise, North America dominated the market in 2019 and is expected to maintain its dominance at CAGR of XX% during the forecast period. The US and Canada are major contributors behind the growth of the market in the region. The growth is attributed to the growing advancements in mmWave technology along with the high adoption of mmWave technology based mobile devices and telecom equipment. The massive presence of mmWave products manufacturing companies across the region is further driving the growth of the market.

Increasing exports of mmWave based telecom equipment from the US and Canada to the European Union and other countries like India and Japan is propelling the growth of the market in the region. Furthermore, growing adoption of mmWave in applications like military and defence, automotive radars, human body scanners, satellite communication, and wireless data communications is improving the growth of the market.

Global Millimeter Wave Technology Market: Key Development

In July 2019, Qualcomm Technologies, Inc announced an expansion of its 5G NR testing facilities in Europe to include a new lab dedicated to end-to-end over-the-air (OTA) configurations for 5G NR millimeter wave. In Aug 2019, Fujitsu Limited and Qualcomm Technologies, Inc have achieved non-standalone (NSA) 5G New Radio (NR) data calls on sub-6 GHz and mmWave spectrum bands.

In Sept 2019, Qualcomm Technologies, Inc introduced the Qualcomm QTM527 mmWave antenna module for the Snapdragon X55 5G Modem-RF System.

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The objective of the report is to present a comprehensive analysis of the Global Millimeter Wave Technology Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that includes market leaders, followers, and new entrants. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors of the market have been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding Global Millimeter Wave Technology Market dynamics, structure by analyzing the market segments and projects the Global Millimeter Wave Technology Market. Clear representation of competitive analysis of key players by Application, price, financial position, Product portfolio, growth strategies, and regional presence in the Global Millimeter Wave Technology Market make the report investor’s guide. The Scope of Global Millimeter Wave Technology Market

Global Millimeter Wave Technology Market, By Product

• Imaging & scanning systems • Radar and satellite communication systems • Telecommunication equipment • Other products Global Millimeter Wave Technology Market, By Frequency Band

• 24–57 GHz • 57–86 GHz • 86–300 GHz Global Millimeter Wave Technology Market, By License Type

• Light licensed frequency millimeter wave • Unlicensed frequency millimeter wave • Fully licensed frequency millimeter wave Global Millimeter Wave Technology Market, By Application

• Mobile & telecom • Consumer & commercial • Healthcare • Industrial • Automotive & transportation • Imaging Global Millimeter Wave Technology Market, By Region

• North America • Europe • Asia Pacific • South America • Middle East & Africa Global Millimeter Wave Technology Market, Key Players

• Millivision Technologies • Vubiq Networks, Inc • Smiths Group PLC • Fastback Networks • NEC Corporation • Mistral Solutions Pvt. Ltd • E-Band Communications, LLC • Farran Technology Ltd • L3 Technologies, Inc • Millimeter Wave Products, Inc • BridgeWave Communications, Inc • SAGE Millimeter, Inc • Keysight Technologies, Inc • Texas Instruments • Apple, Inc • Fujitsu Laboratories Ltd • Huawei Technologies Co. Ltd • Ciena • Nokia • ZTE Corporation • Cisco Systems, Inc • Qualcomm

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LoRaWAN Solutions VS. 5g Network

LoRaWAN solutions have the greatest quantity and variety of sensors today. On top of that, it emerged ahead of the 5G ecosystem and is the most reliable end-to-end solution available today. LoRaWAN solutions have deployments in more than 140 countries worldwide. Additionally, IoT experts and analysts are predicting that LoRaWAN solutions will constitute more than 80% of the LPWAN market in the next decade. In this article, we will try to explore whether LoRaWAN will show a dominant trend or will it co-exist with the 5G.

Development of LoRaWAN Solutions

LoRaWAN is very effective for long-range, wireless, and low-power radio networking. It operates in unlicensed frequency bands. Therefore, we can deploy it without any difficulty. Hence, it is easier and more convenient for devices with small footprints to communicate with other frameworks and devices on large scales.

LoRaWAN solutions are fairly simple to understand. The communication of star networks is analogous to the conversation in a classroom. The gateway is capable of communicating with the nodes and nodes are free to do the same.

Let’s suppose that your LoRaWAN solution has one node and four gateways. In such a case, the nodes will randomly transmit into the radio spectrum. The gate which can hear the transmission will catch it and forward it to the cloud. It is quite a possibility that all of the gateways will listen in on the message and forward it to the cloud. This eliminates the risk for loss of data due to weak communication links or interference of any sort.

Once your message reaches the cloud, the system will generate an acknowledgment receipt. However, this process is not automatic. In order for this to work, the nodes in LoRaWAN solutions will have to request acknowledgment receipts. If a node requests for an acknowledgment then the cloud chooses one gateway for responding after a fixed interval. This adds another layer of quality assurance. Almost all LPWAN systems have multiple receiving channels and LoRaWAN is no exception. LoRaWAN solutions are capable of receiving up to 8 messages at the same time across different frequency channels.

Challenges in Development of 5G

Like any emerging technology, 5G also faces some challenges during its development. We will take a look at some of these challenges in this section.

Manufacturing Costs and Retail Prices

It is expensive to build a 5G network as it requires sophisticated resources. 5G plans will incur high initial costs as it is not as simple as building another layer on top of an existing network. This is because 5G is a completely different technology altogether. According to market analysts, the total spending on 5G will reach $88 billion before a viable solution comes to market. Therefore, its high manufacturing costs are a big hurdle.

Restricted Frequency bands

Current LTEs operate on frequency bands below 6GHz. However, 5G requires frequency bands of up to 3000 GHz. Although, these bands have a greater capacity and promise faster speeds but their licensing is a big challenge. Licensing of these bands will most likely involve bidding before rolling out of respective 5G solutions. In the US alone, bidding of the 28 GHz band reached $690 million by the end of 2018.

Lack of Device Support

Many talks are going on for the manufacturing of smartphones and other devices that support 5g. However, their availability is tied to how quickly 5G becomes viable and how much is their manufacturing cost. Therefore, it is certain that we won’t see many devices with 5G support for some years to come.

Coverage and Deployment

5G offers a significant increase in bandwidth and speed. However, it has a limited range. Therefore, it will require further infrastructure before widespread deployments. Higher frequencies mean that the radio waves are highly directional as well. Therefore, it is easier to target them. This practice is called beamforming and has a threat for exploitation.

Another challenge is that the 5G antennas are able to handle more data but they have short-range coverage. The base stations and antennas are getting smaller but we have to install them on homes or buildings. Smart cities will have to install extra repeaters to allow spreading out of the waves over longer ranges.  Hence, it will maintain consistent transmission speeds in densely populated areas. So, it is quite clear that the 5G network will take some time for maturing.

We intend to replace the Wi-Fi routers and modems in the future with 5G small cells. Therefore, we can bring 5G connections to our homes and small businesses. Hence, we will replace the conventional wired internet connections. So, it is a great challenge to spread the access of 5G to rural areas.

Privacy and Security

Ensuring security and privacy is a great challenge with any data-driven technology. However, 5G will have to ensure measures against sophisticated as well as standard cyber threats. Authentication and Key Agreement (AKA) is a system for establishing trust between networks and 5G falls under it. This will allow for tracking people nearby through the location of their smart devices. It will even allow them to eavesdrop on your ongoing phone calls.

Hence, it is the responsibility of 5G developers to ensure the digital safety of their customers and protect their privacy. The connectivity will surely increase as the data speeds get faster than current levels. Therefore, data virtualization services and cloud servers must ensure airtight security and protect the privacy and personal data of their users. However, their users must ensure that they are more vigilant and careful in sharing their sensitive data.

Pros of LoRaWAN Solutions over the 5G

Here are some of the pros of LoRaWAN over the 5G,

Cost-effective and Economical

LoRaWAN deployments are very economical and cost-effective. This is because they consume very little power and have a long battery span. On top of that, they are very small in size. Hence, installment and maintenance costs tend to reduce significantly.

Unlicensed Frequency Bands

LoRaWAN operates on unlicensed frequency bands. Therefore, it is easier and more convenient to deploy because no licensing fees are involved. Additionally, it allows for better inter-platform support and improved accessibility.

Widespread Support

LoRaWAN provides widespread support across sensors and devices of various types. It requires simple nodes to operate hence there is no need for any sophisticated frameworks. Therefore, we can use it for mass deployments and vast IoT implementations.

Long-Range Coverage

LoRaWAN supports long-range communications on its own. However, we can further increase its effective range by integrating a cloud service. This allows LoRaWAN to effectively communicate over the long-range as well as the short-range. The nodes in LoRaWAN networks communicate by first transmitting to the nearest gateways and then that gateway further transfers the data to the cloud server. The LoRaWAN gateways are efficient at picking up data packets so the chances of interference or noise are very low. On top of that, we can add additional layers of security in the form of acknowledgment receipts. These receipts allow us to ensure that the data packets are smoothly transmitting.

Privacy

LoRaWAN allows us to make hybrid public-private networks. This allows us to control user access to classified data and information. We can devise filters and implement screening mechanisms to avoid malicious attempts. Therefore, LoRaWAN allows us to have broad control over the degree of privacy we want our network to have.

Current and Future Trends of LoRaWAN and 5G

The depth and complexity of the 5G use cases mean that the sophistication of 5G is “too much” for certain networks. This will lead to a need for a “right-size technology” for supporting the existing applications in the market. IoT experts argue that 5G LTE provides better performance but it does so at the expense of certain key parameters. And these key parameters are well covered by the LoRaWAN solutions. Experts predict that LoRaWAN will exploit this limitation of 5G and try to capitalize on it. Analysts foresee that 5G might narrow the technology gap to a certain extent. However, there is always room for highly targeted and specialized solutions like LoRaWAN.

How LoRaWAN Solutions May Prevail?

Industry experts go as far as to claim that LoRaWAN will remain a De facto unlicensed standard even in the 5G era. They suggest that LoRaWAN is more convenient for mass adoption as it offers low battery consumption and enables hybrid public-private networks. The developments in 5G up till now are focused on critical communications and broadband services. Therefore, we can’t effectively use them for a large IoT deployment. Hence, we can clearly conclude that LoRaWAN will surely play its role in future IoT frameworks due to its optimal properties and promising traits.

If you are thinking about implementing LoRaWAN for your IoT implementation then you are in the right place. MOKO Smart can help by providing you the necessary LoRaWAN modules which you can deploy as per your requirements. Feel free to reach out to us if you want to know more about our products and services. We are hoping to hear from you soon.

Software Defined Radio Market Competitive Analysis With Growth Forecast Till 2024

The Global Software Defined Radio Market is estimated to reach USD 21.5 Billion by 2024 at a CAGR of 8.5%, says forencis research (FSR). Software Defined Radio (SDR) also known as software radio is a system used for transmitting information wirelessly by means of electromagnetic radiations. Based on software-defined radio wireless communication protocol, it uses software on embedded or computer systems instead of using hardware components. One of the major advantages of SDR is that it can be easily reprogrammed and reconfigured through software which helps to configure radio according to the requirement of end-users. Software defined radio is cost-effective technology with various advantages such as the reduction in development cost, time and cost of maintenance & operations, along with automatic software up-gradation amongst others. 

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Software Defined Radio Market: Drivers & Restraints

Market Drivers:

Lower Production Cost and High Performance

In recent years’ software defined radio has been advanced significantly owing to the need for advancement form various end-use industries. Advancement in hardware states that cost has been reduced while rising the performance level, which provides better access to the system to the end-users. Moreover, as the system is been manufactured on the basis of software, the development cost is being reduced. In addition to this, bug fixing in the system is done when the radio is in service, which in turn helps to reduce the cost of operation and maintenance. Furthermore, the software up-gradation is automatically done and new features are ben added. Thus, lower production cost with higher performance has surged the growth of product market.

Increasing Military Spending on Communication

Military communication is dependent on clarity, adaptability, and speed. The discrepancy in any form of military communication will have dire consequences. The military has been using software defined radio technology for enabling reuse of hardware and updating signal waveform as required. Software defined radio not only provide standard two-way communication but also offers wireless nodes, provides low latency point to point wireless links, and engages the different number of the device. Owing to these features, military sectors are investing in the development of software defined radio which may drive the growth of the market.

Market Challenges:

To Ensure Interoperability of Different Communication Technologies

Technological advancement helps to improve the capabilities of software defined radio by ensuring connectivity in various territories which contributes towards situational awareness. The use of different technologies such as satellite communications, cellular, tactical radios, Voice over Internet Protocol (VoIP), time-division multiplexing (TDM), and amongst others has led to compatibility issues. Thus, the use of different types of modems has led to interoperability issues, which is projected to hamper the market growth.

  Software Defined Radio Market: Key Segments

Based on Type: Joint Tactical Radio System (JTRS), Cognitive Radio, Terrestrial Trunked Radio (TETRA), and General Purpose Radio

Based on Component: Software, Transmitter, Receiver, and Others

Based on Platform: Airborne, Naval, Space, and Land

On the basis of Application: Military, Space Communication, Telecommunication, Research & Development, Amateur Radio, and Others

Key Regions Covered: North America, South America, Europe, Asia-Pacific, Middle East & Africa and South America, with individual country-level analysis.

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Software Defined Radio: Report Segmentation

For the scope of report, In-depth segmentation is offered by Forencis Research

Software Defined Radio Market, by Type

Joint Tactical Radio System (JTRS)

Cognitive Radio

Terrestrial Trunked Radio (TETRA)

General Purpose Radio

Software Defined Radio Market, by Component

Software

Transmitter

Receiver

Others

Software Defined Radio Market, by Platform 

Land

Airborne

Space

Naval

Software Defined Radio Market, by Application

Military

Space Communication

Telecommunication

Research & Development

Amateur Radio

Others

Software Defined Radio Market, by Region

Asia-Pacific

North America

Europe

Middle East & Africa

South America

China

India

Japan

South Korea

Australia

Rest of Asia-Pacific

US

Canada

Mexico

Germany

UK

France

Italy

Spain

Rest of Europe

Saudi Arabia

UAE

Rest of Middle East & Africa

Brazil

Argentina

Rest of South America

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About Forencis Research

Forencis Research is a B2B market research, intelligence and advisory firm engaging in market research and consulting services across leading industries, globally. Our robust and meticulous research team provides high growth and niche syndicated reports, customized reports and consulting reports to the diverse global fortune clientele and intellectual institutions. Forencis Research database is a constantly evolving pool of reports and white paper studies which helps companies to foster accelerated revenue growth in global and regional markets. Forencis Research delivers market research and consulting reports on high growth markets to help companies dominate their competition and set themselves apart by attaining increased revenue growth. To enable exclusive insights around the target market, Forencis Research employs robust research Methodology & Design which includes data acquisition, data synthesis and data correlation, through Primary and Secondary Research. Through the obtained data, Top-down and bottom-up methods are exercised to attain and verify data sanity within the entire market. This market data is yet again correlated with Forencis Research’s internal database before presenting it in any of our final publications. These methods of data correlation and amalgamation benefit us to put forward accurate market estimates enabling our clients to transform their business, markets and most importantly their “REVENUES”.

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Wireless Data Radio Modem Market Outline, Surge and Forecast by Key Players 2026

Wireless radio Modems are used to transfer the data wirelessly in real time. They does not require any telecommunication or satellite network operator. They are used for fleet management, Telemetry, SCADA applications, Land Survey differential GPS etc. . These are muses in the Private radio networks and are used in critical industrial applications, when real-time data communication is needed. Radio modems enable user to be independent of telecommunication or satellite network operators.The rise in the need of private networks for better management, control, synergy of operations and quick communications for quick and responsive outcome especially in the areas of transportation, construction and vigilance has been instrumental in rising the demand of such systems.

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The restraints has been the limited coverage area which in fact has been this attribute that it has been deployed in such areas. However, increasing its coverage area can result in even wider acceptance in industry and find even further rise in adoption.The wireless Data Radio Modem Market is segmented on the basis of product type: General-Purpose Data Modem, UAV Drone Data Modem; on the basis of application: General-Purpose Data Modem (SCADA and telemetry, Mining and Geo-Exploration, Precision Farming, Transportation, Machine Control (Industrial), Others (Wireless Utilities Management, Remote Weather Monitoring, and Smart Grid)), UAV Drone Data Modem (Mining and Geo-Exploration (Including Land Survey), Precision Farming, Transportation, Others (Construction, Utilities, and Coastal Monitoring)); on the basis of Operating Range: Short Range, Long Range; on the basis of geography: North America, Europe, Asia Pacific (APAC), Rest of the World (RoW).

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The growth of the wireless data radio modem market in APAC is attributed to the increasing adoption of radio modems with the development of the transportation infrastructure, and mining and utilities industries in the region. The major countries in APAC such as India and China have started recognizing ITS as a crucial tool to solve social, economic, and environmental problems caused by traffic congestion, air pollution, and increased greenhouse gas emissions.

The major focus area in recent years is the rise in drone technology and which has such versatile application, wireless data radio modems will be one of the fastest growing application areas. Construction sector is another area where the technology is going to be used for quick execution of the project.The major players in the wireless data radio modem market include SATEL OY (Finland), Motorola Solutions (US), Schneider Electric (France), Digi International (US), Pacific Crest (US), Advantech B+B SmartWorx (US), FreeWave Technologies (US), Cohda Wireless (Australia), Campbell Scientific (US), and Harris Corporation (US).

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5G in 2020: Everything You Need to Know

5G, the next-generation wireless technology that is yet to reach the global markets, moved beyond initial projects and got some traction in 2019. South Korea in April emerged as the first country to deploy 5G on a large scale. Nevertheless, we saw its adoption by telecom operators in the US as well. The trend is yet to grow, though. India is also in the race to deploy 5G at a faster pace than what it had with 4G LTE deployment in the past. But considering the ongoing challenges for telcos and the delay of spectrum allocation by the government, the new technology isn’t likely to reach the masses at least for a couple of years. A question that comes in many minds is how 5G would be different from 4G and in what ways it would improve our lives?

Experts believe that unlike 4G or any previous generation wireless technologies, 5G is aimed to help enhance connectivity, not just through faster data access on mobile devices but also by enabling new experiences that would come from connected devices. The new generation mobile networks based on 5G technology are also speculated to give a push to developments such as self-driving cars and smart city projects.

With 5G, consumers are aimed to receive faster data speeds along with higher bandwidth and lower latency. All this is what that would give a boost to the connectivity of our smartphones as well as make space for new Internet of Things (IoT) devices.

According to a report by Deloitte, 5G will emerge as the key catalyst to fuel the growth of digital economy in India. “While 4G was a clear upgrade in technology from 3G, 5G is more focused on incremental enhancements on existing Long Term Evolution (LTE) technology thereby allowing operators to evolve their LTE networks. As telcos are deploying these enhancements on LTE; new service dimensions are opening up. This incremental approach makes the transition logical and telcos are already on the path to 5G,” the report said.

What is 5G?

Technically, 5G isn’t a quantum leap in the world of wireless networks. It is an upgrade to 4G LTE that we use on our mobile devices on a daily basis. However, what makes 5G different from the previous generation wireless technologies is its ability to enable connectivity amongst a wide variety of devices and services that go beyond smartphones and include smart-home devices, IoT, and smart cities. The new technology is predicted to be capable of supporting up to a million devices per square kilometre. This is unlike 4G that supports up to 100,000 devices per square kilometre.

On the speed front, 5G is aimed to deliver up to roughly 10Gbps on a handheld device. It is significantly higher than 8 to 10Mbps of average download speeds available on a 4G network. But one should keep in mind that speeds vary on the basis of frequency spectrum and the quality of network reaching a particular device.

The frequency spectrum of 5G is divided into three types, namely millimetre wave, mid-band, and low-band. While low-band uses almost the same frequency range that’s available for 4G networks, millimetre wave is the fastest spectrum but is limited in terms of reach and is difficult to deliver coverage in indoors. Therefore, the initial 5G-adopting telcos have opted for the mid-band spectrum that doesn’t deliver as fast results as on millimetre waves but provides a constant connectivity in both indoors and outdoors. It is also cost effective as telcos don’t need additional cells to provide 5G networks, which is required in case of millimetre waves.

Telecom gear manufacturers such as Ericsson and Nokia have provided software upgrades to their existing technologies to help telcos easily switch to 5G. This means that telcos won’t have to upgrade each of their existing towers to deliver next-generation networks.

Initially, telecom operators are set to deploy their 5G networks on the existing 4G infrastructure using non-standalone (NSA) mode. This will, however, be replaced with the standalone (SA) mode that will be used on the 5G core network once the new technology reaches its maturity stage.

When will we get 5G?

Carriers across the globe have started testing 5G on their infrastructure. Similarly, companies including Ericsson, Nokia, Qualcomm, and Samsung are closely working with carriers to build explore new use cases and find relevant business models. This isn’t something different from what we saw at the time of 4G rollout in early 2010s. But what is significantly new in the case of 5G rollout is the number of devices that exist in the current market. It is far more than what we had during the initial phase of 4G. This is the prime reason behind the growing interest towards 5G and also what’s perhaps causing the delay.

We already have a large number of 4G mobile devices that won’t work on 5G networks. This means that to experience the next-generation wireless technology, we will be required to upgrade our smartphones. Similarly, 5G networks require more frequencies that what are needed for 4G LTE. This brings the challenge for telcos to expand their infrastructure and invest more in spectrum.

Particularly in India, the government is also yet to finalise on 5G spectrum allocation. Telcos such as Bharti Airtel and Reliance Jio, however, have conducted initial 5G tests. Telecom equipment makers such as Huawei, Ericsson, Nokia, and Samsung are also testing different use cases. Ericsson even partnered with IIT Delhi earlier this year to establish a 5G Centre of Excellence to develop and test India-focussed use cases.

In 2020, 5G is likely to start becoming a reality in India with its spectrum allocation taking place in the coming months. This will enable telcos and equipment makers to conduct full-fledged trials. Smartphone makers such as OnePlus and Realme have also announced their plans to bring 5G phones to the country next year to set the pitch for new networks.

Having said that, 5G is speculated to take five to six years to reach the masses in India. Telcos are currently facing hardships in generating revenues. At the same time, the large-scale adoption of 5G that would be available through smart cities isn’t likely to go beyond infancy in the near future.

This is in contrast with China, South Korea, and China where 5G has already started reaching end consumers. Operators such as AT&T, China Mobile, SK Telecom, Sprint, and Verizon are deploying 5G networks to offer advanced experiences to their subscribers. Smartphone makers including Huawei, OnePlus, and Samsung are also offering 5G phones in the regions.

Nonetheless, 2020 will be the year when we would see 5G emerging as a household network technology in many markets around the globe. Australia, Argentina, Canada, and Japan are amongst the key countries where the next-generation wireless technology is set to debut in the coming months.

Will we get 5G on our existing phones or do we need to upgrade?

Although 5G isn’t a breakthrough in the wireless networking world, it does require a distinct configuration over what is needed to enable 4G LTE connectivity. This clearly means that if you have a 4G phone today, you won’t get 5G networks. However, if you’ll get a 5G phone, that will certainly support not just 5G but also 4G and 3G.

Qualcomm brought the Snapdragon X50 5G modem earlier this year as its first 5G New Radio (5G NR) modem to support new networks. The modem works with the Snapdragon 855 SoC to offer 5G connectivity. Companies including OnePlus deployed Qualcomm’s technologies to bring initial range of 5G smartphones earlier this year.

Months after the launch of Snapdragon X50 5G modem, Qualcomm unveiled the Snapdragon 765 and Snapdragon 765G as its new system-on-chips (SoCs) that both come with an integrated 5G modem. Samsung also in September brought its Exynos 980 system-on-chip (SoC) to support 5G networks. The Exynos chipset is already available on the Vivo X30 5G phone. Further, Chinese chipmaker MediaTek recently unveiled the Dimensity 1000 5G and Dimensity 800 SoCs as its answer to 5G-supporting Snapdragon offerings.

The recent developments by Qualcomm, Samsung, and MediaTek would help smartphone makers bring new 5G devices to the market. We can also expect some mid-range 5G phones hitting the stores next year that would encourage telcos to kick off 5G networks. Also, Apple is speculated to have plans for 5G iPhone models next year.

That said, if you’re thinking of investing in a 5G phone today, we advise you to wait for some time as the market would get a list of options to choose from in the next few months. So it’s better to stay with a 4G device in the meantime as you won’t get the real 5G experience — no matter whether you’re in a 5G market say the US or South Korea. And if you’re in India, you won’t, in fact, see any difference even on a 5G phone in the next year or so.

India to Take Big 5G Leap in 2020 but Mass Adoption Far Away

Vivo Eyes Artificial Intelligence-Driven 5G Devices for India in 2020

OnePlus Bullish on Launching 5G Phone in India, Exporting 5G Phones From India

Realme 5G Phones to Be Ready Before India Starts Services, India CEO Says

How Intel Is Planning to Support India’s 5G Quest

Indian Masses Will Have to Wait 5-6 Years for a True 5G Experience

How Ericsson’s Centre of Excellence Hopes to Localise 5G Use Cases for India

Global Wireless Data Radio Modem Market Incredible Possibilities, Growth with Industry Study, Detailed Analysis | Global Forecast to 2026

Data Bridge Market Research has recently added a concise research on Global Wireless Data Radio Modem Market to depict valuable insights related to significant market trends driving the industry. The report features analysis based on key opportunities and challenges confronted by market leaders while highlighting their competitive setting and corporate strategies for the estimated timeline. Some are the key & emerging players that are part of coverage and have being profiled are Freewave Technologies, Inc., Microhard Systems, Inc., Digi International Inc., Simrex Corporation, MotoRola Solutions, Inc., SATEL Oy, Arada Systems Inc., JAVAD GNSS Inc., Schneider Electric SE, GE Grid Solutions, LLC, Harxon Corporation, ABB Ltd., and many more.

Analysis of Global Wireless Data Radio Modem Market report:

Global Wireless Data Radio Modem Market was valued at USD 540.8 million in 2017 and is expected to reach USD 710.9 million in 2025, growing at a healthy CAGR of 3.8% for the forecast period of 2018 to 2025. The upcoming market report contains data for historic year 2016, the base year of calculation is 2017 and the forecast period is 2018 to 2025.

A FREE sample of this report is available upon request @

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Definition:

The wireless data radio modem is used to modulate and demodulate the data received through wireless medium. This modem transfers the digital information in conventional FM radio broadcasts. It converts analog signal from a telephone or cable wire to a digital signal that a computer can recognize. This transfer of data is done across a range of upto 10 kilometres. The wireless data radio modems are used provide digital communication that notifies higher level managers and business owners during emergency situations. These modems transmit radio waves as serial data in a particular frequency according to a defined radio technique. These modems can be used freely i.e. they do not need any licence. It is mostly used in industrial, precision farming, transportation, scientific, and medical applications. These modems require low-bandwidth electronic devices for connecting with the wireless network and are less cost efficient. For instance consider the Base Radio HX-DU8602T product of Harxon Corporation. This wireless data radio modem offers reliable data communications for mission-critical application. It offers supreme performance with stable signal in long range.

Market Drivers:

·         Cost-effectiveness and fidelity of wireless data radio modem

·         Individualistic and privately owned networks and minimum infrastructure demands

·         Robust long-range frequency hopping

·         dominance of radio modems in SCADA and telemetry applications

Market Restraint:

·         Reliant on wireless signal that may get lost or corrupted

·         Maintaining the consistent speed

Top Manufacturers Profiles Operating in the Global Wireless Data Radio Modem Market:

The key players operating in the global wireless data radio modem market are –

·         Adeunis RF

·         Atim Radiocommunications

·         Campbell Scientific, Inc.

·         Cohda Wireless Pty Ltd

·         Encom Wireless Data Solution, Inc.

·         Harris Corporation

The other players in the market are Intuicom Inc., Pro4 Wireless AB, Advantech B+B Smartworx Inc., Freewave Technologies, Inc., Microhard Systems, Inc., Digi International Inc., Simrex Corporation, MotoRola Solutions

     Global Wireless Data Radio Modem Market Segmentation:

By Product

·         General-Purpose Data Modem

·         UAV Drone Data Modem

By Operating Range

·         Short Range

·         Long Range

By Application

·         SCADA & Telemetry

·         Precision Farming

·         Transportation

By Geography

·         North America

·         South America

·         Europe

·         Asia-Pacific

Competitive Landscape:

The global wireless data radio modem market is highly fragmented and the major players have used various strategies such as new product launches, expansions, agreements, joint ventures, partnerships, acquisitions, and others to increase their footprints in this market. The report includes market shares of cybersecurity as a service market for global, Europe, North America, Asia Pacific, South America and Middle East & Africa.

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• The segment that is expected to dominate the market as well as the segment which holds highest CAGR in the forecast period

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Data Bridge Market Research set forth itself as an unconventional and neoteric Market research and consulting firm with unparalleled level of resilience and integrated approaches. We are determined to unearth the best market opportunities and foster efficient information for your business to thrive in the market. Data Bridge Market Research provides appropriate solutions to the complex business challenges and initiates an effortless decision-making process.

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Global Wireless Data Radio Modem Market : Emerging Technologies, Competition & Strategies of Key Players, Regional Analysis and Forecast By 2026

Data Bridge Market Research has recently added a concise research on Global Wireless Data Radio Modem Market to depict valuable insights related to significant market trends driving the industry. The report features analysis based on key opportunities and challenges confronted by market leaders while highlighting their competitive setting and corporate strategies for the estimated timeline. Some are the key & emerging players that are part of coverage and have being profiled are Freewave Technologies, Inc., Microhard Systems, Inc., Digi International Inc., Simrex Corporation, MotoRola Solutions, Inc., SATEL Oy, Arada Systems Inc., JAVAD GNSS Inc., Schneider Electric SE, GE Grid Solutions, LLC, Harxon Corporation, ABB Ltd., and many more.

Definition:

The wireless data radio modem is used to modulate and demodulate the data received through wireless medium. This modem transfers the digital information in conventional FM radio broadcasts. It converts analog signal from a telephone or cable wire to a digital signal that a computer can recognize. This transfer of data is done across a range of upto 10 kilometres. The wireless data radio modems are used provide digital communication that notifies higher level managers and business owners during emergency situations. These modems transmit radio waves as serial data in a particular frequency according to a defined radio technique. These modems can be used freely i.e. they do not need any licence. It is mostly used in industrial, precision farming, transportation, scientific, and medical applications. These modems require low-bandwidth electronic devices for connecting with the wireless network and are less cost efficient. For instance consider the Base Radio HX-DU8602T product of Harxon Corporation. This wireless data radio modem offers reliable data communications for mission-critical application. It offers supreme performance with stable signal in long range.

Analysis of Global Wireless Data Radio Modem Market report:

Global Wireless Data Radio Modem Market was valued at USD 540.8 million in 2017 and is expected to reach USD 710.9 million in 2025, growing at a healthy CAGR of 3.8% for the forecast period of 2018 to 2025. The upcoming market report contains data for historic year 2016, the base year of calculation is 2017 and the forecast period is 2018 to 2025.

A FREE sample of this report is available upon request @

https://www.databridgemarketresearch.com/request-a-sample/?dbmr=global-wireless-data-radio-modem-market

Market Drivers:

·         Cost-effectiveness and fidelity of wireless data radio modem

·         Individualistic and privately owned networks and minimum infrastructure demands

·         Robust long-range frequency hopping

·         dominance of radio modems in SCADA and telemetry applications

Market Restraint:

·         Reliant on wireless signal that may get lost or corrupted

·         Maintaining the consistent speed

Top Manufacturers Profiles Operating in the Global Wireless Data Radio Modem Market:

The key players operating in the global wireless data radio modem market are –

·         Adeunis RF

·         Atim Radiocommunications

·         Campbell Scientific, Inc.

·         Cohda Wireless Pty Ltd

·         Encom Wireless Data Solution, Inc.

·         Harris Corporation

The other players in the market are Intuicom Inc., Pro4 Wireless AB, Advantech B+B Smartworx Inc., Freewave Technologies, Inc., Microhard Systems, Inc., Digi International Inc., Simrex Corporation, MotoRola Solutions

     Global Wireless Data Radio Modem Market Segmentation:

By Product

·         General-Purpose Data Modem

·         UAV Drone Data Modem

By Operating Range

·         Short Range

·         Long Range

By Application

·         SCADA & Telemetry

·         Precision Farming

·         Transportation

By Geography

·         North America

·         South America

·         Europe

·         Asia-Pacific

Competitive Landscape:

The global wireless data radio modem market is highly fragmented and the major players have used various strategies such as new product launches, expansions, agreements, joint ventures, partnerships, acquisitions, and others to increase their footprints in this market. The report includes market shares of cybersecurity as a service market for global, Europe, North America, Asia Pacific, South America and Middle East & Africa.

Make an Inquiry for Discount On this Report @

https://www.databridgemarketresearch.com/inquire-before-buying/?dbmr=global-wireless-data-radio-modem-market

Reasons to Purchase this Report

• Current and future of global dermatology drugs market outlook in the developed and emerging markets

• The segment that is expected to dominate the market as well as the segment which holds highest CAGR in the forecast period

• Regions/Countries that are expected to witness the fastest growth rates during the forecast period

• The latest developments, market shares, and strategies that are employed by the major market players

Get Customization and Discount on Report by emailing [email protected] . We are content with our glorious 99.9 % client satisfying rate.

About Us:

Data Bridge Market Research set forth itself as an unconventional and neoteric Market research and consulting firm with unparalleled level of resilience and integrated approaches. We are determined to unearth the best market opportunities and foster efficient information for your business to thrive in the market. Data Bridge Market Research provides appropriate solutions to the complex business challenges and initiates an effortless decision-making process.

Data Bridge adepts in creating satisfied clients who reckon upon our services and rely on our hard work with certitude.

Contact:

Data Bridge Market Research

+1-888-387-2818

Find More Reports Related To This Category

Global Semiconductor Process Control Equipment Market

Global System-on-chip Market