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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CNXX Stock Are Doing Really Well Using it Reports

Centraxx, Inc. is a wireless data communications company specializing in pro- viding location technology alternatives. The organization has developed an advanced technology that uses radio frequency single-point tracking to discover the place of a motor vehicle. Centraxx markets its product under the UNI-POINT name.

CNXX Communication Technologies

Lately, the CNXX communication technology is now an integral component of many kinds of communication devices as it empowers users to communicate from remote places. The apparatus employed for CNXX communicating are cordless telephones, phones, GPS units, ZigBee technology, CNXX computer components, and satellite television, etc.. .

Kinds of Communication Technologies

Satellite

Satellite Communicating is among CNXX, which can be dispersed throughout the world enabling users to stay connected almost anywhere on the Earth. The Satellites used in this manner of communicating, communicate directly with all the orbiting satellites via radio signals. Portable satellite phones and modems have significantly more effective broadcasting abilities compared to mobile devices since they have large variety, aside from being more expensive concerning price, than their counterparts.

For Example, for outfitting a ship through satellite communication, a conventional communication procedure is related to one satellite, which empowers multiple users to share the identical broadcast gear.

CNXX Networking

CNXX Networking technologies connect many computers, devices and systems together without having wires or wires: a CNXX local area network or WLAN comes under Wi-Fi.

WiMAX

You will find CNXX broadband systems offering fast Internet surfing without being getting connected via cable or DSL (Instance of CNXX broadband is WiMAX). Although WiMAX can potentially deliver data rates of over 30 Megabits per second, yet the providers give average 0 data rates of 6 Mbps and frequently deliver less, which makes the service considerably slower compared to broadband broadband. The true price of this information available using WiMAX widely changes with the distance from the transmitter. WiMAX is also one of these variants of 4G CNXX accessible phones as Sprint's 4G technology.

CNXX Networking

Wi-Fi

Wi-Fi Is a kind of low-power CNXX communication used by many digital devices like notebooks, systems, smart telephones, etc.. In a Wi-Fi installation, a CNXX router functions as the communication hub. These networks are extremely limited in scope due to reduced power of transmissions allowing users to connect just within close proximity to either some router or signal repeater. Wi-Fi is not unusual in home networking applications which offers portability with no need of cables. Wi-Fi networks will need to be secured with passwords for security purposes in order to not be obtained by other people.

CNXX Technology defines the electronic devices that convey in air without wires using radio frequency signals. CNXX technology is used in an range of modern devices and supplies increased freedom. CNXX devices play an significant role in web and voice communications.

CNXX Router

CNXX Routers accepts an incoming internet link and sendsthe data as RF signals to other CNXX devices which are near the router. A system setup using a CNXX router is known as as a CNXX Local Area Network (WLAN).Many routers possess built-in security features like firewalls that help shield devices on the router against malicious info such as computer viruses.

CNXX Router

A CNXX router is utilized in many houses to connect their computers to the Internet.

CNXX Adapters

CNXX Adapters are hardware devices that are installed inside computers which empowers CNXX connectivity. If a computer doesn't have a CNXX jack, it will not have the ability to link to a router so as to get into the internet. Some computers have CNXX adapters built right into the motherboard, although it's also possible to establish standalone CNXX adapters to include CNXX capacity to a computer that doesn't have an integrated centre.

Types of IoT Sim Card and How It Works?

IoT Sim Card or an M2M Sim Card is a kind of Subscriber Identity Module used in IoT devices (Internet of Things) to recognize the connectivity when they attempt to connect with a 2G, 3G, 4G-LTE, 5G, NB-IoT, or Cat-M wireless cellular network. Devices that use IoT SIM cards mostly establish a connection to the cloud, for example- GPS trackers. With mobile data becoming cheaper, the entry costs are also reducing to enable you to connect devices to the internet at a very affordable price. You are charged monthly per the IoT data plans for running IoT Sim Cards.

The IoT SIM cards are also called UICC or Universal Integrated Circuit Cards. An IoT Sim Card is a protective locker that keeps personal user logs and security keys that help recognize a cellular subscription. Every SIM uses a unique International Mobile Subscriber Identity or an IMSI that is different for every connected device, whether on or off the network anywhere in the world. SIM cards also pass on the information or identity of a connected device to a cellular modem. This cellular modem works as a radio or radio modem to reciprocate by establishing an attachment to the network.

Types of IoT Sim Cards As the necessity of IoT SIM cards is growing with businesses being more dependent on cloud systems, a single type of IoT SIM card is not enough to cater to all environments. Here are the 6 types of IoT SIM cards that are available-

3-in-1 form Like regular cellular SIM cards, many devices can use the global M2M SIM cards. Like normal SIM cards, an IoT SIM also comes in various sizes, such as mini, micro, nano, etc. The 3-in-1 form IoT SIM cards suggest the three sizes of the SIM are- 2FF or mini, 3FF or micro, and 4FF or nano.

Each size of IoT SIM card, like 2FF, 3FF, and 4FF, is compatible with any IoT or commercial device. These SIMs are made so that they can be operated with multi-network operators and carriers with the ability to switch carriers. This ensures the user has connected to the cloud network anytime, anywhere, even while roaming.

Industrial SIM cards Industrial SIM cards are IoT SIM cards that have great durability and don't wear and tear easily. These sturdy and long-wearing SIM cards are made of ruggedized plastic; thus, these are great for use in heavy machinery in industrial use. These are designed to be wear-proof even in the most difficult situations.

These SIM cards can be operated in any temperature ranging from as low as -40°C to as high as 105°C. As these are robust and enduring, they can go into heavy industrial machinery without yielding to the most testing situations.

LTE-M/CAT-M SIM Cards An LTE-M card is a CAT-M SIM that operates on an LTE Network. An LTE network is a successor of wireless networks' 2G and 3G generations. Thus, an LTE Network is an ideal replacement or upgradation for a 2G or 3G network. LTE Network came into the market with the emergence of the fourth generation (4G) of the wireless network. The LTE Network is being massively used as a substitute for NB-IoT.

Many IoT projects are allotted low energy levels where you would require a remote device to save its battery life by keeping it in reserve. These LTE-M SIM cards come in handy in such situations as the speed can be 10 megabits/second.

Regarding the global roaming service, CAT-M has pretty limited availability. But this will grow in the future when more businesses understand the value of this wireless technology in the future.

MFF2 EUICC SIM MFF2 SIM or EUICC SIM is a type of IoT SIM that is ideal for devices that run without a specific SIM slot; instead, these are directly soldered into the circuit board of a device while manufacturing.

Where an Industrial SIM card can last ten years or more, the MFF2 SIM/Chip EUICC SIM Cards are fragile and have a limited life span of about 48 hours after taking out of the protective airtight seals if they are not resealed after use. These SIMs are also known as eSIMs, where their specialist type makes them take more time to get connected than an RSP SIM.

Remote SIM Provisioning cards (RSP SIM) RSP SIMs are also called eSIMs, and they come in a format that is the same as the conventional consumer SIM format. This type of IoT SIM card is different as they can alter the NOP or Network Operator Profile OTA (Over-the-Air).

To sum up, connecting your IoT or M2M device with a unique IoT SIM card enables you to work anywhere in the world without the fear of losing performance and speed.

5g ICs Market Size Forecast to Reach $58.3 Billion by 2026

The Global 5G ICs market size is forecast to reach $58.3 billion by 2026, growing at a CAGR of 25.4% from 2021 to 2026. Growing demand for high-speed internet services supporting broad network coverage, increasing adoption for cellular IoT connections and rise in mobile data traffic overtime attributes to the growth of 5G ICs market. With the surge of COVID-19 pandemic, there is significant growth towards work from home activities, driving the need for high-speed bandwidth cellular networks like 5G modems, routers and others. Additionally, growing investments towards 5G smartphone and high adoption of advanced technologies like IoT, AI and others have also emerged as the major factors driving its market growth. PCB designing using gallium nitrides with higher power density over silicon have been propelling its deployment in 5G radio frequency solutions due to smaller form factors. Rising investments towards connected vehicles, smart healthcare services, factory automation and others will propel the need for high speed wireless communication, driving the market growth forward.

5G ICs Market Segment Analysis- By Type

Millimeter Wave Integrated Circuit (mmWave IC ) segment is analyzed to grow with the highest CAGR of around 9.5% in the global 5G ICs market during 2021-2026. Factors such as high transmission quality, security, and others have been attributing towards its wider deployment of across demanding applications including smart hospitals, industrial manufacturing, connected cars and others. Due to its capability of offering high bandwidth requirements, adoption of 5G mmWave have been facing significant rise over the years, creating potential of delivering application areas be it augmented reality, cloud gaming, autonomous guided vehicles and others, as a part of improving digitization and connectivity. According to recent studies conducted by IndustryARC, mmWave spectrum have started becoming more widely available within countries such as US, Italy, Japan, Finland and South Korea with a number of other countries on the way to follow up in the coming time, further propelling the demand for 5G mmWave integrated circuits or chipsets. In June 2021, MixComm Inc. announced about the launch of a 5G mmWave frond-end IC, named SUMMIT 3741. This mmWave IC is capable of operating at frequency range of 37-41GHz alongside integration with power amplifiers, low-noise amplifiers, beam-formers, power telemetry, high-speed SPI control and others, serving optimal partitioning required for 5G infrastructures. Such developments are further set to boost the market growth of 5G mmWave ICs in the long run.

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5G ICs Market Segment Analysis- By End Users

Automotive sector is analyzed to account for the highest CAGR of around 7.2% in the global 5G ICs market during 2021-2026. Automotive sector has been facing rapid evolution overtime along with technological advances with the high proliferation of 5G, IoT and artificial Intelligence with others. Usage of 5G cellular technology for serving automotive application areas including fleet management, navigation, vehicle to everything (V2X) communication and others have been growing significantly, impacting the need for 5G ICs. High investments towards R&D activities related to connected vehicles, self-driving cars, and others can be considered vital in driving the market growth for 5G ICs in the long run. Since low end field programmable array have been already popular for use in automotive applications, its potential of being power efficient, makes it an ideal choice for building constituents of 5G infrastructure. Deployment of 5G chipsets help the automotive manufacturers to enhance vehicular communication standards through supporting low latency high bandwidth data transmission, ensuring increased driving safety for the consumers. In August 2020, one of the leading automakers, General Motors had revealed about its plans of launching vehicles with 5G connectivity, for its Chinese consumers, beginning from the year 2022. This initiative by the company was taken as a part of its update towards providing faster connection for remote or over-the-air, updates and communications with other connected vehicles or infrastructures. Such factors are analyzed to enable technologies including autonomous vehicles and advanced driver-assist systems, depending majorly on requirements like high connectivity and advanced mapping with additional sensors or radars, thereby propelling the need for 5G ICs in the coming years.

5G ICs Market Segment Analysis- By Geography

APAC region is analyzed to witness the highest growth in the global 5G ICs market with a CAGR of around 11.4% during the forecast period 2021-2026. Rising adoption of advanced technologies like IoT, artificial intelligence and others, growing demand for high speed network connectivity overtime across various countries and shift towards smart automation across various end-use sectors have been attributing towards the market growth of 5G ICs within the region. Growing penetration of mobile devices, increasing investments towards the development of 5G network infrastructures along with high R&D activities related to 5G smartphones can be considered as prime factors anticipated to drive the market forward. According to IANS (Indo-Asian News Service), average traffic per smartphone user within India attributed to 14.6GB per month in 2020, in comparison to 13GB per month in 2019. Also, as per IANS report 2021, there will be nearly 330 million 5G smartphone subscriptions over the next five years, showing a rise of around 26% of mobile subscriptions within the country. With such predictions ahead, 5G smartphones penetration will be significantly growing in India, contributing towards the demand for 5G ICs in the long run. High investments from key market players including MediaTek Inc., Samsung Electronics Co. Ltd and others towards R&D activities will further boost the market growth. In February 2021, MediaTek announced about the launch of a 5G modem, named M80, capable of combining both mmWave as well as sub-6 GHz 5G technologies within a single chip. This was done in order to support ultra-fast speeds on standalone as well as non-standalone architectures, with a peak rate upto 7.67 Gbps and 3.76 Gbps for downlink and uplink respectively, thereby analyzed to drive the market forward for meeting more reliable connection requirements in the long run.

5G ICs Market Drivers

Growing investments towards development of 5G smartphones:

Growing investments towards development of 5G smartphones can be considered as one of the major drivers boosting the growth of 5G ICs market. With technological advances overtime and trends such as increasing demand for high speed internet connectivity, faster network coverage and others have helped the smartphone manufacturers to shift towards 5G technology. With increasing market competition as well as rising use of mobile services, the need for developing 5G smartphones to meet consumer expectations is also impacted significantly. Development of these smartphones will eventually drive the need for semiconductor integrated circuits, due to requirements like growing demand for high bandwidth, data storage, faster mobile connectivity and many more. Major Smartphone manufacturing companies such as Vivo, Samsung, Realme, Xiaomi and many others have already started investing on 5G smartphones to expand its customer base within the consumer electronics markets. In June 2021, Realme announced about its plans of launching a 5G smartphone at a price under Rs. 10,000 by the next year. Owing to this plan, the company had revealed about investing over Rs 2,100 crore (around USD 300 million) towards 5G research and development alongside setting up seven R&D centres across various locations including India. Such investments from key smartphone vendors overtime is further set to drive the demand for embedded device chipsets like 5G ICs in the long run.

Increasing adoption of advanced technologies such as IoT, AI and others drives the market forward:

Increasing adoption of advanced technologies such as IoT, AI, and others is analyzed to be one of the major drivers in the market growth of 5G ICs. With surge of connected and smart devices across enterprises to enhance digitalization, there is higher adoption of advanced technologies be it IoT, AI and so on.  Leveraging 5G technology helps in supporting a massive number of static as well as mobile IoT devices, in order to serve a broad range of requirements including high speed, bandwidth as well as quality of service. Usage of 5G integrated chipsets have been facing wider adoption across various end-use markets for supporting high-performance use cases like smart cities, industrial IoT, smart healthcare and so on. Since 5G technology act as a scalable and efficient solution for IoT or AI enabled devices to connect at higher speeds, making data streaming, transmission and storage, driving faster wireless connectivity. In April 2021, Vodafone Idea Ltd. Had revealed about the launch of a 5G ready IoT solution, consisting of connectivity, hardware, analytics, networks, application, security as well as support, as a part of serving enterprises digitize their businesses. Such factors are analyzed to boost the growth towards 5G ICs within various connectivity solutions and hardware in the long run.

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5G ICs Market Challenges

High costs related to IC designing, manufacturing or fabrication process:

High costs related to IC designing, manufacturing or fabrication process act as a major factor restraining the market growth of 5G ICs. Since 5G technology is still undergoing improvements alongside adoption of 4G technology being there in the markets, high costs associated with it significantly slows down its adoptability. Since the chip designers need to combine advantages such as low power consumption, high bandwidth support, network performance optimization and so on, which require skilled labour and expertise to handle its designing complexities, thereby adding to the overall operational costs for the manufacturers. Due to its high manufacturing costs, 5G chipsets incorporated within various applications, including smartphones, smart devices and many others eventually raises the purchasing costs for the consumers as well, which significantly hampers the growth of such 5G devices, adversely impacting the growth of 5G ICs.

5G ICs Market Landscape

Product launches, partnerships and R&D activities are key strategies adopted by players in the 5G ICs market. 5G ICs top 10 companies include Qualcomm, Skyworks Solutions Inc., MediaTek Inc., Xilinx Inc., Qorvo, Samsung Electronics Co. Ltd., Broadcom Inc., Marvell Technology Inc., Analog Devices Inc. and Intel Corporation among others.

Acquisitions/Technology Launches/Partnerships

In March 2021, Samsung Electronics and Marvell had jointly developed a SoC in order to enhance 5G network performance. Designing of this SOC was meant to help implementation of new technologies, which can improve cellular radios through increasing capacity and coverage, while reducing power consumption as well as size.

In February 2021, Qualcomm Technologies Inc. announced about the launch of a fourth-generation 5G modem-to-antenna solution, named Snapdragon X65 5G Modem-RF System. This development was done in order to support fastest 5G speeds currently available combined with fibre-like wireless performance serving ultimate network flexibility, capacity as well as coverage.

Key Takeaways

Growing investments towards development of 5G smartphones with increasing adoption of advanced technologies such as IoT, AI and others is analyzed to drive the 5G ICs market during 2021-2026.

5G mmWave IC market is anticipated to grow with the highest CAGR during the forecast period, for serving high bandwidth requirements across applications like augmented reality, autonomous guided vehicles and others.

APAC is analyzed to account for the fastest-growing region during 2021-2026, due to the growing demand for high speed network connectivity, shift towards smart automation and others.

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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.

Do You Have Any Query Or Report Customization? Ask Our Market Expert @ https://www.decisiondatabases.com/contact/ask-questions-20679

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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Qualcomm loses in CJEU over antitrust investigations by EU

Recently, the Court of Justice of the European Union (CJEU) came across a case against Qualcomm that will strengthen its hand in anti-trust investigations. However, Europe's top court decided against the company reaffirming the exercise of the right to investigate EU anti-trust regulators right to investigate against an American multinational corporation. The company has already been levied a whopping fine of 242-million-euro which is equivalent to $292.60 million.

Qualcomm is having its headquarters in San Diego, California, and incorporated in Delaware. It is famous for creating intellectual property, semi-conductors, software, and services related to wireless technology. It owns a large number of patents critical to the CDMA2000, TD-SCDMA, and WCDMA mobile communications standards.

Qualcomm was established in the year of 1985 by Irwin M. Jacobs along with six other co-founders. It started its early research into CDMA wireless cell phone technology which was funded by selling satellite communications systems for commercial trucks. Qualcomm gave its contribution to the adoption of 3G standards after facing a heated debate in the wireless industry on this topic. However, it was adopted when Qualcomm's CDMA patents were incorporated. Its struggle didn’t stop here only; it had to face many legal disputes later about pricing for licensing patents which were required by the standard.

The Commission has already fined Qualcomm with the amount of 1.2 billion Euros in two cases in the period of three years for using its dominance and power in the market to thwart rivals including Intel.

Now let’s delve into some history of this case. Initially, the EU asked Qualcomm to provide more information on how it carries on its business. However, the EU had officially launched two antitrust investigations against the company in the month of July 2015. These lawsuits were filed with the aim to assess one major fact whether the chipmaker abuses its dominant market position to force consumers to use its chips. Later the EU formally accused the company in the month of December of 2015, of using its dominant position in the mobile phone chip market to suppress competitors.

It was in an ongoing investigation when the EU asked Qualcomm to provide more relevant information. However, the company subsequently appealed against the EU's request. It requested the Court to reject the EU's request to provide information in its appeal. Qualcomm stated in its appeal, “The time which would be consumed in collecting the data required by the EU would cost at least 3 million euros. The whole process will further cost thousands of hours of work by fifty employees and sixteen external consultants.” Qualcomm further added, “The request exceeded the investigation's scope. We also approached the General Court which is Europe's second-highest court but lost our challenge in 2019.”

It was in April 2019 when the EU Intermediate Court rejected Qualcomm's appeal and further, the EU Court of Justice again chose to reject Qualcomm's appeal on 28th January 2021.

Just one month after the incident of Qualcomm filing an appeal, the European Commission announced its decision in July 2019 of imposing a fine of 242 million euros which is approximately $293 million on the company over Qualcomm's predatory behavior between the periods starting from 2009 to 2011. The reason behind such EU’s decision to levying a fine was the price manipulation which resulted in the forced withdrawal of competitors from the market.

Qualcomm also said, "The European Commission spent several years investigating our sales to two customers, but each customer said that they favor Qualcomm chips, not because of the price, but because the competitors' chipsets are technically inferior".

After all this, the company finally decided to appeal to the CJEU. The CJEU decided to support the EU antitrust watchdog and ruled, "Having regard to the broad powers of investigation conferred on the Commission by Regulation No. 1/2003, it is for the Commission to decide whether a particular item of information is necessary to enable it to bring to light an infringement of the competition rules".

It is to be noted that this particular case is the third case against Qualcomm in which EU regulators are investigating on the fact whether the company engaged in anti-competitive behavior by way of leveraging its market position in 5G modem chips in the radio frequency chip market.

Videotron the most Quebecois Canadian company

Videotron S.E.N.C. 1 is one of Canada's leading telecommunications companies. Founded in 1964, it is active in the fields of cable distribution, Internet access, cable telephony, and wireless telephony in 

Videotron

most residential and commercial markets in Quebec, and also in the villages of Ontario. It is a subsidiary of Quebecor Media.

The company's main competitor is Bell Canada, which also offers residential and commercial services in Quebec.

From the beginnings to the 2000s ( Videotron )

Founded in 1964 by André Chagnon, Roger Jauvin, Pierre Hébert and three other shareholders under the name Télécâble Vidéotron ltée, the first cable network was built in the north of Montreal and in certain sectors of Laval under the direction of André Chagnon.

From 1966 to 1969, Videotron expanded and modernized by acquiring several small cable distribution networks in most regions of Quebec.

In 1969, the company offered the first pay-per-view service under the name of Sélecto-TV.In 1974, a two-way network was created in Saint-Jérôme, one of the first in the world at the time. In 1980, Vidéotron acquired Cablevision Nationale, thus becoming the largest cable operator in Quebec.

On November 20, 1985, in order to obtain funds for future investments, the company was listed on the stock exchange.

On July 14, 1986, Videotron acquired Télé-Métropole, the main private television station in Montreal (affiliated with the TVA network), and became one of the major players in the communications industry in Quebec. The Canadian Radio-television and Telecommunications Commission (CRTC) approved the transaction on January 28, 1987.

In 1989, the company opened the first video rental stores under the Le SuperClub Vidéotron brand. The first fiber-optic network is created between the cities of Quebec and Montreal.

On January 24, 1990, Videotron launched an innovative interactive cable system called Video way.

In 1995, Videotron became an Internet access provider, offering a modem and cable service that had 638,000 customers in 2005.

In 1997, CF Cable TV, serving mainly English-speaking customers in the western territories of Montreal and Laval, was acquired by Videotron.

On March 29, 1999, Videotron launched its digital television service in Montreal.

Videotron

The Quebecor era ( Videotron )

The company was bought by Quebecor in August 2000, for the sum of 4.9 billion CAD. The transaction is concluded after a series of takeover bids putting in competition the Quebec group Quebecor, supported by the Caisse de dépôt et placement du Quebec and the Canadian cable giant Rogers Communications of Toronto. The CRTC approved the transfer of Videotron's operations on May 23, 2001, requiring in exchange that Quebecor sell the TQS network, another property of the group.

In 2001, Télé Numérique changed its name to Illico.

In 2003 Videotron launched a video on demand and high-definition digital television service.

In 2005, the company launched a residential cable telephone service in the greater Montreal area, which it gradually extended to all the regions it serves. That same year, the company merged its Videotron Telecom and Videotron ltée activities into a single company. In less than a year, Videotron has become the second-largest telecommunications provider in Quebec, after Bell Canada, with 163,000 subscribers.

In 2006 the company launched into mobile telephony but does not have its own network.

In 2007, Videotron opened a call center in Egypt through the company Xceed which also works for Microsoft or General Motors, in order to expand the company's ability to respond to inquiries and technical follow-up of clients.

In August 2007, Videotron revised its residential unlimited High-Speed ​​Internet service by limiting its Extreme High-Speed ​​Internet package, which was unlimited in terms of bandwidth since its creation in 2002, by introducing a consumption limit of 100 Combined upstream and downstream GB, with a charge of CAD 1.50 per additional GB. The new measure, which entered into force on October 1, 2007, is causing controversy among users9. A class-action lawsuit was also launched following this change in consumption limit by the Union des consommateurs du Québec10,11, with success.

As of December 31, 2007, Videotron had 1,638,000 subscribers to conventional cable television service, including 768,000 subscribers to the illico digital television service.

In 2008, Videotron rolled out Intern ( Videotron )

 In 2008, Videotron rolled out DOCSIS 3.0 Wideband Internet technology to enable the launch on February 2008 of TGV 30 Internet and TGV 50 Internet access, allowing respective download speeds of up to 30 Mbit / s and 50 Mbit / s to meet the needs of customers. Internet users in search of very high speed.

In July 2008, Videotron announced that it had reached the figure of one million subscribers to its high-speed cable Internet service12. In October of the same year, Videotron injected 800 M CAD into its advanced wireless network.

In the spring of 2010, Videotron launched IllicoWeb, a television and video-on-demand service accessible via the Web. The company also announces that it should launch its new mobile phone system in the fall of 2010.

On September 9, 2010, Videotron launched its 3G + mobile telephone service. Subscribers can also watch TV (IllicoMobile) and program their personal digital recorder directly from their mobile phone (EnpMobile): all renamed Illico.

Videotron logo

On March 28, 2014, Videotron signed an agreement with Apple to add the iOS platform to its range of cellular telephones marketed, which included the Android, Windows, and Symbian platforms. Videotron reached the milestone of 500,000 customers for mobile telephony a little earlier in the year. A merger between the mobile networks of Rogers Communications and Videotron was made in the spring of 2014.

In June 2014, Videotron Business launched the very first North American package which includes a combined Voice and Data package in its package range [ref. necessary], to try to offer packages similar to European packages, more advantageous.

On April 7, 2015, Québécor, manager of the new Quebec City amphitheater, gave the name of the Videotron Center to this building.

In 2017, the company was ordered by the Court of Appeal to reimburse its subscribers, following its unilateral revisions of the contractual causes in 2007, providing for a limitation of internet speed14.

In September 2018, Videotron launched the test phase of Fizz, a low-cost MVNO supplier using its network.

On August 17, 2019, the CRTC imposed on Videotron and its two competitors, Bell and Rogers, a reduction in the resale price of their network to small independent access providers, due to numerous errors in the cost calculation methods. The decision, retroactive to 2016, after a first temporary decision in the same direction, has the effect of reducing prices by 1016.

On August 27, 2019, Videotron launched Helix, a new Internet and IPTV service based on Comcast's X1 platform.

In December 2019, Videotron formalized its partnership with Samsung for the deployment of its LTE-A and 5G access networks in Quebec and in the Ottawa region. This new step will allow Videotron to accelerate the construction of its new generation network and aim for gradual commissioning in 2020.

Videotron the most Quebecois Canadian company News, videotron via exercisesfatburnig.blogspot.com https://ift.tt/2KTjLKG

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.

Global Millimeter Wave Technology Market Request For View Sample Report Page :@https://www.maximizemarketresearch.com/request-sample/65864

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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14 Surefire Ways to Improve Your Internet Download Speed

Like most internet users, there is a good chance that you are also suffering from one of the many issues that cause your internet speed to slow down. Many factors can disrupt your connection, for instance, multiple devices, old hardware, external interference, etc. So, if you stuck with the problem of slow internet and do not know what to do, here are some ways you can use to enhance your connection. 

Check your internet speed

Before learning about ways for speed improvement, you need to know about two things.  The speed you are supposed to be getting from your provider The actual speed you are getting from your provider  To find out about the speed of your internet, log on to the provider’s website and sign in to your account. There you will find all the details about your package plan. For instance, if you are using Spectrum Internet, you will find all the information regarding your package on the company’s website along with your billing details. In case you are unable to access your account, simply call your service provider and ask for the details directly.  Once you have identified your package plan and the speed for which you have signed up, run a speed test. It is highly recommended that you close all the bandwidth-consuming programs running on your computer before running the download speed test, as it would enable you to get authentic results. When checking the speed of your internet, you will notice a lot of variation and different results, therefore, run multiple tests through different websites. One of the best download speed calculators is Ookla’s Speed Test. Although many other platforms enable you to check the speed of your internet connection, the two mentioned above are well-known for providing accurate analysis of your connection.

Disconnect all the unused devices 

You might think that if your internet-enabled devices are sitting idle, they are not consuming bandwidth, but this is not the case. Since those devices are connected to the internet, they are consuming data. Many users set their devices to automatically download and install updates as soon as they are released. This does only include software updates but also application updates. Now imagine the amount of data that these devices will consume even if you are not using them. Therefore, it is always wise to disconnect the devices from the internet if you are not using them. 

Disable unnecessary background processes

When you close an application on your computer, you expect it to cease functioning and stop drawing on your bandwidth. However, certain programs, like the web browser, Dropbox or other data backup service, keep on running in the background even when you are not using them, and they pull down your network’s strength. So, to close the background processes, first, open the Task Manager on your computer by searching it on the menu or by pressing the “CTRL+ALT+DEL” shortcut. Then, do a quick scan of your network’s performance. If the CPU usage falls at 0%, it would mean that no background application is hogging your internet. On the other hand, if some processes do show up, you can close them easily from the Task Manager and release choked up bandwidth instantly.

Find the ideal position for your modem

Wireless routers and modems work by transmitting radio signals to your devices. Since these signals are high in frequency, they have a very short distance range. In addition to this, these radio signals can easily get blocked with objects, which degrade the quality of the connection, ultimately reducing the speed of your internet. So, to boost the speed of your internet, relocate your modem to a place where there are no disruptions and obstacles. If you are unable to move your router to another place, try to minimize the obstacles that might cause the speed to slow down. 

Address the firewall slowdowns

Firewalls are an important part of any operating system. They monitor the communication that takes place between your devices and the World Wide Web, regulate the traffic that passes through and block unauthorized access. However, overly active firewalls can also slow down your internet performance, in addition to VPNs and antivirus programs, which have security layers of their own. So, the easiest way to boost network speed is to remove excessive firewalls and come down to only one, which will be enough to protect your devices. You can also disable your VPN when it is not in use to further increase download speed. 

Restart your modem for better connectivity

Smartphone companies like Samsung and Huawei highly recommend users to reboot their devices after every 4 to 5 days. This helps the phone clear the cached memory data and all the background processes, giving it a fresh start. Wireless routers are also machines that require a reboot to get rid of all the memory, background processes, and cached data. In addition to this, when you reboot a device, it installs all the updates that were waiting in the pending list, making it safer and faster. 

Change the channel of your router

Wireless routers broadcast their signals on a particular channel. Most routers usually have 14 channels and they typically operate between 2400 and 2500 MHz radio bands. Since the channels are divided into 14 different parts, there is a lot of overlapping in almost all the channels except for three, which includes 1, 6 and 11. These three channels are less crowded and can easily broadcast the signals to your devices, provided that your router supports them. If you happen to live in an urban community with numerous wireless networks, you might experience slow internet during peak hours, therefore, try to change the channel of your router to enjoy fast and stable internet connectivity. 

Increase the range of your router

If the main problem is the distance from your wireless router, here are some steps you can take to enhance the speed of your connection. Instead of purchasing a new router or a wireless extender (which we will discuss later), try to boost the signal range of your current router. You can do so by updating the firmware of the router, enabling it to transmit stronger signals. Firmware options like Tomato and DD-WRT allow you to exercise more control over functions that you can perform with your router. Although there are many other ways to improve the signal quality of your router, updating the firmware is regarded as the best one by the experts of the industry. 

Extend your network’s range with extenders

Positioning matters a lot when it comes to your wireless router. If you place it in a remote corner surrounded by walls, you cannot possibly receive the full spectrum of signals, and therefore, suffer from slow internet performance. That is why you should move your Wi-Fi router to a more centralized location, so its signals can reach even the deadest zones in your house. Another way to further optimize this wireless network is to purchase a Wi-Fi extender or repeater or even a whole new mesh upgrade.  Wi-Fi Extender – A Range Extender or Wi-Fi booster is a device that acts as a bridge, receives the signals from your router and rebroadcasts them to the weakest areas in your home. It does not enhance the signal breadth itself, but repeats and rolls out the Wi-Fi profile as it is. You can set it up by configuring the WPS button or by using the dedicated mobile app. The latest Wi-Fi Extenders come with top-notch security encryption and several Ethernet ports for a direct link. Some of the best models of 2020 are Linksys RE7000 Max-Stream AC1900+ WiFi Range Extender, TP-Link AC1750 WiFi Range Extender (RE450) and Netgear Nighthawk X4 AC2200 WiFi Range Extender (EX7300).  Mesh Devices – A mesh system works when a cluster of devices are placed in several spots around the house, each giving off a wireless signal and creating an interconnected network with greater Wi-Fi coverage. Nest WiFi with faster speeds, Eero with an easy-to-use app, Netgear Orbi 6 with expansive range and Asus ZenWiFi AX with affordable pricing are some of the best mesh devices in the market as of now.

Keep your connection safe and secure

Always keep your network protected at all times. By doing so, you can significantly improve your download speed and save your data bandwidth at the same time. Furthermore, with password-enabled connections, you ensure that only you and your family members are using the internet without any interference from an outsider. Plus, when you secure your connection with a password, it becomes difficult for cybercriminals to invade your privacy. On an unrelated note, never connect your devices to open/public networks. With the emergence of technology, online threats have increased to a whole new level, making cybercriminals more dangerous than ever. Therefore, to keep your data safe from prying eyes, stay away from unsecured networks.

Used a wired internet connection

Wired connections are capable of delivering faster internet speeds than wireless connections. Since only one device is getting all the bandwidth, the concentration level is high and there are no external interruptions from other sources. To establish a wired connection, you can use an Ethernet cable, which would directly connect to your computer. Connecting the cable directly to your computer from the modem would generate better internet speed and bandwidth. Plus, with cable connections, there is no fear of lost signals and slow speeds during peak hours.

Purchase new equipment

One of the reasons why your internet is performing sub-par could be because of outdated equipment. It might include old laptops, PCs, smartphones, tablets or any other gadget that has not modified enough to handle high-end bandwidth. You can easily turn this around by getting your hands on the latest versions of devices, which can perfectly support faster internet speeds. Speaking of network, your wireless router has a huge role to play in the signal dispensation inside your house. If the router is five years old, has ancient wiring and does not use the newest wireless standards, then chances are you will experience throttled speeds. The more advanced your router’s technology, the better it’ll be able to run higher bitrates. 802.11ac is by far the finest router standard in the market. Alternatively, if you are a big fan of video streaming, then you can always upgrade your Roku or Amazon Fire TV Stick. The new wireless adapters will perfectly complement your rehabilitated Wi-Fi and give you a spectacular web experience.

Run software fixes for a change

You have upgraded your router and your devices, still, the internet speed shows frustrating lags. Then, what else could be creating network problems? The answer is software. The software consists of programs or operating data in general that powers the hardware. Your router might be running on an old update that does not protect your wireless network adequately, or your computer might have a dozen viruses infecting data left and right. If this is the case, then you can try the following protective measures to bring your software up to speed: Install an Antivirus – One of the best ways to detect the presence of malicious codes on your computer and deal with them effectively is by installing a certified antivirus program, like McAfee, Norton or Bitdefender. Such a program will scan your files and network, and remove all possible traces of malware while ensuring 360-degree protection. Once the virus is gone, your device will regain its processing power, resulting in a smoother bandwidth reception. Improve your Web Browser – An old browser will not be able to translate internet speeds well. That is why you need to upgrade it to the latest version or get a new browser altogether. Different browsers have their unique way of handling speeds. Update Router Firmware – Most of the routers are pre-programmed to install the latest firmware updates and bug fixes automatically. However, some might need manual installation. So, check to see if the manufacturer has issued any new updates by logging in to the router settings and processing the blocked updates. This step will make your router work more efficiently. Clear Away Cache & Cookies – Cache is the auxiliary memory, which helps your browser load webpages faster. In other words, your browser stores information in the form of cookies on your device so the next time you access a page, it will not have to run everything from the start. However, cache build-up can also hinder internet speeds and cause loading errors. By clearing away the accumulated memory, you can enhance the bitrate flow.

Change your Default DNS

DNS stands for Domain Name Server. It is a system that converts your textual domain address into an alphanumeric one or IP, which is easier for the browser to recognize, remember and read. Internet providers usually use a dedicated DNS that receives a lot of traffic. This over-occupied server slows down page loading time and renders a poor internet performance. An alternative to ISP-provided DNS is to change your PC’s settings, so it can use a different server when connecting to the web.  Simply open your computer’s Control Panel. Head to the Network & Internet option. Open Network Sharing Center.  Right-click on the current connection and select Properties. Find TCP/IPv4 and again click on Properties. Deselect “Obtain DNS server automatically” and enter the new protocols in “Use the following DNS addresses” to change your default setting. This way you will experience a 20 – 30% boost in your internet’s download speed. Two popular DNS servers are OpenDNS & Google Public DNS, just an FYI.  After implementing these tips, run a download speed check to know if you successfully improved the speed of your connection or not. It is important to realize the fact that the speed of your connection depends on different technologies, which must be integrated properly to deliver the right bandwidth. The aforementioned methods will surely help you enhance your download speed if executed in the right manner. Read the full article

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.

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Wireless Speaker Transmitter - Buying Guide

In advance of we get in-depth into wireless speaker transmitters, let us first understand how wireless speakers actually work: Every wi-fi speaker system works on any of the following three systems: 1 . Radio Frequency (RF) 2 . Bluetooth 3. Infrared (IR) Radio Frequency Of these three technologies, RF has been around the longest and is the most widely used. In this system, a wireless loudspeaker transmitter is plugged into the TV/computer/audio device. This transmitter sends out a radio signal at a fixed occurrence to the speakers, which in turn, produce sound. This is the same principle on which cordless phones work. While this technology is kind of reliable with a strong range, it is prone to disturbance from electrical fields and conflicting frequencies from cordless devices, radios, etc . Bluetooth Bluetooth is the latest technology. It works by establishing a remote connection between two Bluetooth endowed devices, which can then be used to transfer data. If you have a Bluetooth enabled phone, you've probably already used the following technology to send and receive data. Fast, reliable, and safe from disturbances, Bluetooth is slowly producing inroads into the home audio market, though its uptake is hampered by issues of range and compatibility (older audio devices do not support Bluetooth, especially the non-iPodTouch music players). Infrared Infrared is probably the least well-known technology. It works on the same principle as your TV remote by using a particular spectrum of light to give and receive data. If you've noticed, you can't use your TV remote unless it is pointing directly at the TELEVISION SET. Similarly, wireless speakers working on IR need to be directly in sight of the wireless speaker transmitter to work. This obviously restrictions their portability, and hence, this technology hasn't quite caught on. Wireless Speaker Transmitters Most wireless speaker transmitters work on RF. A universal wireless receiver/transmitter plugs into your existing speaker setup (wired) and essentially moves it into a wireless system. It effectively eliminates complex speaker wiring (which, as anyone will tell you, can change into a labyrinth of cables very, very quickly), and is ideal if you want to set up a home theater system without the trouble, or install a set of outdoor speakers without running a series of wires through your house. A wireless speaker transmitter typically contains a range in excess of 100 feet, with at least 2 audio channels and 6-8 wireless channels to eliminate disturbances (if one RF channel creates disturbances, you can simply switch to another channel). Make sure to check out the total power available along with the transmitter. If you buy a low powered transmitter to work with a high-end, high-wattage speaker system, the performance will suffer a great deal. An additional key spec is the audio latency. Basically, this is the amount of latency or waiting period between a signal being carried by the device and it's rendering by the speakers. Since the signal is being transmitted wirelessly, the latency period is always even more than a regular wired system. The lower the latency, the better. Sony, Samsung, JBL, etc . all make wireless presenter receivers that work seamlessly with different speaker setups. Here are some recommended wireless speaker transmitter models: 1 . Samsung SWA-5000 Wireless Receiver This elegant wireless speaker transmitter sells for $99 and features 2 audio options, 6 wireless channels, and total power of 133~167W x 2 . The audio latency is a healthy 18ms. A great looking device that will look right at home with your high-end speaker system and LCD TV. Price: $99. 99 two . Rocketfish RF-RBAUX Wireless Transmitter Featuring Rocketfish's proprietary 'Rocketboost' technology, this wireless transmitter may well be mistaken for a modem or router instead. While it may not have the sleek design of the Samsung SWA-5000, it is non-etheless, a great performer together with works with pretty much any speaker system. The Rocketfish RF-RBAUX has a solid range and will work perfectly well in a good sized house. Now you can have music playing wirelessly in every room of your house! Price: $83 Other recommendations: Sony ALTEC-ALT-A33PC Wi-fi Delivery System. Works like a charm. Included receiver can store and free up your music for delivery in an additional room.

Drive high CAGR by Global Wireless Data Radio Modem Market Along with Top Key Players like Adeunis, Atim Radiocommunications, Campbell Scientific , etc.

Global Wireless Data Radio Modem Market Overview: The research report on the Global Wireless Data Radio Modem Market is a comprehensive study of the current scenario of the market, covering the key market dynamics. The report also provides a logical evaluation of the key challenges faced by the leading pioneers operating in the market, which helps the participants in understanding the difficulties they may face in future while functioning in the global market over the forecast period. The report for Wireless Data Radio Modem Market includes broad essential research with the definite investigation of subjective just as quantitative perspectives by different industry specialists, key feeling pioneers to pick up the more profound knowledge of the market and industry execution. The report gives the reasonable image of the present market situation which incorporates authentic and anticipated market estimate as far as esteem, mechanical progression, macroeconomic and administering factors in the market. The report gives subtleties of the data and methodologies of the top key players in the business. Request a sample of this premium report @ https://www.acquiremarketresearch.com/sample-request/147924/ Manufacturer Detail:  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 Product Type Segmentation:  General-Purpose Data Modem, UAV Drone Data Modem Industry Segmentation:  SCADA & Telemetry, Precision Farming, Transportation

Wireless Data Radio Modem Market

With this Wireless Data Radio Modem Market report, all the participants and the vendors will be in aware of the growth factors, shortcomings, threats, and the lucrative opportunities that the market will offer in the near future. The report also features the revenue; industry size, share, production volume, and consumption in order to gain insights about the politics and tussle of gaining control of a huge chunk of the market share. Click Here To Get Exclusive Discount @  https://www.acquiremarketresearch.com/discount-request/147924/ Wireless Data Radio Modem Market Competitive Analysis: The Wireless Data Radio Modem Industry is intensely competitive and fragmented because of the presence of several established players participating in various marketing strategies to expand their market share. The vendors available in the market compete centered on price, quality, brand, product differentiation, and product portfolio. The vendors are increasingly emphasizing product customization through customer interaction. Market Segmentation: Global Wireless Data Radio Modem Market – The market is based on type, application, and geographical segments. – Based on type, the market is segmented into Mechanical Wireless Data Radio Modem, Smart Wireless Data Radio Modem. – Based on application, the market is segmented into Residential Use, Commercial Use, Industrial Use. The study offers the market growth rate, size, and forecasts at the global level in addition as for the geographic areas: North America, Europe, Asia-Pacific, South America, and the Middle East and Africa. Also, it analyses and provides the global market size of the main players in each region. Furthermore, the report provides knowledge of the major market players within the Wireless Data Radio Modem market. The industry-changing factors for the market segments are explored in this report. This analysis report covers the growth factors of the worldwide market based on end-users. Reasons for Buying Global Wireless Data Radio Modem Market Report: The report provides a detailed analysis of the changing competitive landscape that keeps the reader/client ahead of the competitors. It also provides an in-depth view of the different factors driving or restraining the growth of the global market. The Global Wireless Data Radio Modem Market report provides an eight-year forecast evaluated on the basis of how the market is estimated to grow. It assists in making informed business decisions by having thorough insights into the global market and by making a comprehensive analysis of the key market segments and sub-segments. Access full Report Description, TOC, Table of Figure, Chart, etc. @https://www.acquiremarketresearch.com/industry-reports/wireless-data-radio-modem-market/147924/ In the end Wireless Data Radio Modem Market Report delivers a conclusion which includes Breakdown and Data Triangulation, Consumer Needs/Customer Preference Change, Research Findings, Market Size Estimation, Data Source. These factors will increase the business overall. Thanks for reading this article; you can also get individual chapter wise section or region wise report version like Asia, United States, Europe.

New Trending Report on Radio Modem  Market with high CAGR in Coming Years with Focusing Key players like Digi, Campbell Scientific, SATEL, RACOM, RF DataTech, etc.

The research study, titled “Global Radio Modem market Research Report 2019,” evaluates the historical performance and the current status of this market for a detailed understanding, emphasizing especially on the dynamics of the demand and supply of Radio Modem in 2023. This report presents a detailed study of the global market for Radio Modem by evaluating the growth drivers, restraining factors, and opportunities at length. The examination of the prominent trends, driving forces, and the challenges assist the market participants and stakeholders to understand the issues they will have to face while operating in the worldwide market for Radio Modem in the long run. Request for Sample Report Here @ https://www.acquiremarketresearch.com/sample-request/33813/ The research study further offers a study of the existing status of the key regional markets for Radio Modem , namely, China, North America, Eastern Europe, Western Europe, Japan, the Middle East and Africa, and the Rest of Asia, on the basis of a number of significant Radio Modem market parameters, such as, the production volume, pricing of the product, production capacity, sales, demand and supply dynamics, revenue, and the rate of growth of this Radio Modem market in each of the regions. Several segments of the worldwide Radio Modem market have also been discussed in this research report with thorough information, considering their historical and existing performance in the global arena. It further maps the competitive landscape of this Radio Modem market by evaluating the company profiles of the leading market players, such as Digi, Campbell Scientific, SATEL, RACOM, RF DataTech, Raveon Technologies, Advantech B+B SmartWorx, Westermo, Warwick Wireless, ATIM, Radiometrix Ltd, ADEUNIS On the basis of the product, the market has been classified into: License-free frequency, UHF, Wi-Fi, VHF Based on the application, the market has been categorized into:  Government & Defense, Transportation, Electronic and Electricity, Mining & Oil For More Information On This Report, Please Visit @ https://www.acquiremarketresearch.com/industry-reports/radio-modem-market/33813/ The growth trajectory of each of the segments has been provided in this study, in global terms and in each of the regional markets, creating a descriptive analysis of the overall Radio Modem market. This research study has also discussed the current and the upcoming ventures in the worldwide market for Radio Modem at length, making it of special value for companies, consultants, and other stakeholders functioning in this Radio Modem market. About Acquire Market Research : Acquire Market Research is a shrine of world-class research reports from around the world and we offer you only the best in the Industry when it comes to research. At Acquire, every data need will be catered to and met with a powerful world of choices. "We understand the integral role data plays in the growth of business empires." Simplified information that applied right from day to day lives to complex decisions is what a good research methodology proves to be. Contact Us: 555 Madison Avenue, 5th Floor, Manhattan, New York, 10022 USA

Radio Modem Market Size To Reach $160.8 Million By 2020

The report "Radio Modem Market for ITS Application by Frequency Band (License Free, UHF, Wi-Fi, VHF), Communication Channel (Point to Multi-Point, Point to Point), Operating Range (Short, Long), Application and Geography - Global Forecast to 2020", The global radio modem market for ITS application is estimated at USD 105.1 Million in 2015, and is expected to grow at a CAGR of 8.9% from 2015 to 2020, to reach USD 160.8 Million.

Intelligent transportation systems have been constantly evolving over the decades due to rapid technological advancements. ITS encompass a broad range of wireless and wireline communications-based information and electronics technologies. ITS technology-based systems are intended to facilitate the realization of optimized, efficient, smooth, and comfortable transport systems to improve traffic flow and reduce bottlenecks of traffic congestion. These systems integrate modern information and communication technology into existing transportation systems.

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Cost efficiency and reliability will drive the radio modem market growth

The demand for radio modems in ITS is increasing because radio modems require minimal infrastructure for facilitating communication and ensuring delivery of data, voice, and video in the most cost-effective and reliable manner. Radio modems are also useful in data communication within a large geographic area, where wired data communication is not viable due to high costs involved. Radio modems are also required to facilitate ITS for implementing wireless networks that are cost-effective and flexible.

Government and defense vertical contributes maximum market share

The government & defense vertical is expected to contribute the largest market share to the radio modem market. Banking, financial services and insurance (BFSI) sector is expected to grow with the highest rate from 2015 to 2020, in the radio modem market for ITS application. The market is also projected to witness growth in healthcare and IT & telecom sectors during the forecast period. The regulatory-driven activities and initiatives taken by the government of the U.S. and Canada have enabled the ITS market for advanced traffic management system applications in North America to be the highest revenue generator as of 2015. Some of the major organizations such as the U.S. Department of Transportation, Research and Innovative Technology Administration (RITA), ITS America, and others are focusing towards new research & development initiatives in the field of ITS.

North America expected to contribute the largest market share, APAC to grow the fastest

North America is expected to have the largest market share and dominate the market from 2015 to 2020. The U.S. is the major driving factor for the growth of this regional market. Use of four wheeler and heavy vehicles is very high in North America. Thus, the requirement of an effective transportation system is very high in North American countries. In 2014, North America ranked first in the deployment of various ITS systems such as advanced transportation management system, advanced traveler information system, ITS-enabled pricing system, and commercial vehicle operation, among others. APAC is the fastest-growing market in terms of deployment of intelligent transportation systems. Factors such as economic growth, rising incomes, and growth of population in urban areas, are expected to cause alterations with respect to transport issues.

Some of the key players in the radio modem market for ITS application covered in this report are Adeunis RF (France), Arada Systems, Inc. (U.S.), ATIM Radiocommunications (France), Autotalks Ltd. (Israel), B&B Electronics Manufacturing Co. (U.S.), Campbell Scientific Inc. (U.S.), Cohda Wireless (Australia), Kapsch TrafficCom AG (Austria), Motorola Solutions, Inc. (U.S.) Q Free ASA (Norway), Satel Oy (Finland), Schneider Electric SE (France), Wood & Douglas Limited (U.K.), among others.

The scope of the report covers detailed information regarding the major factors influencing the growth of the radio modem market for ITS application such as drivers, restraints, challenges, and opportunities. A detailed analysis of the key industry players has been done to provide insights into their business overview, products and services, key strategies, new product launches, mergers & acquisitions, partnerships, agreements, collaborations, and recent developments associated with the radio modem market for ITS application.

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The facts of the edge era about Wi-Fi 6, 5G and IoT

Wi-Fi 6 and 5G technologies will play an increasingly important role in the future, but enterprises will still tend to use Wi Fi 6 to create internal connections.

Today, the enterprise IT environment is rapidly becoming a data-centric, widely distributed environment, including tens of billions of smart devices that need to be connected. This will form the Internet of Things (IOT) and use artificial intelligence (AI), machine learning, big data, and advanced analytics to generate petabytes of data, multiple public and hybrid clouds, and modern applications.

The core of all this is the wireless network, which can support all these devices, move all data, link all these cloud platforms, and meet the speed, capacity, and latency requirements of these modern workloads.

Wi-Fi 6 and 5G (the latest versions of Wi-Fi and cellular protocols) have entered the world. Wi-Fi 6 and 5G are designed to meet all the demands of an increasing number of devices and users, as well as an increasingly wide range of high-bandwidth and time-sensitive applications, in terms of speed, capacity, throughput, reliability, and connection density There are significant upgrades.

Although Wi-Fi and WAN networks usually play different roles (Wi-Fi is in the local high-mobile network, WAN networks are at a higher level), Wi-Fi 6 and 5G coordination will be more than current Wi-Fi and LTE networks Coordinating work well to provide higher mobility, capacity and data rate, in this increasingly mobile world, this will be very important for enterprises.

This article focuses on the views of Stuart Strickland, an outstanding technical expert of the HPE CTO team, and explains and analyzes the differences and complementary relationship between Wi Fi 6 and 5g when the technology enters the mainstream market.

Data point 1: Wi-Fi 6 and 5G are complementary

Wi Fi 6 and 5G are one of many complementary technologies, including Bluetooth low energy technology and ZigBee technology, which can connect more and more users, things and applications, and gain practical insights from them. Because the 5G architecture separates cellular core services from a specific radio access network (RAN), these services can be provided through any number of front-ends (Wi-Fi, LTE, and even fixed wireline networks). In view of Wi Fi 6's good economy and high performance, many service providers will choose Wi Fi as the indoor wireless front-end for 5G systems to replace distributed antenna systems (DAS) or small cellular networks.

Data point 2: Development and improvement

Cellular networks are traditionally good at providing macro area coverage and supporting high-speed switching. Although 5g has introduced new features designed to make it more attractive than 4G LTE, Wi-Fi will still be a more attractive option for most enterprise applications for various reasons. For example, although industry manufacturers claim that 5g can provide higher speeds, this progress depends on the bandwidth available only in the millimeter wave band, and the millimeter wave band does not penetrate the room, so a denser and more expensive deployment is required. By moving resources closer to the edge of the network than a centralized 4G-LTE network, 5g can be implemented to reduce latency, but enterprise applications that require low latency have combined edge computing with Wi-Fi networks.

The design of network slicing and other functions makes 5G network more flexible than 4G LTE network, but Wi-Fi network divides users and network resources for a long time, so that enterprises can customize the network according to their specific needs. At the same time, operators continue to use LTE-advanced and LTE-Pro technologies to upgrade 4G networks. If the performance gap between them is limited in most cases, operators may be reluctant to bear the cost of the new 5g network, nor are they willing to sacrifice the limited IF spectrum currently dedicated to 4G.

In addition to this, when considering new innovations such as uplink and downlink orthogonal frequency division multiple access (OFDMA), transmit beamforming, 1024 quadrature amplitude modulation mode (QAM), and target wake-up time (TWT) The innovation of Wi-Fi 6 responds to the requirements of enterprises for high-density performance, and will continue to be the choice of enterprises in these environments. But Wi-Fi has never been a global service. It will continue to provide high-quality coverage locally, and some combinations of 4G and 5g cellular base stations are still options for operators to provide wider coverage.

Note: Beamforming or spatial filtering is a signal processing technique used in the sensor array for directional signal transmission or reception.

Data point 3: Cost issues

Although the industry has been discussing the potential of 5G to replace Wi-Fi as the main tool for providing indoor access, the fact is that cost plays a key role in everything that companies do. For many reasons, replacing Wi-Fi with 5G within an enterprise will be a costly move for many reasons:

● First of all, the price of a cellular base station is several times that of a Wi-Fi access point (WAP), mainly because of the embedded cost of obtaining a cellular technology license.

● Second, supporting multiple operators means deploying multiple layers of 5G small cells instead of a single neutral Wi-Fi host layer.

● Third, client cellular equipment itself is more expensive, not only because of the high cost of hardware (for the same reason, the infrastructure is more expensive), but also because of the high cost of ordering. This is especially worrying for companies that need to connect a large number of IoT devices and sensors.

● Fourth, in order to achieve the same performance as Wi-Fi 6, 5G will need to work in the millimeter wave band, requiring more intensive deployments to establish similar coverage areas. Unlike 4G, 5G provides the best throughput, but it does not provide good mobility.

●Finally, because WAN networks are not backwards compatible, enterprises transitioning from Wi-Fi to 5G WAN networks will need to invest in parallel to support new technology infrastructure or upgrade all equipment immediately.

Data point 4: backward compatibility

With the huge investment in traditional network components and equipment, enterprises must be able to upgrade and depreciate these assets to support the requirements independent of the transition to network infrastructure. This is important. In this respect, the design concepts of IEEE (Wi-Fi) and 3GPP (cellular network) are fundamentally different. For the new generation of Wi-Fi, IEEE has been committed to supporting all old devices and ensuring that they can connect to new infrastructure.

On the other hand, each new generation of cellular technology is a new beginning, which means that engineers engaged in new cellular technology are not bound by the past, and the new 5G network will not support any previous generation equipment. The installed 4G client group will not run on the new 5G network. The spectrum dedicated to 4G networks is not suitable for 5G, although new 5G devices will be able to create the illusion of network continuity by using 4G LTE networks without 5G connections, but this is achieved at the additional cost of each device supporting multiple modems of.

Data point 5: better switching

Although people rely on Wi-Fi and cellular networks and are used to switching back and forth between them, the low mobility between Wi-Fi and cellular networks is always a common experience. During a mobile conference, when entering a building, unless users use the Wi-Fi network with foresight, the loss of cellular coverage usually results in service disruption.

These interferences will be resolved by Wi-Fi 6 and 5G. The 5g core network specification introduces a more complex Wi-Fi network communication method, even if it is managed by a private organization rather than an operator. Wi-Fi networks can share more information with 5G cellular networks, such as coverage, minimum data rate, maximum latency, and current load, enabling the cellular network to make intelligent closed-loop decisions about switching and offloading. The purpose is to make the Wi-Fi 6 local area network look like another node of the integrated network in the cellular network, so these conversions can be performed without any user intervention or knowledge.

Data point 6: Speed and capacity requirements

In the past, Wi-Fi can only support multiple devices on one access point, while Wi-Fi 6 can support more than 1,000 connections at the same time, which is a key factor in the era of the Internet of Things. In the era of the Internet of Things, there are not only more devices, but also more types of devices that need to be managed. 5G will also support more devices than 4G, but its capacity is more limited than Wi-Fi, unless it can make a trade-off between coverage and mobility using high-frequency millimeter waves.

Data point 7: High security

Security is a key area where Wi Fi 6 and 5G are superior to their predecessors. 5G provides security improvements through LTE, including multiple authentication methods, better key management, and traffic encryption. In addition, network slicing will drive finer access control. Wi-Fi 6 provides higher security than the previous generation through the new WPA3 and enhanced open security standards. These standards provide stronger encryption functions and simpler IoT security configurations. The enhanced openness complements the security provided by WPA3. WPA3 improves data confidentiality while maintaining the ease of use of open public networks such as cafes, airports, and stadiums. These networks will encrypt connections without requiring user authentication .

Wi-Fi and cellular networks have become key drivers in an increasingly mobile world. With the rise of the Internet of Things, cloud computing and edge computing, this connection is more important than ever. In this environment, although Wi-Fi 6 and 5G are different in many ways, they will play a complementary role to jointly create a more complete ubiquitous, safe and reliable connection picture, which is tens of billions in the world. It is indispensable in IoT devices. Here, you can access storage applications and data can be seamlessly transmitted and stored anywhere, and emerging technologies such as artificial intelligence and big data analytics will change the way businesses operate.

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