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45.09% CAGR for Millimeter Wave Technology Market Forecast for 2020, Says a New Industry Research Report Available With RnRMarketResearch.com

DALLAS, August 12, 2014 /PRNewswire/ --

The global millimeter wave technology revenue market is expected to reach $208.12 million by the end of 2014 and is expected to grow to $1.9 billion in 2020 at a CAGR of 45.09%. Similarly, volumes are estimated to grow from 22.48 thousand units to close 700 thousand units in 2020. This growth is heralded by the growing telecom application market for millimeter wave technology, especially in the small cell backhaul field. The millimeter wave scanner market is also expected to grow rapidly in the coming five years.

The Total Addressable Market (TAM) for millimeter wave technology is estimated to grow from $5.8 billion in 2014 to roughly $12.2 billion in 2020. The TAM for millimeter wave technology has been calculated by the addition of the TAMs for each of the application markets. Thus, the market penetration of millimeter wave technology into this TAM stands at 3.54% in 2014 and is expected to grow to 15.81% by 2020.

The major players in this market are BridgeWave Communications, Inc. (U.S.), E-Band Communications Corporation (U.S.), Vubiq, Inc. (Israel), Millivision Technologies (U.S), and others. Complete report titled "Millimeter Wave Technology Market by Components (Sensors, Radio, Networking), Products (MM Scanners, MM RADARs, MM Small Cells), Applications (Communications, Aerospace, Healthcare, Automotive, Industrial) - Analysis & Forecast to 2020" is available at http://www.rnrmarketresearch.com/millimeter-wave-mm-wave-market-by-technology-components-frequency-imaging-radio-products-mm-scanners-mm-radars-mm-macrosmall-cell-backhaul-applications-telecommunication-healthcare-market-report.html .

This report is focused on giving a bird's eye-view of the complete millimeter wave industry with regards to the products market with detailed market segmentations; combined with qualitative analysis at each and every aspect of the classifications done by semiconductors, components, frequency bands, frequency licensing nature, products, application verticals (sectors), sub-applications, and geography. All the numbers, both - revenue and volume, at every level of detail, are forecast till 2020 to give a glimpse of the potential revenue base in this market.

In the aspect of components, the report focuses on global markets for all types of MM Wave components that are integrated into all types of millimeter wave products. Emphasis is given on the breakdown of MM Wave product's price into components and detailed analysis of each of the component markets - Antennas and Transceiver components, Communication and Networking components, Interface components, Frequency Sources, Oscillators, Mixers, Imaging components, RF and Radio components, Sensing and Control components, Power and Battery Components, and others, is done to assess revenue potential in each of the component markets.

From frequency perspectives, the report has an in-depth segmentation of the MM Wave technology market by frequency bands ranging from 8 GHz to 300 GHz, sub-segmenting the market into sub-markets for every frequency band, till the bottom-most level. In-depth segmentation of the MM Wave technology market into markets for unlicensed, light-licensed, and fully-licensed frequency spectrums is also done, added with analysis of expected growth rates and forecasts of the market in each category.

Companies profiled in Millimeter Wave Technology Market 2014-2020 research report include Bridgewave Communications, Inc., Millitech Inc., Millimeter Wave Products Inc., Vubiq, Inc., Aviat Networks, Inc., E-Band Communications, LLC, Farran Technology Ltd., Millivision Technologies, Agilent Technologies, Inc. and Sage Millimeter, Inc. Order a copy of this research at http://www.rnrmarketresearch.com/contacts/purchase?rname=88489 .

The report's purview of millimeter wave products encompasses the distinct fields of Mobile and Telecommunication products, Scanning and Imaging products, and RADAR and Satellite Communication products. All three product markets, due to the distinct nature of the fields in every aspect, are analyzed separately with the sub-segmentation of the market in each category into the sub-markets for every type of product available commercially. Growth rates and forecasts of each of the markets are analyzed with cross-comparisons in extensive detail to give a complete picture of the millimeter wave technology's revenue potential.

The report also focuses on various geographical markets for millimeter wave products and on the major geographical revenue bases and gives the market forecasts and estimates by the major geographical regions - North America, Europe, Asia-Pacific, and Rest of the World. Each of the major geographical markets is sub-segmented by the major countries and economies - The U.S. and the other countries for North America, the U.K., and Germany; France for Europe; China, India, South Korea, and Japan for Asia-Pacific; and Latin America, Middle East, and the other countries for the Rest of the World.

A competitive landscape of the current market is analyzed by three distinct market share analysis - one each for MM Wave products market in telecommunication applications, millimeter wave products market in imaging and scanning applications, the global MM Wave components market with the overall company revenue, revenue from respective millimeter wave market, corresponding market shares, and market share rankings of the key players as of 2012.

Key focus areas of the major players and corresponding influential factors on the market are also given with the analysis of the levels of activities and the impact of each factor on the current market. All the other details of the key players in the entire value chain, such as key products, launches, technologies, industry partners, financials, and growth strategies, are discussed in the extensive company profiles section covering product manufacturers, component manufacturers, key solution providers, and the other key players in the value chain, along those of complementary technologies such as Microwave technology.

The report also analyzes the market by discussing the market dynamics such as its growth influencing factors, drivers, restraints, opportunities, burning issues, winning imperatives, Porter's five forces, and other market trends including comparative analysis with the major corresponding technology - Microwave industry. The product and component prices and the price dynamics of each type of MM Wave device, in several major application segments, have been discussed and analyzed in brief, with an emphasis on dynamics of price changing factors.

Global Visible Light Communication (VLC)/Light Fidelity (Li-Fi) & Free Space Optics (FSO) Market 2014-2020 research report is of 250 pages and got published in July 2014. It says the VLC market is expected to get more value due to its wide range of applications. The communication application is generating high revenue in the VLC technology market. Whereas, healthcare and automotive application is growing with highest CAGR as compared to other applications. The VLC technology has higher market share in developing economy like APAC. However, Europe is estimated to grow with at a highest rate in the projected years. Companies profiled in this research include Bytelight Inc., Casio Computer Co. Ltd., FSOna Networks Corp., Gallium Lighting LLC, Ibsentelecom, Lightpointe Communications Inc., LSA Inc., LVX System, Nakagawa Laboratories Inc., Oledcomm - France Lifi, Outstanding Technology Co. Ltd., Purelifi Ltd., Society FOR Optical Communications Systems Ltd., Supreme Architecture Inc. and Wireless Excellence Ltd. Complete report is available at http://www.rnrmarketresearch.com/visible-light-communication-vlcli-fi-technology-free-space-optics-fso-market-2013-2018-by-component-led-image-sensor-opto-couplers-application-indoor-networking-underwater-co-market-report.html .

Mobile and Wireless Backhaul Market [by Equipment (Microwave, Millimeter Wave, Sub 6 Ghz, Test And Measurement), by Services (Network, System Integration, Professional)] - Worldwide Market Forecasts and Analysis (2013 - 2018) is a Nov 2013 publication of 200 pages. Profiling companies like Alcatel-Lucent, Broadcom Corporation, Brocade, Cisco, Ericsson, Fujitsu, Huawei, JDSU, NEC, Nokia Siemens Networks, Orange Telecom, Telco Systems, Tellabs, Vitesse Semiconductor and ZTE, this research is available at http://www.rnrmarketresearch.com/mobile-and-wireless-backhaul-market-by-equipment-microwave-millimeter-wave-sub-6-ghz-test-and-measurement-by-services-network-system-integration-professional-worldwide-market-forecasts-a-market-report.html .

List Of Tables provided in global millimeter wave technology market 2014-2020 research report include:

Table 1 Millimeter Wave Technology Market Revenue, By Geography, 2013 - 2020 ($Million)

Table 2 Global (Products) Market Revenue And Volume Year-On-Year Growths, 2013 - 2020

Table 3 Global Semiconductors Vs. Products Market Revenue, 2013 - 2020 ($Million)

Table 4 Global Semiconductors Vs. Products Market Volume, 2013 - 2020 (Thousand Units)

Table 5 Global Shf Vs. Ehf Technology Market Revenue, 2013 - 2020 ($Million)

Table 6 Global Shf Vs. Ehf Technology Market Volume, 2013 - 2020 (Thousand Units)

Table 7 Global Millimeter Wave Vs. Microwave Technology Market Revenue, 2013 - 2020 ($Million)

Table 8 Global Millimeter Wave Technology Market Revenue From Tam And Market Penetration, 2013 - 2020 ($Million)

Table 9 Global Market Revenue From Sam And Market Penetration, 2013 - 2020 ($Million)

Table 10 Global Market Revenue From Som And Market Penetration, 2013 - 2020 ($Million)

Table 11 Global Mobile Back-Haul Data Traffic Volume (Terabytes Per Month) Vs. Mm Wave Telecom Equipment Volume (Thousand Units), 2013 - 2020

Table 12 Millimeter Wave Technology Market - Cost & Pricing Analysis Of Various Products ($Usd), 2013 - 2020

Table 13 Components Market - Cost & Pricing Analysis Of Various Components Per Equipment ($Usd), 2013 - 2020

Table 14 Market - Cost & Pricing Analysis In Various Application Sectors ($), 2013-2020

Table 15 Market - Cost & Pricing Analysis In Various Individual Applications ($Usd), 2013 - 2020

Table 16 E-Band License Structure In Different Countries

Table 17 Quantification Of Overall Poter's Analysis

Table 18 Quantification Of The Bargaining Power Of Suppliers

Table 19 Quantification Of The Bargaining Power Of Buyers

Table 20 Quantification Of Threat From New Entrants

Table 21 Quantification Of Threat From Substitutes

Table 22 Quantification Of The Degree Of Competition

Table 23 Quantification Of Effect Of Complementors

Table 24 Global Mm Wave Components Market Revenue, By Type Of Component, 2013 - 2020 ($Million)

Table 25 Global Mm Wave Components Market Volume, By Type Of Component, 2013 - 2020 (Thousand Units)

Table 26 Global Millimeter Wave Technology Market Revenue By Frequency Range , 2013 - 2020 ($Million)

Table 27 Global Millimeter Wave Technology Market Volume By Frequency Range , 2013 - 2020 (Thousand Units)

Table 28 Global 8 Ghz To 43 Ghz Millimeter Wave Technology Market Revenue By Frequency Bands, 2013 - 2020 ($Million)

Table 29 Global 8 Ghz To 43 Ghz Mm Wave Technology Market Volume, By Frequency Bands, 2013 - 2020 (Thousand Units)

Table 30 Global 43 Ghz To 80 Ghz Millimeter Wave Technology Market Revenue, By Frequency Range, 2013 - 2020 ($Million)

Table 31 Global 43 Ghz To 80 Ghz Millimeter Wave Technology Market Volume, By Frequency Range, 2013 - 2020 (Thousand Units)

Table 32 Global 80 Ghz To 300 Ghz Mm Wave Technology Market Revenue, By Frequency Range ($Million), 2013 - 2020

Table 33 Global 80 Ghz To 300 Ghz Millimeter Wave Technology Market Volume, By Frequency Range, 2013 - 2020 (Thousand Units)

Table 34 Global 95ghz To 300 Ghz Millimeter Wave Technology Market Revenue, By Frequency Range, ($Million),2013 - 2020

Table 35 Global 95ghz To 300 Ghz Millimeter Wave Technology Market Volume, By Frequency Range, (Thousand Units),2013 - 2020

Table 36 Global Millimeter Wave Technology Market Revenue, By Frequency Band Licenses, 2013- 2020 ($Million)

Table 37 Global Millimeter Wave Technology Market Volume, By Frequency Band Licenses, 2013 - 2020 (Thousand Units)

Table 38 Global Fully-Licensed Mm Wave Technology Market Revenue, By Frequency Bands, 2013 - 2020 ($Million)

Table 39 Global Millimeter Wave Technology Fully-Licensed Millimeter Wave Technology Market Volume By Frequency Bands, 2013 - 2020 (Thousand Units)

Table 40 Global Millimeter Wave Technology Light-Licensed Market Revenue, By Frequency Bands, 2013 - 2020 ($Million)

Table 41 Global Light-Licensed Market Volume, By Frequency Bands, 2013-2020 (Thousand Units)

Table 42 Global Unlicensed Mm Wave Technology Market Revenue, By Frequency Bands, 2013 - 2020 ($Million)

Table 43 Global Unlicensed Market Volume, By Frequency Bands, 2013 - 2020 (Thousand Units)

Table 44 Global Market Revenue, By Products, 2013 - 2020 ($Million)

Table 45 Global Market Volume, By Products 2013 - 2020 (Thousand Units)

Table 46 Global Mm Scanners & Imaging Systems Market Revenue, By Products 2013- 2020 ($Million)

Table 47 Global Mm Scanners & Imaging Systems Market Volume, By Products 2013 - 2020 (Thousand Units)

Table 48 Global Mm Radar & Satellite Communication Systems Market Revenue By Products, 2013 - 2020($Million)

Table 49 Global Mm Radar & Satellite Communication Systems Market Volume, By Products 2013 - 2020 (Thousand Units)

Table 50 Global Mm Telecommunication Equipment Market Revenue, By Products, 2013 - 2020 ($Million)

Table 51 Global Mm Telecommunication Equipment Market Volume, By Products, 2013 - 2020 (Thousand Units)

Table 52 Global Mm Mobile Back-Haul Equipment Market Revenue, By Products, 2013 - 2020 ($Million)

Table 53 Global Mm Mobile Back-Haul Equipment Market Volume, By Products, 2013 - 2020 (Thousand Units)

Table 54 Global Mm Wave Mobile Back-Haul - Ratio Of Number Of Small Cells Vs. Macrocells, 2013 - 2020

Table 55 Global Mm Small-Cell Back-Haul Equipment Market Revenue, By Products, 2013 - 2020 ($Million)

Table 56 Global Mm Small-Cell Back-Haul Equipment Market Volume, By Products, 2013 - 2020 (Thousand Units)

Table 57 Global Millimeter Wave Technology Market Revenue, By Application Sectors, 2013-2020 ($Million)

Table 58 Global Millimeter Wave Technology Market Volume, By Application Sectors, 2013-2020 (Thousand Units)

Table 59 Global Millimeter Wave Technology Market Revenue From Mobile & Telecommunication Sector By Applications, 2013-2020 ($Million)

Table 60 Global Market Volume In Mobile & Telecommunication Sector, By Applications 2013-2020 (Thousand Units)

Table 61 Global Millimeter Wave Technology Market Revenue From Consumer & Commercial Sector By Applications, 2013-2020 ($Million)

Table 62 Global Millimeter Wave Technology Market Volume In Consumer & Commercial Sector, By Applications, 2013-2020 (Thousand Units)

Table 63 Global Airport Scanning & Security Market Revenue, By Technology, 2013-2020 ($Million)

Table 64 Global Airport Scanning & Security Market Volume, By Technology, 2013-2020 (Thousand Units)

Table 65 Global Millimeter Wave Technology Market Revenue From Healthcare Sector By Applications 2013-2020 ($Million)

Table 66 Global Millimeter Wave Technology Market Volume In Healthcare Sector, By Applications, 2013-2020 (Thousand Units)

Table 67 Global Millimeter Wave Technology Market Revenue From Industrial Sector, By Applications 2013-2020 ($Million)

Table 68 Global Millimeter Wave Technology Market Volume In Industrial Sector, By Applications, 2013-2020 (Thousand Units)

Table 69 Global Millimeter Wave Technology Market Revenue From Automotive & Transportation Sector, By Applications, 2013-2020 ($Million)

Table 70 Global Millimeter Wave TechnologyMarket Volume In Industrial Sector, By Applications, 2013-2020 (Thousand Units)

Table 71 Global Millimeter Wave Technology Market Revenue From Military, Defense & Aerospace Sector, By Applications, 2013-2020 ($Million)

Table 72 Global Market Volume In Military, Defense & Aerospace Sector, By Applications, 2013-2020 (Thousand Units)

Table 73 Market Revenue, By Geography, 2013 - 2020 ($Million)

Table 74 Market Volume, By Geography, 2013 - 2020 (Thousand Units)

Table 75 North America: Mm Wave Technology Market Revenue, By Region, 2013 - 2020 ($Million)

Table 76 North America: Millimeter Wave Technology Market Volume, By Region, 2013 - 2020 (Thousand Units)

Table 77 Europe: Mm Wave Technology Market Revenue, By Region, 2013 - 2020 ($Million)

Table 78 Europe: Millimeter Wave Technology Market Volume, By Region, 2013 - 2020 (Thousand Units)

Table 79 Asia-Pacific: Mm Wave Technology Market Revenue, By Region , 2013 - 2020 ($Million)

Table 80 Asia-Pacific: Market Volume, By Region, 2013 - 2020 (Thousand Units)

Table 81 Rest Of The World: Mm Wave Technology Market Revenue, By Region, 2013 - 2020 ($Million)

Table 82 Rest Of The World: Millimeter Wave Technology Market Volume, By Region, 2013 - 2020 (Thousand Units)

Table 83 Global Mm Wave Ecosystem - Key Players

Table 84 Global Market In Telecommunication Applications - Market Share Analysis, 2013

Table 85 Global Mm Wave Components Market - Market Share Analysis, 2013

Table 86 Global Market In Imaging & Scanning Applications - Market Share Analysis, 2013

Table 87 Products Offered By Agilent Technologies

List Of Figures provided in global millimeter wave technology market 2014-2020 research report include:

Figure 1 Market Investment Analysis

Figure 2 Mm Wave Industry Monetary Chain & Market Scope

Figure 3 Millimeter Wave Technology - Market Aspects Covered

Figure 4 Research Methodology

Figure 5 Market Size Estimation Methodology

Figure 6 Data Triangulation Methodology

Figure 7 Market Forecasting Model

Figure 8 Global Millimeter Wave Technology (Products) Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 9 Market Overview - Tree Structure

Figure 10 Global Millimeter Wave Technology (Products) Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 11 Mm Wave Industry Revenue Breakdown (With Forecasts)- 2013 & 2020

Figure 12 Global Mm Wave Technology Semiconductors Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 13 3 To 300 Ghz Frequency - Total Market Technology Landscape, 2013 & 2020

Figure 14 Global 3 To 300 Ghz Frequency Based Technologies Market Revenue By Frequency Type, 2014 - 2020 (% Shares)

Figure 15 Global 3 To 300 Ghz Frequency Based Technologies Market Volume By Frequency Type, 2014 - 2020 (% Shares)

Figure 16 Global Microwave Technology (Products) Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 17 Global Market Revenue ($Million), Tam And Market Penetration Year-On-Year Growth Rates (%), 2013 - 2020

Figure 18 Global Mobile Data Traffic Volume Per Month (Exa Bytes), 2013 - 2020

Figure 19 Global Wigig & 60 Ghz Wireless Technology Chipsets Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 20 Global Full-Body Scanners Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 21 Industry Analysis - Tree Structure

Figure 22 Mm Wave Industry Value Chain

Figure 23 Millimeter Wave Technology Components Market - Value (Price) Share Of Various Components Per Average Product, 2014 - 2020 (% Shares)

Figure 24 Market Investment Analysis

Figure 25 Market Analysis - Tree Structure

Figure 26 Market Drivers - Impact Analysis

Figure 27 Market Restraints - Impact Analysis

Figure 28 Supply & Demand-Side Factor Analysis

Figure 29 Microwave To Millimeter Wave - Industry Shift - Push-Pull Force Analysis

Figure 30 Frequency Bands Technology-Wise Impact Analysis

Figure 31 Technology-Wise Impact On High Frequency Scanning & Imaging Applications Market

Figure 32 Market Stages Of Mm Wave Products - 2014

Figure 33 Porters Analysis For The Millimeter Wave Technology Market

Figure 34 Supplier Bargaining Power In The Millimeter Wave Technology Market

Figure 35 Buyer Bargaining Power In The Millimeter Wave Technology Market

Figure 36 Threat From New Entrants In The Millimeter Wave Technology Market

Figure 37 Threat From Substitutes In The Millimeter Wave Technology Market

Figure 38 Degree Of Competition In The Millimeter Wave Technology Market

Figure 39 Complementors In The Millimeter Wave Technology Market

Figure 40 Porter's Analysis For The Millimeter Wave Technology Market-2014

Figure 41 Porter's Analysis For The Millimeter Wave Technology Market-2016

Figure 42 Porter's Analysis For The Millimeter Wave Technology Market-2020

Figure 43 Global Mm Wave Components Market Revenue By Type Of Component (Percentage Shares), 2014-2020

Figure 44 Global Mm Wave Components Market Volume By Type Of Component (Percentage Shares), 2014-2020

Figure 45 Global Mm Wave Antennas & Transceiver Components Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 46 Global Mm Wave Communication & Networking Components Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 47 Global Mm Wave Interface Components Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 48 Global Mm Wave Frequency Sources & Related Components Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 49 Global Mm Wave Imaging Components Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 50 Global Mm Wave Rf & Radio Components Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 51 Global Mm Wave Sensing & Control Components Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 52 Global Mm Wave Power & Battery Components Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 53 Global Mm Wave Other Components Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 54 Market By Frequency Characteristics - Tree Structure

Figure 55 Global Market Revenue By Frequency, 2014 - 2020 (% Shares)

Figure 56 Global Market Volume By Frequency, 2014 - 2020 (% Shares)

Figure 57 Global 8 Ghz To 43 Ghz Frequency Mm Wave Technology Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 58 Global 8 Ghz To 43 Ghz Mm Wave Technology Market Revenue By Frequency Bands, 2014 - 2020 (% Shares)

Figure 59 Global 8 Ghz To 43 Ghz Market Volume By Frequency Bands, 2014 - 2020 (% Shares)

Figure 60 Global 23 Ghz To 38 Ghz Frequency Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 61 Global 38 Ghz To 43 Ghz Frequency Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 62 Global 43 Ghz To 80 Ghz Frequency Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 63 Global 43 Ghz To 80 Ghz Mm Wave Technology Market Revenue, By Frequency Bands, 2013 - 2020 (% Shares)

Figure 64 Global 43 Ghz To 80 Ghz Market Volume By Frequency Bands, 2014 - 2020 (% Shares)

Figure 65 Global 57 Ghz To 64 Ghz Frequency (Unlicensed E-Band) Mm Wave Technology Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 66 Global 71 Ghz To 76 Ghz Frequency (Licensed E-Band) Mm Wave Technology Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 67 Global 80 Ghz To 300 Ghz Frequency Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 68 Global 80 Ghz To 300 Ghz Market Revenue By Frequency Bands, 2014 - 2020 (% Shares)

Figure 69 Global 80 Ghz To 300 Ghz Market Volume By Frequency Bands, 2014 - 2020 (% Shares)

Figure 70 Global 81 Ghz To 86 Ghz Frequency (Unlicensed E-Band) Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 71 Global 92 Ghz To 95 Ghz Frequency (Licensed E-Band) Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 72 Global 95 Ghz To 300 Ghz Frequency Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 73 Global Market Revenue By Frequency Band Licenses (Percentage Shares), 2014-2020

Figure 74 Global Market Volume By Frequency Band Licenses, 2014 - 2020(% Shares)

Figure 75 Global Fully-Licensed Frequency Band Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 76 Global Light-Licensed Frequency Band Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 77 Global Unlicensed Frequency Band Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 78 Market By Products - Tree Structure

Figure 79 Global Market Revenue By Products (Percentage Shares), 2014 - 2020

Figure 80 Global Market Volume By Products (Percentage Shares), 2014 - 2020

Figure 81 Global Mm Scanners & Imaging Systems Market Revenue ($Million) And Volume (Thousand Units), 2014 - 2020

Figure 82 Global Mm Scanners & Imaging Systems Market Revenue By Products (Percentage Shares), 2014-2020

Figure 83 Global Mm Scanners & Imaging Systems Market Volume By Products (Percentage Shares), 2014-2020

Figure 84 Global Mm Active Scanning & Imaging Systems Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 85 Global Mm Passive Scanning & Imaging Systems Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 86 Global Mm Radar & Satellite Communication Systems Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 87 Global Mm Radar & Satellite Communication Systems Market Revenue By Products (Percentage Shares), 2014-2020

Figure 88 Global Mm Radar & Satellite Communication Systems Market Volume, By Products 2014 - 2020 (% Share)

Figure 89 Global Mm Perimeter & Surveillance Radar Systems Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 90 Global Mm Wave Application Specific Radar Systems Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 91 Global Mm Wave Satellite Communication Systems Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 92 Global Mm Telecommunication Equipment Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 93 Global Mm Telecommunication Equipment Market Revenue By Products, 2014 - 2020 (%Share)

Figure 94 Global Mm Telecommunication Equipment Market Volume, By Products, 2014 - 2020 (% Share)

Figure 95 Global Mm Wave Mobile Back-Haul Equipment Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 96 Global Mm Mobile Back-Haul Equipment Market Revenue By Products, 2014 - 2020 (% Shares)

Figure 97 Global Mm Mobile Back-Haul Equipment Market Volume By Products, 2014 - 2020 (% Shares)

Figure 98 Global Mm Macrocell Mobile Back-Haul Equipment Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 99 Schematic Of Small Cells And Small Cell Backhaul

Figure 100 Global Mm Small-Cell Mobile Back-Haul Equipment Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 101 Global Mm Small-Cell Back-Haul Equipment Market Revenue By Products, 2014 - 2020 (% Share)

Figure 102 Global Mm Small-Cell Back-Haul Equipment Market Volume By Products, 2014 - 2020 (% Share)

Figure 103 Global Mm Pico-Cell Mobile Back-Haul Equipment Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 104 Global Mm Femtocell Mobile Back-Haul Equipment Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 105 Global Mm Other Networking Equipment Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 106 Market By Application - Tree Structure

Figure 107 Global Mm Wave Technology Market Revenue ($Billion) And Volume (Billion Units) In Mobile & Telecommunication Sector, 2013-2020

Figure 108 As Global Mm Wave Technology Market Revenue From Mobile & Telecommunication Sector By Application, 2013-2020 (% Shares)

Figure 109 Global Mm Wave Technology Market Volume In Mobile & Telecommunication Sector By Application, 2013-2020 (% Shares)

Figure 110 Global Mm Wave Technology Market Revenue ($Million) And Volume (Million Units) In Mobile Back-Haul Applications, 2013-2020

Figure 111 Global Mm Wave Technology Market Revenue ($Million) And Volume (Million Units) In Enterprise Broadband Network Applications, 2013-2020

Figure 112 Global Mm Wave Technology Market Revenue From Consumer & Commercial Sector By Application, 2013-2020 (% Shares)

Figure 113 Global Mm Wave Technology Market Volume In Consumer & Commercial Sector By Application, 2013- 2020 (% Shares)

Figure 114 Global Mm Wave Technology Market Revenue ($Billion) And Volume (Billion Units) In Consumer & Commercial Sector, 2013-2020

Figure 115 Global Mm Wave Technology Market Revenue ($Million) And Volume (Million Units) In Wireless Sensor Networking (Wsn) Applications, 2013-2020

Figure 116 Global Airport Scanning & Security Market Revenue, By Technology, 2013-2020 (% Shares)

Figure 117 Global Airport Scanning & Security Market Volume Segmentation By Technology, 2013-2020 (% Shares)

Figure 118 Global Mm Wave Technology Market Revenue ($Million) And Volume (Million Units) In Airport Scanning & Security Applications, 2013-2020

Figure 119 Global Mm Wave Technology Market Revenue ($Million) And Volume (Million Units) In Commercial Building & Event Security Applications, 2013-2020

Figure 120 Global Mm Wave Technology Market Revenue ($Million) And Volume (Million Units) In Residential & Institutional Security Applications, 2013-2020

Figure 121 Global Mm Wave Technology Market Revenue ($Billion) And Volume (Billion Units) In Healthcare Sector, 2013-2020

Figure 122 Global Mm Wave Technology Market Revenue From Healthcare Sector By Application, 2014- 2020 (% Shares)

Figure 123 Global Mm Wave Technology Market Volume In Healthcare Sector, By Applications, 2014-2020 (% Shares)

Figure 124 Global Market Revenue ($Million) And Volume (Million Units) In Medical Imaging & Scanning Applications, 2013-2020

Figure 125 Global Market Revenue ($Million) And Volume (Million Units) In Healthcare Facilities Applications, 2013-2020

Figure 126 Global Market Revenue ($Billion) And Volume (Billion Units) In Industrial Sector, 2013-2020

Figure 127 Global Market Revenue From Industrial Sector, By Application, 2013- 2020 (% Shares)

Figure 128 Global Mm Wave Technology Market Volume In Industrial Sector By Application, 2013-2020 (% Shares)

Figure 129 Global Market Revenue ($Million) And Volume (Million Units) In Industrial Automation Applications, 2013-2020

Figure 130 Global Market Revenue ($Million) And Volume (Million Units) In Industrial Wireless Sensor Network Applications, 2013-2020

Figure 131 Global Market Revenue ($Billion) And Volume (Billion Units) In Automotive & Transportation Sector, 2013-2020

Figure 132 Global Market Revenue From Automotive & Transportation Sector By Application, 2013-2020 (% Shares)

Figure 133 Global Mm Wave Technology Market Volume In Industrial Sector By Application, 2013-2020 (% Shares)

Figure 134 Global Market Revenue ($Million) And Volume (Million Units) In Automotive Radar Applications, 2013-2020

Figure 135 Global Market Revenue ($Million) And Volume (Million Units) In Marine Radar Applications, 2013-2020

Figure 136 Global Market Revenue ($Billion) And Volume (Billion Units) In Military, Defense & Aerospace Sector, 2013-2020

Figure 137 Global Market Revenue ($Million) And Volume (Million Units) In Military, Defense & Aerospace Radar Applications, 2013-2020

Figure 138 Global Market Revenue ($Million) And Volume (Million Units) In Satellite Communication Applications, 2013-2020

Figure 139 Global Market Revenue ($Billion) And Volume (Billion Units) In Emerging, Next Generation & Other Applications, 2013-2020

Figure 140 Market By Geography - Tree Structure

Figure 141 North America: Mm Wave Technology Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 142 North America: Market Revenue By Country (Percentage Shares), 2014-2020

Figure 143 North America: Market Volume, By Country, 2014 - 2020 (% Shares)

Figure 144 U.S: Mm Wave Technology Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 145 Other Countries Of North America: Market In North America Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 146 Europe: Mm Wave Technology Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 147 Europe: Market Revenue By Country, 2014 - 2020 (% Shares)

Figure 148 Europe: Market Volume, By Region, 2014 - 2020 (% Shares)

Figure 149 U.K.: Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 150 Germany: Mm Wave Technology Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 151 France: Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 152 Other Countries Of Europe: Mm Wave Technology Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 153 Asia-Pacific: Mm Wave Technology Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 154 Asia-Pacific: Market Revenue, By Country, 2014 - 2020 (% Shares)

Figure 155 Asia Pacific: Market Volume By Country, 2014 - 2020 (% Shares)

Figure 156 China: Mm Wave Technology Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 157 Japan: Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 158 South Korea: Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 159 India: Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 160 Other Countries Of Apac: Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 161 Row: Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 162 Rest Of The World: Market Revenue By Region, 2014 - 2020 (% Shares)

Figure 163 Rest Of The World: Market Volume, By Country, 2014 - 2020 (% Shares)

Figure 164 Latin America: Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 165 Middle East: Market Revenue ($Million) And Volume (Thousand Units), 2013 - 2020

Figure 166 Other Countries In Rest Of The World: Market Revenue ($Million) And Volume (Million Units), 2013 - 2020

Figure 167 Market Competitive Landscape - Tree Structure

Figure 168 Global Mm Wave Technology Market In Telecommunication Applications - Market Shares, 2013

Figure 169 Global Mm Wave Components Market - Market Shares, 2013

Figure 170 Global Market In Imaging & Scanning Applications - Market Shares, 2013

Figure 171 Bridgewave Communications, Inc.: Company Snapshot

Figure 172 Bridgewave Communications, Inc.: Swot Analysis

Figure 173 Millitech Inc.: Company Snapshot

Figure 174 Millimeter Wave Products Inc.: Company Snapshot

Figure 175 Vubiq, Inc.: Company Snapshot

Figure 176 Aviat Networks, Inc.: Company Snapshot

Figure 177 E-Band Communications, Llc: Company Snapshot

Figure 178 E-Band Communications, Llc: Swot Analysis

Figure 179 Farran Technology Ltd: Company Snapshot

Figure 180 Millivision Technologies: Company Snapshot

Figure 181 Agilent Technologies, Inc. : Company Snapshot

Figure 182 Sage Millimeter, Inc. : Company Snapshot

Explore more reports on electronics industry at http://www.rnrmarketresearch.com/reports/information-technology-telecommunication/electronics .

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@ThingsExpo Stories
All major researchers estimate there will be tens of billions devices – computers, smartphones, tablets, and sensors – connected to the Internet by 2020. This number will continue to grow at a rapid pace for the next several decades. With major technology companies and startups seriously embracing IoT strategies, now is the perfect time to attend @ThingsExpo in Silicon Valley. Learn what is going on, contribute to the discussions, and ensure that your enterprise is as "IoT-Ready" as it can be!
Noted IoT expert and researcher Joseph di Paolantonio (pictured below) has joined the @ThingsExpo faculty. Joseph, who describes himself as an “Independent Thinker” from DataArchon, will speak on the topic of “Smart Grids & Managing Big Utilities.” Over his career, Joseph di Paolantonio has worked in the energy, renewables, aerospace, telecommunications, and information technology industries. His expertise is in data analysis, system engineering, Bayesian statistics, data warehouses, business intelligence, data mining, predictive methods, and very large databases (VLDB). Prior to DataArchon, he served as a VP and Principal Analyst with Constellation Group. He is a member of the Boulder (Colo.) Brain Trust, an organization with a mission “to benefit the Business Intelligence and data management industry by providing pro bono exchange of information between vendors and independent analysts on new trends and technologies and to provide vendors with constructive feedback on their of...
Software AG helps organizations transform into Digital Enterprises, so they can differentiate from competitors and better engage customers, partners and employees. Using the Software AG Suite, companies can close the gap between business and IT to create digital systems of differentiation that drive front-line agility. We offer four on-ramps to the Digital Enterprise: alignment through collaborative process analysis; transformation through portfolio management; agility through process automation and integration; and visibility through intelligent business operations and big data.
There will be 50 billion Internet connected devices by 2020. Today, every manufacturer has a propriety protocol and an app. How do we securely integrate these "things" into our lives and businesses in a way that we can easily control and manage? Even better, how do we integrate these "things" so that they control and manage each other so our lives become more convenient or our businesses become more profitable and/or safe? We have heard that the best interface is no interface. In his session at Internet of @ThingsExpo, Chris Matthieu, Co-Founder & CTO at Octoblu, Inc., will discuss how these devices generate enough data to learn our behaviors and simplify/improve our lives. What if we could connect everything to everything? I'm not only talking about connecting things to things but also systems, cloud services, and people. Add in a little machine learning and artificial intelligence and now we have something interesting...
Last week, while in San Francisco, I used the Uber app and service four times. All four experiences were great, although one of the drivers stopped for 30 seconds and then left as I was walking up to the car. He must have realized I was a blogger. None the less, the next car was just a minute away and I suffered no pain. In this article, my colleague, Ved Sen, Global Head, Advisory Services Social, Mobile and Sensors at Cognizant shares his experiences and insights.
We are reaching the end of the beginning with WebRTC and real systems using this technology have begun to appear. One challenge that faces every WebRTC deployment (in some form or another) is identity management. For example, if you have an existing service – possibly built on a variety of different PaaS/SaaS offerings – and you want to add real-time communications you are faced with a challenge relating to user management, authentication, authorization, and validation. Service providers will want to use their existing identities, but these will have credentials already that are (hopefully) irreversibly encoded. In his session at Internet of @ThingsExpo, Peter Dunkley, Technical Director at Acision, will look at how this identity problem can be solved and discuss ways to use existing web identities for real-time communication.
From telemedicine to smart cars, digital homes and industrial monitoring, the explosive growth of IoT has created exciting new business opportunities for real time calls and messaging. In his session at Internet of @ThingsExpo, Ivelin Ivanov, CEO and Co-Founder of Telestax, will share some of the new revenue sources that IoT created for Restcomm – the open source telephony platform from Telestax. Ivelin Ivanov is a technology entrepreneur who founded Mobicents, an Open Source VoIP Platform, to help create, deploy, and manage applications integrating voice, video and data. He is the co-founder of TeleStax, an Open Source Cloud Communications company that helps the shift from legacy IN/SS7 telco networks to IP-based cloud comms. An early investor in multiple start-ups, he still finds time to code for his companies and contribute to open source projects.
Can call centers hang up the phones for good? Intuitive Solutions did. WebRTC enabled this contact center provider to eliminate antiquated telephony and desktop phone infrastructure with a pure web-based solution, allowing them to expand beyond brick-and-mortar confines to a home-based agent model. It also ensured scalability and better service for customers, including MUY! Companies, one of the country's largest franchise restaurant companies with 232 Pizza Hut locations. This is one example of WebRTC adoption today, but the potential is limitless when powered by IoT. Attendees will learn real-world benefits of WebRTC and explore future possibilities, as WebRTC and IoT intersect to improve customer service.
The Internet of Things (IoT) promises to create new business models as significant as those that were inspired by the Internet and the smartphone 20 and 10 years ago. What business, social and practical implications will this phenomenon bring? That's the subject of "Monetizing the Internet of Things: Perspectives from the Front Lines," an e-book released today and available free of charge from Aria Systems, the leading innovator in recurring revenue management.
The Internet of Things will put IT to its ultimate test by creating infinite new opportunities to digitize products and services, generate and analyze new data to improve customer satisfaction, and discover new ways to gain a competitive advantage across nearly every industry. In order to help corporate business units to capitalize on the rapidly evolving IoT opportunities, IT must stand up to a new set of challenges.
There’s Big Data, then there’s really Big Data from the Internet of Things. IoT is evolving to include many data possibilities like new types of event, log and network data. The volumes are enormous, generating tens of billions of logs per day, which raise data challenges. Early IoT deployments are relying heavily on both the cloud and managed service providers to navigate these challenges. In her session at 6th Big Data Expo®, Hannah Smalltree, Director at Treasure Data, to discuss how IoT, Big Data and deployments are processing massive data volumes from wearables, utilities and other machines.
P2P RTC will impact the landscape of communications, shifting from traditional telephony style communications models to OTT (Over-The-Top) cloud assisted & PaaS (Platform as a Service) communication services. The P2P shift will impact many areas of our lives, from mobile communication, human interactive web services, RTC and telephony infrastructure, user federation, security and privacy implications, business costs, and scalability. In his session at Internet of @ThingsExpo, Erik Lagerway, Co-founder of Hookflash, will walk through the shifting landscape of traditional telephone and voice services to the modern P2P RTC era of OTT cloud assisted services.
While great strides have been made relative to the video aspects of remote collaboration, audio technology has basically stagnated. Typically all audio is mixed to a single monaural stream and emanates from a single point, such as a speakerphone or a speaker associated with a video monitor. This leads to confusion and lack of understanding among participants especially regarding who is actually speaking. Spatial teleconferencing introduces the concept of acoustic spatial separation between conference participants in three dimensional space. This has been shown to significantly improve comprehension and conference efficiency.
The Internet of Things is tied together with a thin strand that is known as time. Coincidentally, at the core of nearly all data analytics is a timestamp. When working with time series data there are a few core principles that everyone should consider, especially across datasets where time is the common boundary. In his session at Internet of @ThingsExpo, Jim Scott, Director of Enterprise Strategy & Architecture at MapR Technologies, will discuss single-value, geo-spatial, and log time series data. By focusing on enterprise applications and the data center, he will use OpenTSDB as an example to explain some of these concepts including when to use different storage models.
SYS-CON Events announced today that Gridstore™, the leader in software-defined storage (SDS) purpose-built for Windows Servers and Hyper-V, will exhibit at SYS-CON's 15th International Cloud Expo®, which will take place on November 4–6, 2014, at the Santa Clara Convention Center in Santa Clara, CA. Gridstore™ is the leader in software-defined storage purpose built for virtualization that is designed to accelerate applications in virtualized environments. Using its patented Server-Side Virtual Controller™ Technology (SVCT) to eliminate the I/O blender effect and accelerate applications Gridstore delivers vmOptimized™ Storage that self-optimizes to each application or VM across both virtual and physical environments. Leveraging a grid architecture, Gridstore delivers the first end-to-end storage QoS to ensure the most important App or VM performance is never compromised. The storage grid, that uses Gridstore’s performance optimized nodes or capacity optimized nodes, starts with as few a...
The Transparent Cloud-computing Consortium (abbreviation: T-Cloud Consortium) will conduct research activities into changes in the computing model as a result of collaboration between "device" and "cloud" and the creation of new value and markets through organic data processing High speed and high quality networks, and dramatic improvements in computer processing capabilities, have greatly changed the nature of applications and made the storing and processing of data on the network commonplace. These technological reforms have not only changed computers and smartphones, but are also changing the data processing model for all information devices. In particular, in the area known as M2M (Machine-To-Machine), there are great expectations that information with a new type of value can be produced using a variety of devices and sensors saving/sharing data via the network and through large-scale cloud-type data processing. This consortium believes that attaching a huge number of devic...
Innodisk is a service-driven provider of industrial embedded flash and DRAM storage products and technologies, with a focus on the enterprise, industrial, aerospace, and defense industries. Innodisk is dedicated to serving their customers and business partners. Quality is vitally important when it comes to industrial embedded flash and DRAM storage products. That’s why Innodisk manufactures all of their products in their own purpose-built memory production facility. In fact, they designed and built their production center to maximize manufacturing efficiency and guarantee the highest quality of our products.
All major researchers estimate there will be tens of billions devices - computers, smartphones, tablets, and sensors - connected to the Internet by 2020. This number will continue to grow at a rapid pace for the next several decades. Over the summer Gartner released its much anticipated annual Hype Cycle report and the big news is that Internet of Things has now replaced Big Data as the most hyped technology. Indeed, we're hearing more and more about this fascinating new technological paradigm. Every other IT news item seems to be about IoT and its implications on the future of digital business.
Can call centers hang up the phones for good? Intuitive Solutions did. WebRTC enabled this contact center provider to eliminate antiquated telephony and desktop phone infrastructure with a pure web-based solution, allowing them to expand beyond brick-and-mortar confines to a home-based agent model. Download Slide Deck: ▸ Here
BSQUARE is a global leader of embedded software solutions. We enable smart connected systems at the device level and beyond that millions use every day and provide actionable data solutions for the growing Internet of Things (IoT) market. We empower our world-class customers with our products, services and solutions to achieve innovation and success. For more information, visit www.bsquare.com.