Reports Search Total = 33

Video Surveillance System Market Size, Share – Segmented by Type (Software, Hardware, and Services), End-User Vertical (Commercial, Infrastructure, Institutional, Industrial, Defense, and Residential), and Region – Growth, Trends, and Forecast (2019 – 2024)

Electronics Published by: Mordor Intelligence Market: Global
Unknown Published: 24-06-2019

Market Overview 

 

The global video surveillance system market was valued at USD 40.37 billion in 2018, and is expected to reach a value of USD 95.98  billion by 2024, recording a CAGR of 15.53% over the forecast period (2019 – 2024). The use of video surveillance in business is growing significantly, owing to the increasing need for physical security, coupled with the use of cloud-based services for centralized data.

 

Video surveillance is majorly adopted in manufacturing, banking & financial services, and transportation and retail industries. This incorporation is higher in countries, such as the United States, the United Kingdom, China, and Brazil, owing to the large size of the concerned industries and higher awareness among consumers.

Globally, the drive to enhance the safety and security across different industries is adding to the market growth, significantly. With rapid developments in cloud computing and video surveillance software, the surveillance market has transformed, in comparison to the previous decade.

 

VSaaS has been increasing over the recent years, owing to the market penetration of IP camera sales. Significant factors, such as IT cost containment by major IT organizations, the emergence of data centers, and improving functionalities associated with centralized data, are aiding the VSaaS segment.

The growth of the video surveillance market is expected to be fueled by the introduction of new IP-based digital technologies, to detect and prevent undesirable behaviors, such as shoplifting, thefts, vandalism, and terror attacks.

 

Scope of the Report

 

Video surveillence systems is a group of  one or more video cameras on a network that sends the information of the captured video or audio over to a certain place. This information or the captured images are live monitored or sent a central location for storage and recording. This report segments the market based on type, end-user industry and geography.

 

Key Market Trends

 

Commercial sector is Expected to Hold the Largest Market Share in the Forecast Period

 

In the recent years, the demand for video surveillance in the commercial segment has increased substantially. The various end users in this segment include – banking & financial, retail or wholesale, and media & entertainment industries.

In banks and financial institutions, the increasing number of thefts and fraudulent transactions, in addition to stringent regulatory environment are expected to bolster the deployment of video surveillance systems.

For instance BS/2, a Lithuanian banking technology company and VisionLabs, announced a strategic partnership for contactless identification that would help the comapnies to greatly increase security and would ward off the risks associated with the fradulent or unlawful activities while operating self service terminals there by making ATMeye.iQ full-scale self-service video surveillance and fraud prevention system and LUNA face recognition platform  the foundation for the introduced services.

In the retail sector, video surveillance is deployed to prevent shoplifting. They are also used to keep a tab on the shop-floor activities, such as, the movements of employees, customers, goods, etc.

The video surveillence systems can also be used to track the consumer behavior at a store regarding a particular segment  in a retail store. For instance in a branch of KFC in Beijing, a computer through camera scans their faces decides on what people will eat by placing orders according to age, gender and mood.  

 

North America is Expected to Showcase Significant Market Growth

 

In the United States, after the 9/11 terror attacks, there has been a significant rise in the demand for effective security and surveillance System. Recently, Memphis Police Department (MPD) has teamed up with Hangzhou Hikvision Digital Technology, a supplier of innovative video surveillance products, to deploy holistic security solutions to ensure safety of the residents of Memphis.

Stadium operators are using advanced network surveillance System to monitor every corner of the stadium. The famous “Little League World Series” had tied up with Axis communications for implementing effective video surveillance solutions.

The integration of the video surveillance solutions in the transportation industry is one of the major trends observed in this region.

To enhance security for the Chicago public transportation System, the second largest city in the United States with 1.7 million daily traffic, the government relied on Sentry360 to establish a unified surveillance System.

 

Competitive Landscape

 

The competitive rivalry in the video surveillance market is high due to the presence of many key players constantly upgrading themselves in order to gain a competitive advantage over other players. The video surveillance market is currently dominated by major players like Honeywell, Bosch, Samsung, Schneider Electric, Panasonic and many more.

 

Reasons to Purchase this report:

– The market estimate (ME) sheet in Excel format

– Report customization as per the client’s requirements

– 3 months of analyst support

1. INTRODUCTION

2. RESEARCH METHODOLOGY

3. EXECUTIVE SUMMARY

4. MARKET DYNAMICS

4.1 Market Overview
4.2 Value Chain / Supply Chain Analysis
4.3 Industry Attractiveness – Porter’s Five Force Analysis

4.3.1 Threat of New Entrants
4.3.2 Bargaining Power of Buyers/Consumers
4.3.3 Bargaining Power of Suppliers
4.3.4 Threat of Substitute Products
4.3.5 Intensity of Competitive Rivalry
4.4 Introduction to Market Drivers and Restraints
4.5 Market Drivers

4.5.1 Augmented Demand of IP Cameras
4.5.2 Emergence Of Video Surveillance-as-a-Service (VSAAS)
4.5.3 Increasing Demand For Video Analytics
4.6 Market Restraints

4.6.1 Privacy and Security Issues
4.6.2 Need for High-capacity Storage for High-resolution Images
4.6.3 Government Intervention for Preventing Institutional Wrong Doings
5. MARKET SEGMENTATION

5.1 By Type

5.1.1 Software
5.1.2 Hardware
5.1.3 Services
5.2 By End-user Industry

5.2.1 Commercial
5.2.2 Infrastructure
5.2.3 Institutional
5.2.4 Industrial
5.2.5 Defense
5.2.6 Residential
5.3 Geography

5.3.1 North America

5.3.1.1 US
5.3.1.2 Canada
5.3.2 Europe

5.3.2.1 Germany
5.3.2.2 UK
5.3.2.3 France
5.3.2.4 Rest of Europe
5.3.3 Asia Pacific

5.3.3.1 China
5.3.3.2 Japan
5.3.3.3 India
5.3.3.4 Rest of Asia-Pacific
5.3.4 Latin America

5.3.4.1 Brazil
5.3.4.2 Argentina
5.3.4.3 Rest of Latin America
5.3.5 Middle East and Africa

5.3.5.1 UAE
5.3.5.2 Saudi Arabia
5.3.5.3 South Africa
5.3.5.4 Rest of Middle East and Africa
6. COMPETITIVE LANDSCAPE

6.1 Company Profiles

6.1.1 Axis Communications AB
6.1.2 Bosch Security Systems Incorporated
6.1.3 Honeywell Security Group
6.1.4 Samsung Group
6.1.5 Panasonic Corporation
6.1.6 FLIR systems Inc.
6.1.7 Schneider Electric
6.1.8 NICE Limited
6.1.9 Infinova Corporation
6.1.10 Zhejiang Dahua Technology Company Limited
6.1.11 Hangzhou Hikvision Digital Technology Company Limited
*List Not Exhaustive
7. INVESTMENT ANALYSIS
8. MARKET OPPORTUNITIES AND FUTURE TRENDS

MARKET SEGMENTATION

 

By Type

Software
Hardware
Services

By End-user Industry

Commercial
Infrastructure
Institutional
Industrial
Defense
Residential

Geography

North America

US
Canada
Europe

Germany
UK
France
Rest of Europe
Asia Pacific

China
Japan
India
Rest of Asia-Pacific
Latin America

Brazil
Argentina
Rest of Latin America
Middle East and Africa

UAE
Saudi Arabia
South Africa
Rest of Middle East and Africa

We value your investment and offer free customization with every report to fulfil your exact research needs.

Share This Post:

Choose License Type

Non Destructive Testing (NDT) in Aerospace & Defense Market – Growth, Trends, and Forecast (2019 – 2024)

Electronics Published by: Mordor Intelligence Market: Global
100 pages Published: 17-06-2019
  • Electronics
  • Mordor Intelligence
  • Global
  • 100 pages
  • Published: 17-06-2019

Market Overview

 

The Non-destructive Testing Market was valued at USD 2340 million in 2018 and is expected to register a CAGR of 10.3% during the forecast period (2019-2024), to reach USD 4250 million by 2024. The major drivers for growth in the NDT market include increasing investments in the aerospace & defense sector, increasing the complexity of machines and structures that need continual evaluation for maintaining structural integrity, and government safety regulations mandating the use of NDT techniques for gaining clearances.

The global aerospace and defense (A&D) industry is set to grow in 2018, with total revenues in the aerospace sector estimated to grow at more than 3%. The global A&D industry revenue in the past was largely impacted by decreased revenues in the United States (US) Aerospace & Defense sector.

Over the last few years, there has been an incremental rise in the demand for skilled NDT technicians across the world. However, the demand currently outweighs supply, due to a plethora of reasons.

There are several opportunities for growth, such as large-scale aerospace projects in the Asia-Pacific and European regions and the increasing need for advanced and automated NDT solutions, which are expected to contribute to the growth of the market studied in the future.

 

Scope of the Report

 

Nondestructive testing is a wide group of analysis techniques used in science and technology industry to evaluate the properties of a material, component or system without causing damage. 

 

Key Market Trends

 

Radiography Testing Technology to Account for the Largest Share

 

Radiography is one of the versatile testing methods in nondestructive testing, which is used for the detection of surface and subsurface features in welded parts and castings. Radiography employs highly penetrating X-rays produced by X-ray tube, gamma rays by a radioactive isotope, and other forms of radiation for testing without causing any damage to the product.

It enables product reliability, providing the information to prevent accidents and saves lives in industries. It is also used for corrosion mapping, detection of blockages inside sealed equipment, testing of semiconductor devices for cracks, broken wires, unsoldered connections, detection of reinforcing the material in concrete slabs and measuring bulk density of materials.

The use of computed radiography in the aerospace & defense industry provides significant cost savings when compared to other testing methods as it eliminates the external costs. As economic justification is a major criterion for any testing method, the radiography testing range in size from microminiature electronic parts to massive missile components used in the aerospace & defense industry.

 

Europe to Account for Significant Share

 

The European aerospace and defense industry is mainly dominated by the United Kingdom, France, Germany, and Italy, while Russia is also a large player in the international market landscape.

In 2016, the UK aerospace production output is observed to be grown by 39% since 2011, with annual turnover reaching nearly USD 43 billion.

Exports generate nearly 90% of aerospace turnover. The sector achieved exports of nearly USD 37.41 billion in 2016 and looked for success in overseas markets to drive further growth, and there are few uncertainties are expected with the exit from the European Union.

The United Kingdom is investing money in new Joint Force 2025, comprising of a Land Force of 112,000 equipped with digital armored vehicles, an Air Group upgraded with more Typhoons and fifth generation F35s; and a Maritime Task Group made up of destroyers, frigates, and two mighty carriers – claimed to be the most powerful ships ever built in Britain.

France and its manufacturers are driving a significant number of hi-tech projects, including the forthcoming nEUROn European military drone, Airbus’s E-Fan ˗˗ the first all-electric aircraft designed for initial pilot training, and the LEAP engine made from composite materials manufactured by Safran Aircraft Engines and GE, which have already received large numbers of orders.

German companies were involved in the production of all of those aircraft. Around 300 aircraft were finished in Germany – this is equivalent to 17% of the total number of international aircraft production.

The activities of Russian civil aviation at the present stage are conditioned by factors such as unstable post-crisis stabilization of the country’s economy, continuing uncertainty in the development of international transport markets, both on regular and charter (primarily resort) routes.

Also, with the defense industry being highly uncertain of the coming years, the overall consumption of NDT in the country is expected to slow down over the coming years.

 

Competitive Landscape

 

The competitive rivalry between various firms within the market is dependent on the competition (price, product or market share), and the intensity with which they compete in the market.

In the NDT equipment market, incumbents such as GE, YXLON International, and Olympus hold the largest market shares. They have a strong influence on the market in terms of their R&D and consolidation activities.

The exit barriers in this market are due to the high costs involved in operations. Firm concentration ratio has been forecasted to grow steadily over the reporting period•However, these firms have greater access to funds and R&D operations.

As stated earlier, there has been a growing trend of forwarding the integration of operations by market players in a bid to capture more value within the market. Some of the key players in Non-Destructive Testing (NDT) in Aerospace & Defense Market are Olympus, Nikon, GE.

Some of the key developments in Non-Destructive Testing (NDT) in Aerospace & Defense Market are as follows:

Mistras Group acquired Semiray Inspection Services, which is an NDT service provider based out of Phoenix, Arizona. Semiray operates in the aerospace, military, electronics, and commercial manufacturing industries. The company is NADCAP-accredited and holds approvals from various aerospace manufacturers, like Boeing, General Electric, Honeywell, Lockheed Martin, etc. The acquisition strengthens MISTRAS’ presence in the southwestern United States. 

The company boosted the production capacity for interchangeable lenses in response to a growing demand for mirrorless digital cameras equipment, especially in the Non-Destructive Testing Market. The company is expected to approve additional production facilities that will be set up at the Taiwan. 

 

Reasons to Purchase this report:

– The market estimate (ME) sheet in Excel format

– Report customization as per the client’s requirements

– 3 months of analyst support

1 INTRODUCTION

1.1 Study Deliverables

1.2 Study Assumptions

1.3 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET DYNAMICS

4.1 Market Overview

4.2 Introduction to Market Drivers and Restraints

4.3 Market Drivers

4.3.1 Increasing Investments in Aerospace & Defense

4.3.2 Increasing Complexity of Machine and Infrastructure

4.4 Market Restraints

4.4.1 Lack Of Technical Workforce

4.4.2 Relative Lack of Awareness

4.5 Value Chain Analysis

4.6 Industry Attractiveness Porters Five Force Analysis

4.6.1 Threat of New Entrants

4.6.2 Bargaining Power of Buyers/Consumers

4.6.3 Bargaining Power of Suppliers

4.6.4 Threat of Substitute Products

4.6.5 Intensity of Competitive Rivalry 

5 MARKET SEGMENTATION

5.1 By Type

5.1.1 Service

5.1.2 Equipment

5.2 By Technology

5.2.1 Radiography Testing

5.2.2 Ultrasonic Testing

5.2.3 Magnetic Particle Testing and Electromagnetic Testing

5.2.4 Liquid Penetrant Testing

5.2.5 Visual Inspection

5.2.6 Eddy Current

5.3 Geography

5.3.1 North America

5.3.2 Europe

5.3.3 Asia Pacific

5.3.4 Latin America

5.3.5 Middle East and Africa

6 COMPETITIVE LANDSCAPE

6.1 Company Profiles

6.1.1 Mistras Group

6.1.2 Fujifilm NDT Systems

6.1.3 GE Measurement and Control

6.1.4 NikonMetrology Inc.

6.1.5 Magnaflux Corporation

6.1.6 Olympus Corporation

6.1.7 SGS Group

6.1.8 Intertek Group PLC

6.1.9 Applus Services, S.A.

6.1.10 Yxlon International GmbH

6.1.11 Team, Inc.

6.1.12 Tüv Rheinland Ag

6.1.13 Gould-Bass Co.

6.1.14 FLIR Systems, Inc.

7 INVESTMENT ANALYSIS

8 MARKET OPPORTUNITIES AND FUTURE TRENDS

MARKET SEGMENTATION

 

By Type

Service

Equipment

 

By Technology

Radiography Testing

Ultrasonic Testing

Magnetic Particle Testing and Electromagnetic Testing

Liquid Penetrant Testing

Visual Inspection

Eddy Current

 

Geography

North America

Europe

Asia Pacific

Latin America

Middle East and Africa

We value your investment and offer free customization with every report to fulfil your exact research needs.

Share This Post:

Choose License Type

Micro Light Emitting Diode (LED) Market – Growth, Trends, and Forecast (2019 – 2024)

Electronics Published by: Mordor Intelligence Market: Global
100 pages Published: 17-06-2019
  • Electronics
  • Mordor Intelligence
  • Global
  • 100 pages
  • Published: 17-06-2019

Market Overview

 

The Micro-LED Market was estimated at 6.10 million units in 2018 and is expected to register a CAGR of 153.1% during the forecast period (2019 – 2024). The micro LED market has witnessed an exponential demand since the acquisition of Luxvue by Apple in 2014, numerous companies have investments into the development of Mirco LEDs including startups, such as Playnitride, Mikro-Mesa, X-Celeprint, VueReal, and Lumiode. According to research, the growing number of patents in this field, which were estimated for more than 1,570 patents were filed during the 2000-2016 period is expected to augment the market growth during the forecast period.

Mirco LEDs are an emerging display technology. Importantly, micro LEDs are a significantly brighter source, offering brightness three or four orders of magnitude higher than OLEDs, which are capable of delivering around 1000 Nits (cd/m2), whereas micro LEDs offer hundreds of thousands of Nits for the equivalent power consumption.

Further, as GaN-based LEDs technology grows in maturity, the focus of many research groups has shifted toward the fabrication of higher power and higher efficiency LEDs, which stimulates the demand for micro LEDs due to their properties.

The major challenge existing today for the manufacture of micro LEDs is the mass transfer process, which is the placement of gallium nitride LEDs onto the substrate. One notable development of GaN-on-sapphire technology is using pick-and-place equipment. However, the deployment of this involves the individual placement of every LED on a pitch of less than 50μm, which requires new and expensive equipment subjecting the company to productivity and cost issues.

Currently, the demand for Higher-quality HMDs and functionality improvements to support the on-going roll-out of high quality AR/VR content are pushing the adoption of micro LEDs compared to the conventional LCOS and DLP technologies. Augmenting this trend, Oculus, the virtual reality headgear developer owned by Facebook, recently acquired an Irish micro LED company InfiniLED. According to Intel, the revenue opportunity of the AR/VR market remains strong, and is estimated to exceed USD 45 billion (USD) in headset hardware sales by the year 2021. Such trends present a strong growth potential for the market studied over the forecast period.

 

Scope of the Report

 

microLED, also known as micro-LED, is an emerging flat panel display technology. As the name implies, microLED displays consist of arrays of microscopic LEDs forming the individual pixel elements. When compared to the widespread LCD technology, microLED displays offer better contrast, response times, and energy efficiency.

 

Key Market Trends

 

Consumer Electronics to Account for Significant Share

 

Owing to technological advancements across various consumer electronic products, such as TVs, smartphones, smartwatches, tablets, micro LEDs, are expected to witness increased incorporation among these products. Technological giants in the market have adequate experience in the LCD, LED, and OLED technologies and are now engaging their resource and expertise in the developments of micro-LED, which are supposedly the future of the consumer electronics market.

Moreover, a South Korean giant, LG Electronics, is also planning to bring a new series of micro-LED displays to the market. The company has filed the paperwork to trademark these displays in the European Union, which will be used in smartphones, laptops, tablets and other similar electronic devices. LG is naming the displays as XµLED, SµLED, and XLµLED.

Taiwan holds a broad range of advanced LED and display technologies that makes one of the leading micro LED developers for consumer electronics. It is building a pilot line and aims to deliver micro LED offerings to domestic VR companies.

Moreover, prototypes from Korean firms debuted at CES 2018, namely ‘The Wall’ from Samsung and Micro LED displays from Lumens, proved the great effort both Korean enterprises. Owing to similar developments across other APAC countries and increasing consumption of electronic products, APAC is anticipated to witness a significant growth rate over the forecast period.

 

North America to Account for Largest Share

 

The increasing penetration of smartphones is considered to be one of the biggest contributor toward the adoption of micro LED in the region. In recent years, the United States has witnessed a consistent growth in smartphone sales. As part of its 2016 General Social Survey Statistics in Canada, 76% of Canadians owned a smartphone in 2016. In addition to smartphones, 71% of the Canadians surveyed owned a laptop, 54% had a tablet or e-reader and 50% a desktop computer.

The increasing penetration of smartwatches in the region is also expected to augment the adoption of the micro LED market. Companies, such as LG Electronics are planning to launch a new smartwatch alongside its signature LG V40 ThinQ smartphone in the United States, in order to leverage the growing opportunities of these devices in the region.

The United States Patent and Trademark Office also granted patents for Apple Inc., where about 99.9% of the patent is about advanced Micro LED displays. Its newly granted patent covers their invention relating to a display technology inherited from LuxVue, a Micro LED company they acquired in 2014.

Thus, in order to leverage the opportunity, companies, such as Rohinni (US – Based) entered into a joint venture with Magna Electronics, in order to develop flexible mini-LED and micro-LED based lighting devices for the automotive market.

 

Competitive Landscape

 

Though presently, there are few players, as the technology is considered to be disruptive for the future of display technologies, there is a surge in development and research in the production of micro LEDs.

This has bolstered the number of patents, as well as acquisitions of microLED developers/foundries by market players. Thus, the competitive rivalry is moderate and is expected to grow over the forecast period.

Some of the key players in the market are Innolux Corporation, Sony Corp, LG Display. Some of the key developments in Micro LED Market are as follows:

Sony Corporation had showcased its latest development in microLED display technology. The company had showcased its huge 8K micro-LED display at the NAB 2018 show in Las Vegas. 

LG Display unveiled its first Micro LED TV prototype at IFA 2018. The company announced that its first Micro LED TV will indeed be larger than Samsung’s 146-inch modular Wall. Besides being the 173 inches in diagonal, it is based on the novel microLED display technology and built from modules. 

 

Reasons to Purchase this report:

– The market estimate (ME) sheet in Excel format

– Report customization as per the client’s requirements

– 3 months of analyst support

1 INTRODUCTION

1.1 Study Deliverables

1.2 Study Assumptions

1.3 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET DYNAMICS

4.1 Market Overview

4.2 Introduction to Market Drivers and Restraints

4.3 Market Drivers

4.3.1 Emergence Of MEMS Technology

4.3.2 Growth Of Consumer Electronics

4.4 Market Restraints

4.4.1 Mass Traansfer To Be A Bottleneck For Commercialization of Micro Led

4.4.2 Complexities Through The Supply Chain

4.5 Value Chain Analysis

4.6 Industry Attractiveness Porters Five Force Analysis

4.6.1 Threat of New Entrants

4.6.2 Bargaining Power of Buyers/Consumers

4.6.3 Bargaining Power of Suppliers

4.6.4 Threat of Substitute Products

4.6.5 Intensity of Competitive Rivalry 

5 MARKET SEGMENTATION

5.1 By Application

5.1.1 Display

5.1.1.1 Smartwatch

5.1.1.2 Near-to-eye Devices (AR and VR)

5.1.1.3 Television

5.1.1.4 Smartphone and Tablet

5.1.1.5 Monitor and Laptop

5.1.1.6 Head-up Display

5.1.1.7 Digital Signage

5.1.2 Lighting

5.2 By End User

5.2.1 Consumer Electronics

5.2.2 Automotive

5.2.3 Aerospace and Defense

5.2.4 Other End Users

5.3 Geography

5.3.1 North America

5.3.2 Europe

5.3.3 Asia Pacific

5.3.4 Rest of the world

6 COMPETITIVE LANDSCAPE

6.1 Company Profiles

6.1.1 Innolux Corporation

6.1.2 Sony Corporation

6.1.3 LG Display Co Ltd.

6.1.4 Aledia SA

6.1.5 Epistar Corporation

6.1.6 Optovate Limited

6.1.7 Rohinni LLC

6.1.8 Samsung Electronics Co. Ltd.

6.1.9 JBD Inc.

6.1.10 Plessey Semiconductors Limited

6.1.11 Ostendo Technologies, Inc

6.1.12 VueReal Inc.

6.1.13 Allos Semiconductors

7 INVESTMENT ANALYSIS

8 MARKET OPPORTUNITIES AND FUTURE TRENDS

MARKET SEGMENTATION

 

By Application

Display

Smartwatch

Near-to-eye Devices (AR and VR)

Television

Smartphone and Tablet

Monitor and Laptop

Head-up Display

Digital Signage

Lighting

 

By End User

Consumer Electronics

Automotive

Aerospace and Defense

Other End Users

 

Geography

North America

Europe

Asia Pacific

Rest of the world

We value your investment and offer free customization with every report to fulfil your exact research needs.

Share This Post:

Choose License Type

5G chipset market – Growth, Trends, and Forecast (2019 – 2024)

Electronics Published by: Mordor Intelligence Market: Global
100 pages Published: 17-06-2019
  • Electronics
  • Mordor Intelligence
  • Global
  • 100 pages
  • Published: 17-06-2019

Market Overview

 

The global 5G chipset market was evaluated from 2019, as the technology has not yet been commercialized in 2018. The market is expected to grow at a CAGR of 75.11% over the forecast period (2019-2024).

With 5G networks soon to be rolled out, smartphone OEMs telecom players are rapidly gearing towards the shift. Telecom service providers across the globe are upgrading to 5G networks, which rely on denser arrays of small antennas to offer ultra-high data speeds.

There has been a surge in high-quality video and audio content as well. Among the digital devices, mobile devices have taken over as the preferred medium of consuming online media, including live video streaming, file sharing, audio streaming, and running business applications, among others. However, current LTE technologies do not entirely support all these applications. This has been a significant factor driving the adoption of 5G, for high internet speeds and coverage, as well as reduced latency.

5G is expected to add several layers of complexity to the spectrum, due to the all-inclusive nature of services that it supports, from extreme broadband services to massive machine-type communications (mMTC) and ultra-reliable MTC. Every application demands its own position in the spectrum depending on its requirements.

Over the forecast period, as more countries acquire the required infrastructure to support 5G, and with an increasing demand for faster data transfers and reliance on cloud technology, the demand for 5G chipsets is expected to surge, creating an immense market potential for 5G chipset market.

 

Scope of the Report

 

5G chipsets enable 5G packet transmission on smartphones, portable hotspots, IoT devices, and increasingly, notebook PCs with mobile network capabilities. 5G mobile devices will combine familiar sub-6GHz bands with new MIMO antenna systems, as well as high-frequency millimeter-wave.(mmWave) bands with highly-focused beam-steering. 

 

Key Market Trends

 

Industrial Automation to Account for Significant Share

 

The manufacturing companies across the world are under immense pressure due to shorter product and business lifecycles and intense volatility in the business. The profit margins are getting squeezed as the workforce is aging, and components increasingly become more varied and complicated to manufacture.

Internet of Things (IoT), coupled with the 5G network, is expected to enhance the aforementioned business issues associated with industrial automation. The enhanced network provides manufacturers to build smart factories and leverage emerging technologies, such as artificial intelligence (AI), machine learning, augmented reality, and automation.

In the future, the smart factories are expected to comprise several sensors to monitor various aspects of the working environment. The 5G network is likely to offer low-latency, wireless flexibility, and high capacity performance to the smart factories enabling them to overcome challenges in the production environment. As a result, it creates immense opportunities for chipset manufacturers to invest mainly in devices used in industrial automation.

In industrial automation, 5G acts as an enabler to new operating models. Notably, the wireless industry needs to engage with future customers and potential users.

 

North America to Account for Largest Share

 

North America is expected to account for the significant market share of the 5G chipset market, and dominance is mainly due to the high rate of adoption of advanced technologies in the market studied.

The region is also home to Qualcomm, a dominant player in smartphone communications chips, making half of all core baseband radio chips in smartphones. It is one of the big U.S. technology companies, with a major role in the global 5G chipset market.

Therefore, in 2018, U.S. President blocked microchip maker Broadcom’s USD 117 billion takeovers of rival Qualcomm amid concerns that it would give China the upper hand in the 5G chipset market. According to Ericsson, North America is anticipated to lead the 5G mobile technology, with all the major operators stating their intentions to deploy the 5G early.

 

Competitive Landscape

 

All the companies involved in the production of 5G chipsets in the current market scenario are highly competitive and mostly market incumbents. All of them have equally high R&D capabilities, and all of them have equally effective competitive strategies. Such competition, even before commercialization of the product, indicates a high probability of an increase in the competitive rivalry over the forecast period. Due to this, the market is highly fragmented.

Some of the key players in the 5G chipset market are Qualcomm, Intel, Samsung. Some of the recent developments in 5G chipset market are as follows:

Qualcomm announced that its upcoming flagship mobile platform will feature a system-on-chip (SoC) built on the 7nm process node. The 7nm SoC can be paired with the Qualcomm Snapdragon X50 5G modem, which is anticipated to be the first 5G-capable mobile platform for smartphones and other mobile devices. 

MediaTek and China Mobile signed the 5G Device Forerunner Initiative memorandum at the 2018 MWC SH Global End Device Summit organized by China Mobile to jointly develop 5G terminal devices and enhance the maturity of 5G chipsets and terminals. This initiative was kick-started by China Mobile to promote the maturity and expansion of the industry for 5G terminal devices.

 

Reasons to Purchase this report:

– The market estimate (ME) sheet in Excel format

– Report customization as per the client’s requirements

– 3 months of analyst support

1 INTRODUCTION

1.1 Study Deliverables

1.2 Study Assumptions

1.3 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET DYNAMICS

4.1 Market Overview

4.2 Introduction to Market Drivers and Restraints

4.3 Market Drivers

4.3.1 Increasing Demand for High-speed Internet and Broad Network Coverage With Reduced Latency and Power Consumption

4.3.2 Growing Machine-to-Machine/IoT Connections

4.3.3 Growing Demand For High-speed Wireless Broadband

4.4 Market Restraints

4.4.1 High Hardware Cost Involved in the Terrestrial Network Densification

4.4.2 Fragmented Spectrum Allocation

4.5 Value Chain Analysis

4.6 Industry Attractiveness Porters Five Force Analysis

4.6.1 Threat of New Entrants

4.6.2 Bargaining Power of Buyers/Consumers

4.6.3 Bargaining Power of Suppliers

4.6.4 Threat of Substitute Products

4.6.5 Intensity of Competitive Rivalry 

5 MARKET SEGMENTATION

5.1 By Chipset Type

5.1.1 Application-specific Integrated Circuits (ASIC)

5.1.2 Radio Frequency Integrated Circuit (RFIC)

5.1.3 Millimeter Wave Technology Chips

5.1.4 Field-programmable Gate Array (FPGA)

5.2 By Operational Frequency

5.2.1 Sub-6 GHz

5.2.2 Between 26 and 39 GHz

5.2.3 Above 39 GHz

5.3 By End-user Industry

5.3.1 Consumer Electronics

5.3.2 Industrial Automation

5.3.3 Automotive and Transportation

5.3.4 Energy and Utilities

5.3.5 Healthcare

5.3.6 Retail

5.3.7 Other End-user Industries

5.4 Geography

5.4.1 North America

5.4.2 Europe

5.4.3 Asia Pacific

5.4.4 Latin America

5.4.5 Middle East and Africa

6 COMPETITIVE LANDSCAPE

6.1 Company Profiles

6.1.1 Qualcomm Technologies Inc.

6.1.2 MediaTek Inc.

6.1.3 Intel Corporation

6.1.4 Samsung Electronics Co. Ltd

6.1.5 Xilinx Inc.

6.1.6 Nokia Corporation

6.1.7 Broadcom Inc.

6.1.8 Infineon Technologies AG

6.1.9 Huawei Technologies Co. Ltd

6.1.10 Integrated Device Technology Inc.

6.1.11 Anokiwave Inc.

6.1.12 Qorvo Inc.

6.1.13 MACOM Technology Solutions Holdings Inc.

6.1.14 Cavium Inc.

6.1.15 Advanced Micro Devices, Inc.

6.1.16 Texas Instruments, Inc.

6.1.17 NXP Semiconductors NV

6.1.18 Analog Devices, Inc.

7 INVESTMENT ANALYSIS

8 MARKET OPPORTUNITIES AND FUTURE TRENDS

MARKET SEGMENTATION

 

By Chipset Type

Application-specific Integrated Circuits (ASIC)

Radio Frequency Integrated Circuit (RFIC)

Millimeter Wave Technology Chips

Field-programmable Gate Array (FPGA)

 

By Operational Frequency

Sub-6 GHz

Between 26 and 39 GHz

Above 39 GHz

 

By End-user Industry

Consumer Electronics

Industrial Automation

Automotive and Transportation

Energy and Utilities

Healthcare

Retail

Other End-user Industries

 

Geography

North America

Europe

Asia Pacific

Latin America

Middle East and Africa

We value your investment and offer free customization with every report to fulfil your exact research needs.

Share This Post:

Choose License Type

Nano Radiation Sensors Market – Growth, Trends, and Forecast (2019 – 2024)

Electronics Published by: Mordor Intelligence Market: Global
100 pages Published: 17-06-2019
  • Electronics
  • Mordor Intelligence
  • Global
  • 100 pages
  • Published: 17-06-2019

Market Overview

 

The global nano radiation sensors market was USD 224.73 million in 2018 and is expected to record a CAGR of over 6.72%, during the forecast period (2019-2024) and is likely to reach a market value of USD 334 million by 2024. The growth of nanotechnology-based sensors and detectors has been buoyed by the trend of miniaturization, which led to the well-established field of nanotechnology. Electronic, optical, and mechanical nanotechnologies have all profited from the smaller, smarter, and less costly sensors that resulted from work with ICs, fiber optics, other micro-optics, and MEMS (microelectromechanical systems).

The promise of miniaturization constituted the beginning of the field of nanotechnology. This trend has proliferated across the manufacturing of ever-smaller mechanical, optical, medical, and electronic products and devices.

Manufacturing of nanosensors is application specific, due to which there are multiple challenges associated with it.

Further, the availability of advanced instruments, such as automated reader instruments, electronic radiation measuring instruments, alarm badges, and thermoluminescent dosimeters (TLD), is increasing the range of applications for the detection and monitoring devices. Technological developments in the segment have resulted in the development of more accurate detectors and monitors, and have led to the introduction of portable, durable, and economical devices, augmenting the growth of the market studied.

The future of the market is buoyed by the increasing number of startups investing in this field as well as massive R&D investments, initiatives taken by the government by funding for new nanotechnology device discovery, growing demand for radiological medical applications, and increasing investments for homeland security. They offer good quantum efficiency and can determine the energy of incident radiation as well as the intensity. Such kind of scintillation counter can mainly operate in air or vacuum.

 

Scope of the Report

 

Carbon nanotube-based sensors are particularly suitable and promising for chemical and radiation detection because the technology can be used to fabricate gas or liquid chemical sensors that have extremely low power requirements and are versatile and ultra-miniature in size, with added cost benefits.

 

Key Market Trends

 

Consumer Electronics End User to Account for Largest Share

 

End-users across nations are increasingly demanding high-performance devices with reliable and highly portable computing platforms. Connectivity over wireless networks such as Wi-Fi, 3G, 4G, and Bluetooth to facilitate easy data exchange and transfer has been increasing rapidly.

This has led to wireless computing devices, such as tablets, smartphones, wearables, and sensors, flooding the market. Wireless computing devices require a high level of integration, which, in turn, is propelling the development of a number of new designs to support multiple applications on a single platform. In such a market scenario, the need for innovative, low-cost testing solutions can facilitate cost efficiencies and ensure quick market entry of the product.

Regional factors have impacted production facility investments. For instance, America’s tariffs on goods made in China influenced semiconductor companies (SK Hynix,, and Mitsubishi Electric), to move their production back to Asia, thus making Asia, a potential market for nanosensors.

 

United States to Account for Significant Share

 

The United States is the largest market for nano radiation sensors in the global market. The country has a high demand from almost all the end-user segments alike, which is one of the major driving factors for the increasing demand from the country. However, the major contributors to the demand include healthcare, automotive and industrial, aerospace and defense, and power generation sectors.

The healthcare sector in the country is one of the major sources of demand for nano radiation sensors. Immense research and clinical trial activity in the country always keeps the demand from this sector high. In fact, according to the Pharmaceutical Research and Manufacturers of America (PhRMA), pharmaceutical companies in the United States spent a record USD 71.4 billion on research and development activities in 2017 (over 26%, spent on Phase I, II, and III clinical trials, by each company involved in clinical trials).

Also, the United States comprises the most significant market for advanced defense equipment and services in the world. According to the General Aviation Manufacturers Association (GAMA), as of 2017, the country produced more than 1596 general aviation airplanes (do not involve military aircraft).

Further, the United States is the world’s largest producer of nuclear energy with 98 operating nuclear power reactors as of October 2018. It is estimated that the country accounts for approximately 30% of global nuclear power generation capacity. In fact, as of 2017, the nuclear power generation segment was responsible for 20% of the total electricity output.

Over the forecast period, such initiatives are expected to open new market opportunities to the nano radiation sensors in the power generation sector.

 

Competitive Landscape

 

The major factors governing this force are sustainable competitive advantage through innovation, levels of market penetration, levels of advertising expense power of competitive strategy, and firm concentration ratio. Currently, nano radiation sensors have limited market penetration, which presents a huge market opportunity for the existing players, as well as the outsiders who are willing to enter the market space.

However, the existing market players have the advantage of a considerable head start over the new entrants in the market. With great prospects, growing investments, and supportive government initiatives, the competition among the existing players is likely to become high.

Some of the major players in Nano Radiation Sensors Market are Robert Bosch, Honeywell, GE. Some of the key developments in Nano Radiation Sensors Market are as follows:

Analog Devices Inc. announced a new sensor interface IC, which enables the next generation of intelligent electrochemical sensors. The new ADuCM355 combines the high-performance, ultra-low power, small-form-factor, and the advanced feature set is needed to enable the next generation portable gas detectors. 

Thermo Fisher Scientific and Symphogen, a clinical-stage antibody oncology-focused company, entered into a two-year collaborative partnership to deliver validated, platform workflows for simplified characterization and quality monitoring of complex therapeutic proteins. 

 

Reasons to Purchase this report:

– The market estimate (ME) sheet in Excel format

– Report customization as per the client’s requirements

– 3 months of analyst support

1 INTRODUCTION

1.1 Study Deliverables

1.2 Study Assumptions

1.3 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET DYNAMICS

4.1 Market Overview

4.2 Introduction to Market Drivers and Restraints

4.3 Market Drivers

4.3.1 Growing Trend of Miniaturization Across Various Industries

4.3.2 Advancements in Nanotechnology Supported by Government Regulations

4.4 Market Restraints

4.4.1 Complexity in Manufacturing and Potential Risks Involved in Adopting Radiation Nanosensors

4.5 Value Chain Analysis

4.6 Industry Attractiveness Porters Five Force Analysis

4.6.1 Threat of New Entrants

4.6.2 Bargaining Power of Buyers/Consumers

4.6.3 Bargaining Power of Suppliers

4.6.4 Threat of Substitute Products

4.6.5 Intensity of Competitive Rivalry 

5 MARKET SEGMENTATION

5.1 By Type

5.1.1 Scintillation Detectors

5.1.2 Solid-state Detectors

5.2 By Application

5.2.1 Automotive

5.2.2 Consumer Electronics

5.2.3 Healthcare

5.2.4 Industrial

5.2.5 Oil and Gas

5.2.6 Power Generation

5.2.7 Other Applications

5.3 Geography

5.3.1 North America

5.3.1.1 US

5.3.1.2 Canada

5.3.2 Europe

5.3.2.1 Germany

5.3.2.2 UK

5.3.2.3 France

5.3.2.4 Russia

5.3.2.5 Spain

5.3.2.6 Italy

5.3.2.7 Rest of Europe

5.3.3 Asia-Pacific

5.3.3.1 China

5.3.3.2 Japan

5.3.3.3 India

5.3.3.4 Rest of Asia-Pacific

5.3.4 Latin America

5.3.4.1 Brazil

5.3.4.2 Argentina

5.3.4.3 Mexico

5.3.4.4 Rest of Latin America

5.3.5 Middle East and Africa

5.3.5.1 UAE

5.3.5.2 Saudi Arabia

5.3.5.3 South Africa

5.3.5.4 Rest of Middle East and Africa

6 COMPETITIVE LANDSCAPE

6.1 Company Profiles

6.1.1 Analog Devices Inc.

6.1.2 Robert Bosch GmbH

6.1.3 Nihon Kessho Kogaku Co. Ltd

6.1.4 Thermo Fisher Scientific Inc.

6.1.5 Baker Hughes (General Electric)

6.1.6 Rae Systems Inc. (Honeywell International Inc.)

6.1.7 First Sensor AG

6.1.8 Hamamatsu Photonics KK

6.1.9 Toshiba Corporation

7 INVESTMENT ANALYSIS

8 MARKET OPPORTUNITIES AND FUTURE TRENDS

MARKET SEGMENTATION

 

By Type

Scintillation Detectors

Solid-state Detectors

 

By Application

Automotive

Consumer Electronics

Healthcare

Industrial

Oil and Gas

Power Generation

Other Applications

 

Geography

North America

US

Canada

Europe

Germany

UK

France

Russia

Spain

Italy

Rest of Europe

Asia-Pacific

China

Japan

India

Rest of Asia-Pacific

Latin America

Brazil

Argentina

Mexico

Rest of Latin America

Middle East and Africa

UAE

Saudi Arabia

South Africa

Rest of Middle East and Africa

We value your investment and offer free customization with every report to fulfil your exact research needs.

Share This Post:

Choose License Type

Optical Switches Market – Growth, Trends and Forecast (2019 – 2024)

Electronics Published by: Mordor Intelligence Market: Global
100 pages Published: 14-06-2019
  • Electronics
  • Mordor Intelligence
  • Global
  • 100 pages
  • Published: 14-06-2019

Market Overview

 

The Optical Switches Market is expected to register a CAGR of over 13.41% during the forecast period 2019 – 2024. The growing proliferation of cloud across all aspects of businesses in a diverse range of end-user industries is creating a robust demand for data center operations, as companies are increasingly investing to gain prominence in a highly contested and populated market space. Further, as major cloud content providers build out ever-larger data center facilities, the bandwidth limitations of conventional data center architectures become more apparent, throttling aggregate performance and efficiency.

 

The demand for cloud services, virtualization, and edge computing is augmenting the growth of the data center market. This has led to an overflowing influx of traffic within the data centers, thus pushing operated to find improved means to interconnect rising numbers of servers and move larger amounts of data between them. Server interconnection scalability within the data center is becoming a bottleneck, and inefficient data flow scaling constrains data center growth. Operational inefficiencies caused due to product breakages are reducing server utilization and wasting critical space, powering, and cooling resources.

Traditional data center, such as Optical-to-electrical-to-optical (OEO) switches and Ethernet routers have limited scalability and cannot keep up with growing intra-data center traffic bandwidth demands. Further, the logistics of deploying and managing miles of optical fiber required is not considered feasible.

 

While there are many ongoing as well as planned optical fibre network investments for various end-user applications, it is critical to consider the budget for a new fibre cable project. While most managers focus on the unit price of the materials involved, there is a greater need to select materials to achieve the best TCO for the customer.

 

The deployment of the fibre cable network deems itself as an expensive task. Further, maintenance of the network equipment and cables is also extremely necessary to ensure perfect system delivery. Fans and blowers are used to ensure an efficient cooling mechanism, which is vital to the fiber cable’s performance.

 

This necessitates a rigorous maintenance program. It also adds to the overall costs that come with the fiber optic technology. Due to these factors, telecom operators may hesitate to make such huge investments unless completely sure on the ROI, this may hinder the market growth.

 

Scope of the Report

 

Optical switches used in fiber optic transmission systems contributes to the development of the optical network. The main function of optical switching is to enable routing of optical data signals without the need for conversion to electrical signals and, consequently, is independent of data rate and data protocol. The transfer of the switching function from electronics to optics will offer a reduction in the network equipment, an increase in the switching speed, and a decrease in the operating power.

 

Key Market Trends

 

Optical Switching is expected to register a Significant Growth

The segment comprises of various applications of all-optical switches. Technological advancements in the all-optical switch, coupled Software Defined Network (SDN) paradigms, create compelling solutions to bring the fiber layer under software control. In addition to this, the adoption of all-optical switching in data centers facilitates both traffic provisioning and protection switching between the external network and the peering arbitrator. Moreover, in all-optical switching, any optical connection can be remotely monitored and tested and can be configured to switch automatically based on reduction, or loss, of the optical signal.

 

Furthermore, the incorporation of all-optical switching to C-RAN architectures allows the sharing of centralized monitoring and test equipment across multiple optical fiber front haul links interconnecting RRHs and BBUs.In 2017, China Telecom built a WDM ASON backbone network at 21 nodes throughout Jiangsu, Shanghai, Zhejiang, Hubei, Anhui, and Jiangxi. Through this project, the company deployed the first all-optical network 2.0 backbone network in the country.

The project witnessed the transformation from electric switching nodes to all-optical switching nodes. In addition, 21 ROADMs were deployed to create intelligent optical nodes, which will eventually become the optical cross-connect (OXC). Thus, potential such investments in other countries are expected to drive the demand for all-optical switches.

 

North America is Expected to Hold Major Share

 

The global roll out of 5G commercial services is expected to commence during 2019-2020. To support the accelerated build out of 5G in the United States, Ericsson predicts that 5G subscriptions are expected to reach the 150 million user mark, accounting for 48% of all mobile subscriptions in North America by the end of 2023.

Unlocking the full potential of 5G in the United States depends on the extension of fiber deep into the network. Despite the demand and potential economic benefits of fiber deployment, the United States currently lacks the fiber density in access networks to make the bandwidth advancements that are necessary to improve the pace of innovation and economic growth.

At the same time, an analysis based on the Deloitte Consulting LLP estimates that, the United States requires between USD 130 and USD 150 billion over the next 5-7 years to adequately support broadband competition, rural coverage, and wireless densification.

 

The aforementioned factors are expected to support and drive the demand for optical fiber-based broadband services, which in return aid the market growth significantly.Ericsson increased investment in 5G, AI, and automation in the United States, seeing the strategic opportunity in the market.

 

Competitive Landscape

 

The Optical Switches Market is highly competitive and consists of several major players. In terms of market share, few of the major players currently dominate the market. These major players with prominent share in the market are focusing on expanding their customer base across foreign countries. These companies are leveraging on strategic collaborative initiatives to increase their market share and increase their profitability.

 

The companies operating in the market are also acquiring start-ups working on Optical Switches technologies to strengthen their product capabilities. In June 2018, Hewlett Packard Enterprise and Deutsche Telekom AG implemented the world’s first proof-of-concept network data layer (NDL), which integrates various virtual network functions (VNFs) of different vendors, in a cloud infrastructure.

 

Reasons to Purchase this report:

– The market estimate (ME) sheet in Excel format
– Report customization as per the client’s requirements
– 3 months of analyst support

1 INTRODUCTION

1.1 Study Deliverables
1.2 Study Assumptions
1.3 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET DYNAMICS

4.1 Market Overview
4.2 Introduction to Market Drivers and Restraints
4.3 Market Drivers
4.3.1 High Cost of Maintenance and Equipment for Deploying the Optical Network
4.3.2 Increasing Internet Penetration and Data Traffic of Mobile Devices
4.4 Market Restraints
4.4.1 Resistance in Variation of Existing Applications or Systems
4.4.2 Complexity Issues
4.5 Value Chain / Supply Chain Analysis
4.6 Industry Attractiveness Porters Five Force Analysis
4.6.1 Threat of New Entrants
4.6.2 Bargaining Power of Buyers/Consumers
4.6.3 Bargaining Power of Suppliers
4.6.4 Threat of Substitute Products
4.6.5 Intensity of Competitive Rivalry
4.7 Technology Snapshot

5 MARKET SEGMENTATION
5.1 By Type
5.1.1 All Optical Switch (OOO)
5.1.2 Electro Optical Switch (OEO)
5.2 By Application
5.2.1 Optical Switching
5.2.2 Fiber Restoration and Optic Component Testing
5.2.3 Optical Add – Drop Multiplexing
5.2.4 Network Monitoring
5.2.5 Optical Cross – Connects (OXC)
5.2.6 Others (External Modulators)
5.3 By Technology
5.3.1 Mechanical Optical Switch
5.3.2 Micro Electronics Mechanical Switch (MEMS)
5.3.3 Liquid Crystal Optical Switch
5.3.4 Bubble Switch
5.3.5 Thermal Optical Switch
5.3.6 Semiconductor Optical Amplifiers Switch
5.3.7 Other Technologies
5.4 Geography
5.4.1 North America
5.4.1.1 US
5.4.1.2 Canada
5.4.2 Europe
5.4.2.1 Germany
5.4.2.2 UK
5.4.2.3 France
5.4.2.4 Russia
5.4.2.5 Italy
5.4.2.6 Rest of Europe
5.4.3 Asia Pacific
5.4.3.1 China
5.4.3.2 Japan
5.4.3.3 India
5.4.3.4 South Korea
5.4.3.5 Australia
5.4.3.6 Rest of Asia-Pacific
5.4.4 Latin America
5.4.4.1 Brazil
5.4.4.2 Argentina
5.4.4.3 Mexico
5.4.4.4 Rest of Latin America
5.4.5 Middle East and Africa
5.4.5.1 UAE
5.4.5.2 Saudi Arabia
5.4.5.3 Israel
5.4.5.4 Rest of Middle East and Africa

6 COMPETITIVE LANDSCAPE
6.1 Company Profiles
6.1.1 Keysight Technologies Inc.
6.1.2 Hewlett Packard Enterprise Co
6.1.3 Fujitsu Ltd
6.1.4 ZTE Corporation
6.1.5 Yokogawa Electric Corporation
6.1.6 Nokia Corporation
6.1.7 Cisco Systems Inc.
6.1.8 Huawei Technologies Co Ltd
6.1.9 Ciena Corporation
6.1.10 Infinera Corporation
6.1.11 ADVA Optical Networking SE
6.1.12 Coriant GmbH
6.1.13 Keysight Technologies Inc
6.1.14 Juniper Networks Inc
6.1.15 Ericsson Inc

7 INVESTMENT ANALYSIS

8 MARKET OPPORTUNITIES AND FUTURE TRENDS

 

MARKET SEGMENTATION

 

 

By Type
All Optical Switch (OOO)
Electro Optical Switch (OEO)

 

By Application
Optical Switching
Fiber Restoration and Optic Component Testing
Optical Add – Drop Multiplexing
Network Monitoring
Optical Cross – Connects (OXC)
Others (External Modulators)

 

By Technology
Mechanical Optical Switch
Micro Electronics Mechanical Switch (MEMS)
Liquid Crystal Optical Switch
Bubble Switch
Thermal Optical Switch
Semiconductor Optical Amplifiers Switch
Other Technologies

 

Geography
North America
US
Canada
Europe
Germany
UK
France
Russia
Italy
Rest of Europe
Asia Pacific
China
Japan
India
South Korea
Australia
Rest of Asia-Pacific
Latin America
Brazil
Argentina
Mexico
Rest of Latin America
Middle East and Africa
UAE
Saudi Arabia
Israel
Rest of Middle East and Africa

We value your investment and offer free customization with every report to fulfil your exact research needs.

Share This Post:

Choose License Type