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Asia-Pacific Visible light communication Market

  • Report Code: VI 1004
  • Publish Date: Upcoming
  
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Visible light communication (VLC) technology, one of the advanced optical wireless communication technologies, in which light in the visible region (375nm-780nm) is used as a medium for data transfer. This transfer of data is secure, and the data transfer rates is high as compared to conventional wireless technologies like Wi-Fi, Bluetooth, and Wimax, which use radio waves for communication. Till late 1990s, infrared spectrum was used for the communication. But in the early 2000s, researchers started using visible light from LEDs as the medium for communication. Initially, they were able to achieve network speed of about 100Kbps. With continuous developments, VLC systems can now achieve about 800Mbps data rate for short-range communications. Many companies and research institutes are conducting research to develop and commercialize Gigabit networks for long-range communications.

 

Free space optics (FSO) is based on the same principle as VLC but it uses light in the infrared spectrum for communication. Invention of the RONJA device in 2001, which can achieve 10Mbps network speed over 0.87 miles, boosted the research activities in the FSO technology. FSO was initially used for outdoor communication applications. But in the recent times, indoor applications like enterprise connectivity and hospitals are emerging. FSO is expected to play a major role in enterprise connectivity especially in emerging nations like India and Brazil, where the reach of ICT and fiber connectivity is still low.

 

Reliability and network coverage are the major issues to be considered by the companies while providing VLC services. Interferences from external light sources like sun light, normal bulbs, and opaque materials in the path of transmission will cause interruption in the communication. High installation cost of the VLC systems can be complemented by large-scale implementation of VLC. Adopting VLC technology will reduce further operating costs like electricity charges, and maintenance charges.

 

Visible light communication technology is still in the introductory phase. Indoor networking and location-based services are the only applications that have quite penetrated the market. Products for other applications (intelligent traffic management system, in-flight entertainment, and underwater communication) have hit the market by the end of 2013. VLC may be implemented as a complementary technology to the existing wireless networks. It is expected to penetrate M2M communication, smart cities, power over Ethernet (PoE), wireless sensor networks, ubiquitous networks, and augmented reality after five years.

 

Unlike VLC technology, FSO technology is commercialized in the market for quite some time. FSO technology is majorly used in military and aerospace applications due its secure and high speed data transmission rates. FSO is expected to be deployed in MAN (metropolitan area network), service acceleration, and last mile connectivity applications in the near future.

 

This report categorizes the VLC/Li-Fi market for APAC, based on components, applications, and country. Components include LEDs, infrared emitters, Opto-couplers, and image sensors. Major applications of VLC/Li-Fi covered in this report are intelligent traffic management systems (ITMS), indoor networking, in-flight entertainment, underwater communication, and location based service (LBS). The APAC market is fragmented into China, Japan, India, and South Korea. The report also describes FSO market by applications, including enterprise applications, mobile carrier backhaul, and military & aerospace, and country.

 

Top player for the VLC/Li-Fi market in APAC include Nakagawa Laboratories, Inc. (Japan) and Outstanding Technology Corporation (Japan). Many research centers, institutes, and consortiums are also undertaking R&D activities to develop and commercialize VLC technology. These include Visible Light Communication Consortium (VLCC), Smart Lighting Engineering Research Centre, Keio University (Japan), and so on. The APAC region is expected to be the market leader in the VLC/Li-Fi market, owing to the recent technology developments and increased R&D activities.

 

Scope of the report

 

This research report categorizes the visible light communication technology market for APAC based on component, applications, and country. It also covers the forecast revenue and applications of FSO technology.

 

  1. On the basis of component

VLC technology component market for APAC is segmented into LED, IR emitters, Opto-couplers, and image sensors.

 

  1. On the basis of application areas

VLC technology applications market for APAC is segmented into ITS, indoor networking, in-flight entertainment and communication, underwater communication, and location based services.

 

  1. On the basis of country

Country analysis covers China, Japan, India, and South Korea.

 

Customization Options

 

Along with the market data, you can also customize MMM assessments that meet your company’s specific needs. Customize to get comprehensive industry standard and deep dive analysis of the following parameters:

 

  1. Component Analysis
  • In-depth trend analysis of components in competitive scenario
  • Component matrix, which gives a detailed comparison of component portfolio of each company mapped at country level
  • Component matrix, which gives a detailed comparison of component portfolio for VLC/FSO market, along with the various applications that they are used for
  • Comprehensive coverage of  regulations followed in each country (China, Japan, India and South Korea)

 

  1. Data from VLC/FSO Manufacturing Firms
  • Fast turn-around analysis of manufacturing firms with response to market events and trends
  • Various firms opinion about different components and standards from different companies
  • Qualitative inputs on macro-economic indicators, mergers, and acquisition in each country
  • In-depth analysis of the market for different applications in VLC or FSO market

 

  1. Shipment/Volume Data
  • Value of components shipped annually in each country tracked
  • Quantitative input of VLC/FSO applications in each country tracked

 

  1. Trend Analysis of Applications
  • Application matrix, which gives a detailed comparison of application portfolio of each company mapped at country level
  • Application matrix, which gives a detailed comparison of application portfolio for VLC/FSO market


1 Introduction
1.1 Objective of the study
1.2 Market Definitions
1.3 Market Segmentation & Aspects Covered
1.4 Research Methodology
1.4.1 Assumptions (Market Size, Forecast, etc)

 

2 Executive Summary
 

3 Market Overview
 

4 Visible light communication-Asia-Pacific, By Applications
4.1 Split By Geography
4.1 Visible light communication-China by Applications
4.1 Visible light communication-India by Applications
4.1 Visible light communication-Japan by Applications
4.1 Visible light communication-South Korea by Applications
4.2 Intelligent traffic system-Asia-Pacific
4.2.1 Intelligent traffic system-Asia-Pacific, By Geographies
4.2.1.1 Intelligent traffic system-China
4.2.1.2 Intelligent traffic system-India
4.2.1.3 Intelligent traffic system-Japan
4.2.1.4 Intelligent traffic system-South Korea
4.2.2 Intelligent traffic system-Asia-Pacific, By Types
4.2.2.1 Advance traveller information-Asia-Pacific
4.2.2.2 Advance public transportaion-Asia-Pacific
4.2.2.3 Advance traffic management-Asia-Pacific
4.3 In flight entertainment and communication-Asia-Pacific
4.3.1 In flight entertainment and communication-Asia-Pacific, By Geographies
4.3.1.1 In flight entertainment and communication-China
4.3.1.2 In flight entertainment and communication-India
4.3.1.3 In flight entertainment and communication-Japan
4.3.1.4 In flight entertainment and communication-South Korea
4.4 Indoor networking-Asia-Pacific
4.4.1 Indoor networking-Asia-Pacific, By Geographies
4.4.1.1 Indoor networking-China
4.4.1.2 Indoor networking-India
4.4.1.3 Indoor networking-Japan
4.4.1.4 Indoor networking-South Korea
4.5 Location based service-Asia-Pacific
4.5.1 Location based service-Asia-Pacific, By Geographies
4.5.1.1 Location based service-China
4.5.1.2 Location based service-India
4.5.1.3 Location based service-Japan
4.5.1.4 Location based service-South Korea
4.5.2 Location based service-Asia-Pacific, By Types
4.5.2.1 Navigation-Asia-Pacific
4.5.2.2 location based shopping-Asia-Pacific
4.5.2.3 location based social networking-Asia-Pacific
4.5.2.4 Location based mobile ad-Asia-Pacific
4.5.2.5 location enable search-Asia-Pacific

 

5 Visible light communication-Asia-Pacific, By Components
5.1 Split By Geography
5.2 Visible light communication-China by Components
5.1 Visible light communication-India by Components
5.1 Visible light communication-Japan by Components
5.1 Visible light communication-South Korea by Components
5.2 Visible light communication-Asia-Pacific-LED
5.2.1 Visible light communication-Asia-Pacific-LED, By Geographies
5.2.1.1 Visible light communication-China-LED
5.2.1.2 Visible light communication-India-LED
5.2.1.3 Visible light communication-Japan-LED
5.2.1.4 Visible light communication-South Korea-LED
5.3 Visible light communication-Asia-Pacific-Image Sensor
5.3.1 Visible light communication-Asia-Pacific-Image Sensor, By Geographies
5.3.1.1 Visible light communication-China-Image Sensor
5.3.1.2 Visible light communication-India-Image Sensor
5.3.1.3 Visible light communication-Japan-Image Sensor
5.3.1.4 Visible light communication-South Korea-Image Sensor
5.4 Visible light communication-Asia-Pacific-Optocouplers (Semiconductor Industry)
5.4.1 Visible light communication-Asia-Pacific-Optocouplers (Semiconductor Industry), By Geographies
5.4.1.1 Visible light communication-China-Optocouplers (Semiconductor Industry)
5.4.1.2 Visible light communication-India-Optocouplers (Semiconductor Industry)
5.4.1.3 Visible light communication-Japan-Optocouplers (Semiconductor Industry)
5.4.1.4 Visible light communication-South Korea-Optocouplers (Semiconductor Industry)
5.5 Visible light communication-Asia-Pacific-IR Emitter
5.5.1 Visible light communication-Asia-Pacific-IR Emitter, By Geographies
5.5.1.1 Visible light communication-China-IR Emitter
5.5.1.2 Visible light communication-India-IR Emitter
5.5.1.3 Visible light communication-Japan-IR Emitter
5.5.1.4 Visible light communication-South Korea-IR Emitter

 

6 Visible light communication-Asia-Pacific, By Geographies
6.1 Visible light communication-China
6.1.1 Visible light communication-China, By Components
6.1.1.1 Visible light communication-China-LED
6.1.1.2 Visible light communication-China-Image Sensor
6.1.1.3 Visible light communication-China-Optocouplers (Semiconductor Industry)
6.1.1.4 Visible light communication-China-IR Emitter
6.1.2 Visible light communication-China, By Applications
6.1.2.1 Intelligent traffic system-China
6.1.2.2 In flight entertainment and communication-China
6.1.2.3 Indoor networking-China
6.1.2.4 Location based service-China
6.2 Visible light communication-India
6.2.1 Visible light communication-India, By Components
6.2.1.1 Visible light communication-India-LED
6.2.1.2 Visible light communication-India-Image Sensor
6.2.1.3 Visible light communication-India-Optocouplers (Semiconductor Industry)
6.2.1.4 Visible light communication-India-IR Emitter
6.2.2 Visible light communication-India, By Applications
6.2.2.1 Intelligent traffic system-India
6.2.2.2 In flight entertainment and communication-India
6.2.2.3 Indoor networking-India
6.2.2.4 Location based service-India
6.3 Visible light communication-Japan
6.3.1 Visible light communication-Japan, By Components
6.3.1.1 Visible light communication-Japan-LED
6.3.1.2 Visible light communication-Japan-Image Sensor
6.3.1.3 Visible light communication-Japan-Optocouplers (Semiconductor Industry)
6.3.1.4 Visible light communication-Japan-IR Emitter
6.3.2 Visible light communication-Japan, By Applications
6.3.2.1 Intelligent traffic system-Japan
6.3.2.2 In flight entertainment and communication-Japan
6.3.2.3 Indoor networking-Japan
6.3.2.4 Location based service-Japan
6.4 Visible light communication-South Korea
6.4.1 Visible light communication-South Korea, By Components
6.4.1.1 Visible light communication-South Korea-LED
6.4.1.2 Visible light communication-South Korea-Image Sensor
6.4.1.3 Visible light communication-South Korea-Optocouplers (Semiconductor Industry)
6.4.1.4 Visible light communication-South Korea-IR Emitter
6.4.2 Visible light communication-South Korea, By Applications
6.4.2.1 Intelligent traffic system-South Korea
6.4.2.2 In flight entertainment and communication-South Korea
6.4.2.3 Indoor networking-South Korea
6.4.2.4 Location based service-South Korea

 

7 Visible light communication-Asia-Pacific, By Companies
7.1 Competitive landscape
7.2 Split By Geography
7.3 Visible light communication-China by Companies
7.1 Visible light communication-India by Companies
7.1 Visible light communication-Japan by Companies
7.1 Visible light communication-South Korea by Companies
7.3 Visible light communication-Asia-Pacific-Ubiquiti Networks, Inc.
7.4 Visible light communication-Asia-Pacific-Lightpointe corp
7.5 Visible light communication-Asia-Pacific-Nakagawa Laboratories, Inc.
7.6 Visible light communication-Asia-Pacific-fSONA Networks Corp.
7.7 Visible light communication-Asia-Pacific-LVX System
7.8 Visible light communication-Asia-Pacific-pureVLC Ltd

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