Though the traditional wi-fi serves this purpose, its functionality, especially its speed, is limited by its capabilities. These limitations are now being addressed by WiGig technology, which uses 60 GHz frequency for high-speed data transfer. Such technologies have led to high-speed wireless data sharing at multi-gigabit speeds. It is based on IEEE 802.11ad, the standard wireless communication which makes use of 60 GHz frequency. This technology supports data transfer up to speeds of 7 Gbits/sec. The WiGig technology can be used to transfer data from smartphones, notebooks, personal computers or any other device (WiGig compatible) to other devices. It can also be used to transfer videos from these very devices.
To overcome signal decay, WiGig uses a process called adaptive beamforming'. The antennas do this by adjusting both the amplitudes and the phase shifts of their broadcasted waves. The reception of the signal is then optimized by minimizing different kinds of problems like the error between the antennas' output and the expected signal.
Recently, Samsung developed a high-performance modem technologies along with a wide-coverage beam-forming antenna, which could resolve the line-of-sight (range) issues to an extent. This means that one of the largest consumer device makers will be embracing WiGig. The company also remarked that this tech will be integral to Samsung's smart home and internet of things efforts.
The Europe WiGig market has been broadly segmented by devices, usage models and end-user industry. By different types of devices, the market has been bifurcated into notebooks, personal computers, smartphones, televisions and others. Whereas, instant wireless sync, wireless display, wireless docking and networking are the different usage models in the WiGig market. By end-user industry, the market has been segmented into retail, banking, manufacturing, communications, travel and transport, professional services, energy, healthcare, government, entertainment and media and others.
The market has also been geographically segmented into different countries such as the United Kingdom, Germany, France, Italy and others.
Some of the vendors of this technology mentioned in the report are Qualcomm, Cisco, Intel, Dell, Panasonic, Bridgewave, Silicon Image and Agilent Technologies.
Evolution of next generation devices along with the increasing need for high-speed internet, need for high data transfer rate, lower cost and compatibility with different devices has accelerated the growth of the market.
Some of the key impediments hindering the growth of the market are the range which it supports, i.e. natural interference problems, so the data transfer would require the devices to be close by and in line-of-sight of each other, and the other limitation of the WiGig market is its low availability of vendors for the same.
Market analysis for the Europe WiGig market, with country-specific assessments and competition analysis on a country scale.
Market definition along with the identification of key drivers and restraints.
Identification of factors instrumental in changing the market scenario, rising prospective opportunities, and identification of key companies that can influence this market on a country scale.
Extensively researched competitive landscape section with profiles of major companies along with their market share.
Identification and analysis of the macro and micro factors that affect the Europe WiGig market on a country scale.
A comprehensive list of key market players along with the analysis of their current strategic interests and key financial information.
A wide-ranging knowledge and insights about the major players in this industry and the key strategies adopted by them to sustain and grow in the studied market.
Insights into the major countries in which this industry is growing and also identify the regions that are still untapped.
1.1 Key Deliverables of the Study
1.2 Study Assumptions
1.3 Market Definition
1.4 Key Findings of the Study
2. Research Approach and Methodology
3. Executive Summary
4. Market Dynamics
4.1 Market Overview
4.2 Market Drivers
4.2.1 Increasing Penetration of Portable and Handheld Devices
4.2.2 Evolution of Next Generation Computing Devices and Need for Higher Data
4.3 Market Restraints
4.3.1 Shorter Operating Range of Current WiGig Products
4.3.2 Increasing Investment Due to Increasing Complexity of WiGig Chipsets
4.4 Market Attractiveness – Porter’s Five Forces
4.4.1 Bargaining Power of Suppliers
4.4.2 Bargaining Power of Consumers
4.4.3 Threat of New Entrants
4.4.4 Threat of Substitute Products and Services
4.4.5 Competitive Rivalry within the Industry
4.5 Industry Value Chain Analysis
5. Technology Snapshot
5.1 System on Chip (SoC)
5.2 Integrated Circuit Chip (IC Chip)
6. Europe WiGig Market – Segmentation
6.1 By Devices
6.1.1 Network Infrastructure Devices
18.104.22.168 Backhaul Stations
6.1.2 Communication/Display Devices
22.214.171.124 Smartphones & Tablets
126.96.36.199 Laptops/Personal Computers/Notebooks
188.8.131.52 Digital Cameras
6.2 By Applications
6.2.1 Point-to-Point IP Applications
6.2.2 HDMI Data Streaming
6.2.3 Cordless Computing
6.2.4 Internet Support
6.3 By Usage Models
6.3.1 Instant Wireless Sync
6.3.2 Wireless Display
6.3.3 Wireless Docking
6.4 By End-User
6.4.5 Entertainment and Media
6.4.6 Energy & Power
6.5 By Country
6.5.1 United Kingdom
7. Competitive Intelligence – Company Profiles (List Populated Globally)
7.1 Cisco Systems Inc.
7.2 NEC Corporation
7.3 Panasonic Corporation
7.4 Qualcomm Atheros
7.5 Intel Corporation
7.6 Broadcom Corporation
7.7 Agilent Technologies
7.8 Silicon Image Inc.
7.10 Blu Wireless Technology
8. Investment Outlook
9. Future of Europe WiGig Market