Global Electric Unmanned Aerial Vehicles Industry 2014 Market Research Report - Technology Market Research, Inc

The report firstly introduced the Electric Unmanned Aerial Vehicles basics: definitions, classifications, applications and industry chain overview; industry policies and plans; product specifications; manufacturing processes; cost structures and so on. Then it analyzed the world's main region market conditions, including the product price, profit, capacity, production, capacity utilization, supply, demand and industry growth rate etc. In the end, the report introduced new project SWOT analysis, investment feasibility analysis, and investment return analysis.

The report includes six parts, dealing with: 1.) basic information; 2.) the Asia Electric Unmanned Aerial Vehicles industry; 3.) the North American Electric Unmanned Aerial Vehicles industry; 4.) the European Electric Unmanned Aerial Vehicles industry; 5.) market entry and investment feasibility; and 6.) the report conclusion.

Table of Contents

Part I Electric Unmanned Aerial Vehicles Industry Overview
Chapter One Electric Unmanned Aerial Vehicles Industry Overview
1.1 Electric Unmanned Aerial Vehicles Definition
1.2 Electric Unmanned Aerial Vehicles Classification Analysis
1.2.1 Electric Unmanned Aerial Vehicles Main Classification Analysis
1.2.2 Electric Unmanned Aerial Vehicles Main Classification Share Analysis
1.3 Electric Unmanned Aerial Vehicles Application Analysis
1.3.1 Electric Unmanned Aerial Vehicles Main Application Analysis
1.3.2 Electric Unmanned Aerial Vehicles Main Application Share Analysis
1.4 Electric Unmanned Aerial Vehicles Industry Chain Structure Analysis
1.5 Electric Unmanned Aerial Vehicles Industry Development Overview
1.5.1 Electric Unmanned Aerial Vehicles Product History Development Overview
1.5.1 Electric Unmanned Aerial Vehicles Product Market Development Overview
1.6 Electric Unmanned Aerial Vehicles Global Market Comparison Analysis
1.6.1 Electric Unmanned Aerial Vehicles Global Import Market Analysis
1.6.2 Electric Unmanned Aerial Vehicles Global Export Market Analysis
1.6.3 Electric Unmanned Aerial Vehicles Global Main Region Market Analysis
1.6.4 Electric Unmanned Aerial Vehicles Global Market Comparison Analysis
1.6.5 Electric Unmanned Aerial Vehicles Global Market Development Trend Analysis

Chapter Two Electric Unmanned Aerial Vehicles Up and Down Stream Industry Analysis
2.1 Upstream Raw Materials Analysis 
2.1.1 Upstream Raw Materials Price Analysis 
2.1.2 Upstream Raw Materials Market Analysis
2.1.3 Upstream Raw Materials Market Trend
2.2 Down Stream Market Analysis
2.1.1 Down Stream Market Analysis
2.2.2 Down Stream Demand Analysis
2.2.3 Down Stream Market Trend Analysis

Part II Asia Electric Unmanned Aerial Vehicles Industry (The Report Company Including the Below Listed But Not All) 
Chapter Three Asia Electric Unmanned Aerial Vehicles Market Analysis
3.1 Asia Electric Unmanned Aerial Vehicles Product Development History
3.2 Asia Electric Unmanned Aerial Vehicles Process Development History
3.3 Asia Electric Unmanned Aerial Vehicles Industry Policy and Plan Analysis
3.4 Asia Electric Unmanned Aerial Vehicles Competitive Landscape Analysis
3.5 Asia Electric Unmanned Aerial Vehicles Market Development Trend

Chapter Four 2009-2014 Asia Electric Unmanned Aerial Vehicles Productions Supply Sales Demand Market Status and Forecast
4.1 2009-2014 Electric Unmanned Aerial Vehicles Capacity Production Overview
4.2 2009-2014 Electric Unmanned Aerial Vehicles Production Market Share Analysis
4.3 2009-2014 Electric Unmanned Aerial Vehicles Demand Overview
4.4 2009-2014 Electric Unmanned Aerial Vehicles Supply Demand and Shortage
4.5 2009-2014 Electric Unmanned Aerial Vehicles Import Export Consumption
4.6 2009-2014 Electric Unmanned Aerial Vehicles Cost Price Production Value Gross Margin

Chapter Five Asia Electric Unmanned Aerial Vehicles Key Manufacturers Analysis
5.1 Company A
5.1.1 Company Profile
5.1.2 Product Picture and Specification
5.1.3 Product Application Analysis
5.1.4 Capacity Production Price Cost Production Value
5.1.5 Contact Information
5.2 Company B
5.2.1 Company Profile
5.2.2 Product Picture and Specification
5.2.3 Product Application Analysis
5.2.4 Capacity Production Price Cost Production Value
5.2.5 Contact Information
5.3 Company C
5.3.1 Company Profile
5.3.2 Product Picture and Specification
5.3.3 Product Application Analysis
5.3.4 Capacity Production Price Cost Production Value
5.3.5 Contact Information
5.4 Company D
5.4.1 Company Profile
5.4.2 Product Picture and Specification
5.4.3 Product Application Analysis
5.4.4 Capacity Production Price Cost Production Value
5.4.5 Contact Information

Chapter Six Asia Electric Unmanned Aerial Vehicles Industry Development Trend
6.1 2014-2018 Electric Unmanned Aerial Vehicles Capacity Production Overview
6.2 2014-2018 Electric Unmanned Aerial Vehicles Production Market Share Analysis
6.3 2014-2018 Electric Unmanned Aerial Vehicles Demand Overview
6.4 2014-2018 Electric Unmanned Aerial Vehicles Supply Demand and Shortage
6.5 2014-2018 Electric Unmanned Aerial Vehicles Import Export Consumption
6.6 2014-2018 Electric Unmanned Aerial Vehicles Cost Price Production Value Gross Margin

Part III North American Electric Unmanned Aerial Vehicles Industry (The Report Company Including the Below Listed But Not All)
Chapter Seven North American Electric Unmanned Aerial Vehicles Market Analysis
7.1 North American Electric Unmanned Aerial Vehicles Product Development History
7.2 North American Electric Unmanned Aerial Vehicles Process Development History
7.3 North American Electric Unmanned Aerial Vehicles Competitive Landscape Analysis
7.4 North American Electric Unmanned Aerial Vehicles Market Development Trend

Cleaning Robots: Market Shares, Strategies, and Forecasts, Worldwide, 2014 to 2020 - Technology Market Research, Inc

The automated process revolution in business process and communications is being extended to home cleaning robots. Household robot market driving forces are aspects of automated process applied to the home for achieving better use of time, creating more time for people. Using robots to replace manual cleaning is a compelling shift in managing a household. Robots for cleaning are very useful.

Robots automating cleaning systems give a chance to run the vacuum every day and keep the home cleaner while at the same time leaving more time for leisure activities. Innovation is the result of ongoing performance improvement in the areas of product development and customer support. Markets have increasing competition. Products from market leading vendors continue to compete favorably. New products and enhancements provide ease of use. Better batteries let products run for longer periods.

The principal competitive factors in the market for cleaning robots include performance, cost of purchase, length batteries work, and total cost of system operation. The cost of unit maintenance and support is a competitive aspect. Products compete based on ease of use, integration with existing equipment, quality, reliability, customer support, brand, and reputation.

Robotics related innovations improve demand. Robots for cleaning address a broader part of the potential customer base as the technology matures. Use of robots for cleaning is becoming more accepted. Products are becoming more diverse. With the technical improvements in sensors, visualization, and in the fields of robotic hobby, recreation, and warfare, robots are becoming less expensive and more adaptive to the cleaning task. The rise of futuristic cutting edge industries and the decline of manufacturing industries gives rise to market conditions that support the evolution of more elaborate, smaller, less expensive cleaning robots. The robot industry today is expanding from industrial areas to fields where robots can be used in the same areas with humans.

Robots have gained credibility and higher adoption rates for home cleaning.

According to Susan Eustis, lead author of the WinterGreen Research team that prepared the study, “The opportunity to participate in home cleaning robot markets is broadly open as the technologies are available to construct a system. In the case of personal robots cleaning functions are accompanied by medical, welfare, education, service, and educational functional capabilities. The robot industry follows the semiconductor industry. Sales in 2013 for home cleaning robots are small compared to what will be achieved by 2020. The home cleaning industry market is anticipated to expand to the size of a $9 billion market as every household is equipped with one or more cleaning robots. Cleaning robots will achieve their fair share of this.”

Vacuum cleaner robots are forecast to grow rapidly from $981 million in 2013 to $2.6 billion by 2020 because units provide automated process that implements effective cleaning power. Vacuuming with the added convenience of automated performance is sure to fill the gap for people who have less available time to clean their homes.

Market Leaders

• iRobot
• Samsung
• Toshiba
• Yujin
• LG
• Ecovacs
• Philips

Market Participants

• Bandai
• Coroware
• Dyson
• Electrolux
• Fluidra
• Google
• Hanool Robotics
• Hayward
• iRobot
• Karcher
• KumoTek
• Kyosho
• LG
• Lilin Group
• Mamirobot
• Matsutek
• Metapo
• Microbric
• Miele
• MSI
• Neato Robotics
• NEC
• P3
• Parallax
• Pentair
• Samsung
• Surveyor
• Yujin Robot
• Zodiac Pool Systems

Key Topics

• Cleaning Robots
• Cleaning RobotForecasts
• Cleaning Robot Market
• Shares
• Cleaning Robot
• Vacuum Cleaning Robot
• Cleaning RobotRenewable
• Energy
• Vacuum Sensors Cleaning
• Robot
• Cleaning RobotAdvances In
• Technology
• Cleaning Robot Saves
• Shipping Costs
• Cleaning Robot Saves Space
• Cleaning Robot Innovation
• Modular Robot Structure
• Chain / Tree Architectures
• Pool Cleaners

Commercial Drones: Highways in the Sky,Commercial Unmanned Aerial Systems(UAS),Market Shares, Strategies, and Forecasts, Worldwide, 2015-2021 By Technology Market Research, Inc

Drones markets promise to grow significantly because of the more economical visualization and navigation provided by systems.  Visualization includes mapping from the air, inspection from the air, surveillance from the air, and package delivery from the air.  The unmanned aircraft equipped with cameras are able to do things that cannot be done in any other way.  This bodes well for market development. 

Unmanned aircraft systems promise to achieve a more significant aspect of commercial market presence. Army Unmanned Aircraft Systems flying of 3 million flight hours gives drones market credibility. Eighty eight percent of those hours were logged in combat situations in Iraq and Afghanistan, paving the way for commercial drone markets to develop. 

Quantities of fielded systems increase as application usefulness increases.  Police departments, the oil and gas industry, border patrol, and utilities are all using commercial drones.  Units are used for agriculture.  Vendors continue to improve the capabilities of these drone aircraft as more air miles are logged. Their ability to support the commercial endeavors is increasing.  Unmanned aircraft have fundamentally changed the accuracy of utility and oil and gas inspections.  They are set to fundamentally change how agriculture is conducted. 

Japan and Australia have been using drones in agriculture since the 1980s.  Worldwide markets are evolving for several compelling applications.  High value crops are a target of agricultural robotic development.  What could be tastier than a strawberry, perfectly formed, and perfectly ripened?  New agricultural robots are able to improve the delivery of consistent quality food, and to implement efficiency in managing food production. 

Strawberries are a high profit crop.  A new generation of drones has just been born. Strawberry spraying with the world's most advanced technology is able to give maximum performance to a farm.  Harvesting robots can use pictures from drones to optimize the productivity of the farming business by determining fruit ripeness from the air.  Growers can get the best results in a berry farm using automated process.  Automated picking collection systems improve labor productivity, give speed and agility to harvest operations. 

The robotic platforms are capable of site-specific spraying.  The capability is targeted spraying only on foliage and selected targets.  It can be used for selective harvesting of fruit. The robots detect the fruit, sense its ripeness, then move to grasp and softly detach only ripe fruit. 

Drone commercial uses will provide billions of dollars in economic growth. Centers of excellence are evolving worldwide.  For the most part, open-use policies are in effect worldwide.  Except in the US, Drones are currently mostly banned in the US.  The US is more restrictive, it could take months, even years before the FAA offers preliminary guidelines on the commercial use of unmanned aircraft systems  

Commercial drones are set to build highways in the sky.  The market will only evolve past the early adopter stage after the industry finds ways to build navigation infrastructure that is safe and that works.  Roads in the sky will create altitude differences that function as bridges to separate the drones from each other when they are flying at angles to each other. 

This type of navigation needs to be defined by industry standards groups, much as the software industry has been able to develop industry stands that provide the base for a market, so also, the commercial drone manufacturers need to come together with representatives from each company and from all the governments to decide on the highways in the sky. 

Another aspect of commercial drone markets is the safety issue.  If drones become so prevalent that they fall out of the sky on people or homes, this becomes a problem for the people hit or the people who own the homes that are destroyed.  As the air crashes from so long ago in the 1920’s to yesterday illustrate, people are deterred from commercial drone use by air crashes.  Crashes can virtually destroy what is promising to be a burgeoning industry of commercial drones. 

The drone industry is going to need to find a way to prevent injuries on the ground before anyone will support the burgeoning industry in any significant way. 

In unpopulated areas like to Alaskan oil fields oil pipelines, and utility high wires, there is plenty of space for the drones to make a market.  In vast agricultural land areas, drones promise to be able to be used without any danger to humans.  The drones create new uses for automated process.  The drones are less expensive than manned vehicles and more useful. They are useful in agricultural applications where the cameras are able to do spotting in a manner that is more efficient than the humans can do.  

Unmanned aircraft systems are achieving a level of relatively early maturity.  Fleets of unmanned aircraft systems have begun to evolve.  The U.S. Army has achieved one million flight hours for its unmanned aircraft systems fleet.  Unmanned aerial systems have good handling characteristics. UAS units are designed to perform high-speed, longendurance, more covert, multi-mission intelligence, surveillance, and reconnaissance (ISR) and precision-strike missions over land or sea.  

Drone units feature a variety of internal loads, including 2,000 lb payload, an Electro-optical/Infrared (EO/IR) sensor, and an all-weather GA-ASI Lynx® synthetic aperture radar/ground moving target indicator (SAR/GMTI), maximizing long loiter capabilities. 

UAS offers the business persistent situational awareness and mission affordability.  For the cost of one manned fighter aircraft, multiple-swarm configured units can cover an area of interest, providing 24/7 ISR coverage, target identification, neutralization, mission flexibility, and attrition tolerance. Some drone UAS have the capability to support manned aircraft missions if desired. 

Drones markets promise to grow significantly because of the better visualization provided by systems.  Visualization includes mapping from the air, inspection from the air, surveillance from the air, and package delivery from the air.  The unmanned aircraft equipped with cameras are able to do things that cannot be done in any other way.  This bodes well for market development. 

Unmanned aircraft systems promise to achieve a more significant aspect of commercial market presence. Army Unmanned Aircraft Systems flying of 3 million flight hours gives drones market credibility. Eighty eight percent of those hours were logged in combat situations in Iraq and Afghanistan. 

According to Susan Eustis, leader of the team that prepared the study, “Quantities of fielded systems increase.  Police departments, the oil and gas industry, border patrol, and utilities are all using commercial drones.  Units are used for agriculture.  Vendors continue to improve the capabilities of these drone aircraft. Their ability to support the commercial endeavors is increasing.  Unmanned aircraft have fundamentally changed the accuracy of utility and oil and gas inspections.  They are set to fundamentally change how agriculture is conducted.” 

Unmanned aerial systems (UAS) markets at $609 million in 2014 are forecast to reach $4.8 billion dollars, worldwide by 2021.  This is a sizable market growth with oil and gas mapping, utility line inspection, package delivery, and agricultural applications accounting for virtually all the unit sales.  Drones can provide more information at less cost than a human inspection team can. 

WinterGreen Research is an independent research organization funded by the sale of market research studies all over the world and by the implementation of ROI models that are used to calculate the total cost of ownership of equipment, services, and software.  The company has 35 distributors worldwide, including Global Information Info Shop, Market Research.com, Research and Markets, Bloomberg, electronics.ca, and Thompson Financial.  WinterGreen Research is positioned to help customers facing challenges that define the modern enterprises. The increasingly global nature of science, technology and engineering is a reflection of the implementation of the globally integrated enterprise.  Customers trust wintergreen research to work alongside them to ensure the success of the participation in a particular market segment. 

WinterGreen Research supports various market segment programs; provides trusted technical services to the marketing departments.  It carries out accurate market share and forecast analysis services for a range of commercial and government customers globally.  These are all vital market research support solutions requiring trust and integrity.

Companies Profiled

Market Leaders

• Lockheed Martin
• Textron
• Boeing / Insitu
• Northrop Grumman
• Draganflyer
• AeroVironment

Market Participants

• AeroVironment
• Finmeccanica
• MMist
• ASN Technologies
• General Atomics
• Northrop Grumman
• Aurora Flight
• Google
• Parrot/senseFly
• BAE Systems
• Integrated Dynamics
• Proxy Technologies
• Boeing L-3 Communications
• Scaled Composites
• Challis UAV Inc.
• Laser Motive
• Schiebel
• China Aerospace
• Lockheed Martin
• Textron i
• Draganflyer
• Marcus UAV

Key Topics

• Commercial Drones
• Drone Unmanned Aerial
• Systems (UAS)
• Drone 3D Mapping
• Drone Commercial Pipeline
• Observation
• Drone Border Patrol
• Drone Package Delivery
• Drone Photography

Public Safety LTE: A Global Assessment of Market Share, Study, Technology, Vendor Trends and Spectrum Allocation 2015 - 2020 - Technology Market Research, Inc

Considered as the de-facto standard for Public Safety broadband communications, LTE is rapidly gaining momentum within the Public Safety industry. As a result Public Safety agencies, vendors and service provider are heavily investing in Public Safety LTE, with commercial deployments in both the North America and the Middle East region.



While initial investments appear promising there still remain a number of key issues that need to be addressed such as frequency spectrum allocation, funding for private LTE network deployments, QoS prioritization of users in commercial networks, and interoperability with legacy Land Mobile Radio (LMR) systems such as APCO 25 and TETRA.



This report provides an in-depth of the global Public Safety LTE industry to address the aforementioned issues, in addition to providing a detail assessment of the technology, market size, and key trends within the Public Safety LTE industry.  All purchases of Mind Commerce reports includes time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.



The report covers the following topics:




Global Spectrum Allocation for Public Safety LTE: A global assessment of spectrum allocation and funding for Public Safety LTE deployments, based on input from regional regulatory authorities.
Global Public Safety LTE Market Size, Contracts & Trials: A global review of the worldwide Public Safety LTE market including assessment of revenue share by market segment (infrastructure sales, services, user device sales, etc), and a review of global contracts and trial engagements.
RAN Sharing and Roaming: The term "RAN sharing" refers to sharing of actual eNodeBs. As part of this arrangement, each operator accesses the shared RAN with its own EPC. Vendors are also considering the implementation of Inter-PLMN handover (as opposed to roaming) and then for LTE Commercial carriers to deploy Policies for Service Level Agreements that include Priority Access (Access Class Barring, Preemption and ARP) and QoS/ QCI assignment for default and dedicated bearers. The report assesses in detail how many of vendors and commercial carriers will support RAN sharing, roaming and inter-PLMN handovers which will be key factors towards the adoption of commercial LTE RANs for Public Safety applications.
Global QoS Requirements for Public Safety LTE Communications: A detailed assessment of global requirements for Priority access and High QoS for Public Safety subscribers, for shared commercial LTE networks, while they roam on to Commercial Networks.
Public Safety LTE Devices and End User Applications: An assessment of device usability characteristics, Multi-Radio LTE/LMR interoperability technology, Software and Applications (VoLTE, PTT over LTE, IMS, IP).
Vendor Trends and Roadmaps: A detailed assessment of solution portfolios and roadmaps for major infrastructure/ device vendors and system integrators
LTE-Advanced Support for Heterogeneous Commercial/LMR Networks: In-depth assessment of the LTE Advanced standard and technologies and spectrum planning for Fixed/Nomadic based Pico Cells/Femto Cells and mobile base stations (e.g. LTE Cell on Wheels (CoW)) and proximity based services such as Direct Mode Operation (DMO) in LMR systems, which have broad implications for the adoption of Public Safety LTE services.
LTE based Public Safety Tactical Systems and Military Applications: Detailed market assessment of LTE based Public Safety Tactical Systems such as CoW, Cell over Light Trucks (COLTs) and Military Applications for LTE.





Target Audience:




System Integrators
Public Safety Agencies
LMR Radio Manufacturers
Cellular Network Operators
Smartphone Manufacturers
Public Safety Network Operators
LMR Infrastructure Manufacturers
Public Safety Application Developers
Mobile Computing Equipment Manufacturers
Cellular Network Infrastructure Manufacturers


Table Of Content :




1 Introduction 9

1.1 Executive Summary 9

1.2 Topics Covered 10

1.3 Key Findings 12

1.4 Key Questions Answered 12

1.5 Target Audience 13

1.6 Companies Mentioned 13



2 Present Overview of the Public Safety LTE Market 16

2.1 The Business Case for Public Safety LTE 17

2.2 Commercial Availability of Public Safety LTE Devices 22

2.3 Public Safety LTE Deployments throughout the Globe 23

2.4 Public Safety LTE Market Size and Revenue Opportunities 26

2.4.1 Regional Segmentation and Market Share 27

2.4.2 Market Segmentation: Commercial vs Private Networks 28

2.4.3 Infrastructure Vendor Market Share & Revenue 31

2.4.4 Device Vendor Market Share & Revenue 34



3 Public Safety LTE Technology 36

3.1 Overview of LTE Technology 36

3.2 LTE RAN Technology (E-UTRAN) 38

3.3 EPC Technology 40

3.4 Public Safety Specific Entities for LTE Networks 42

3.5 QoS for Public Safety LTE Systems: Global Requirements and Solutions 43

3.6 Interoperability between Commercial and Private LTE Networks 45

3.7 Interoperability with APCO 25 and TETRA Systems 46

3.8 LTE Advanced Support for Heterogeneous Commercial and LMR Networks 47

3.9 Tactical Deployment Solutions for Public Safety LTE 48

3.10 System in a Box 51

3.11 Small Cells and Relays 52

3.12 Aerial Cells 52

3.13 Integration with Military Communication Systems 53

3.14 Public Space Deployments 54



4 Public Safety LTE Solutions, Devices and Applications 56

4.1 Public Safety LTE Devices & Vendor Roadmaps 56

4.2 Public Safety LTE Infrastructure Solutions & Vendor Roadmaps 60

4.3 Public Safety LTE Network & IoT 61

4.4 Public Safety LTE Network Deployment & Operations Tools 61

4.5 Public Safety LTE Applications 62



5 Spectrum Regulation and Funding Implications for Public Safety LTE 65

5.1 Global Spectrum Allocation for LTE Deployments 65

5.2 Regional Segmentation for Public Safety LTE Deployments 67

5.2.1 North America 67

5.2.2 Western Europe 69

5.2.3 Eastern Europe 70

5.2.4 Middle East & Africa 70

5.2.5 Asia Pacific 71

5.2.6 Latin & Central America 72



6 Public Safety LTE Subscriptions and Market Size 2014 - 2019 74

6.1 Global Public Safety LTE Revenue and Market Share Forecasts 74

6.1.1 Global LTE Industry Revenues 74

6.1.2 Market Share by Industry Segment 75

6.1.3 Market Share by Region 78

6.1.4 Market Share by Vendor / Integrator / Service Provider 87

6.1.5 Global LTE Subscriptions 89

6.2 Regional Public Safety LTE Subscription Forecasts 91

6.2.1 North America 92

6.2.2 Western Europe 93

6.2.3 Eastern Europe 94

6.2.4 Middle East & Africa 95

6.2.5 Asia Pacific 96

6.2.6 Latin & Central America 97



7 Public Safety Broadband Subscriptions and Market Size 2014 - 2019 98

7.1 Global Public Safety Mobile Broadband Subscriptions by Technology 98

7.2 Global Public Safety Mobile Broadband Revenue by Technology 99

Industrial Robots Marke Size, Industry Trends and Forecasts To 2020 : Technology Market Research, Inc

Technology Market Research Provide most relevent data according to technology Industry. Industrial robots have been widely applied in a broad range of fields such as assembly, production, electric welding, spraying and painting, food packaging, and component installation. Recent years, several companies have seen aggressive investment in related technologies or M&A activities, including Fanuc, ABB, KUKA, Yaskawa, Mitsubishi, Hitachi, Sony, Toyota, Honda, and Samsung. Even Foxconn has jumped on the bandwagon. This report provides an overview of the industrial robot technologies and thorough patent data mining results that reflect major vendors' patent deployments and technology trends. Also included are the outlook for the industrial robot market and opportunities for perspective entrants.

Table of Contents

1 Technology Development

1.1Type of Technology

1.2 Component Systems

2. Patent Mining

2.1 Patent Search

2.1.1 Selecting a Patent Database:

2.1.2 Identifying Search Keywords:

2.1.3 Data Selection:

2.1.4 Data Analysis:

2.2 Trend Analysis

2.2.1 Text Mining

2.2.2 Data Mining

2.2.3 Relative R&D strength

2.2.4 Results of Patent Index Analysis

3. Market Outlook

MIC Perspective

Appendix

Research Scope

Glossary of Terms

List of Companies

List of Tables

Industrial Robot Category and Types

Key Technology Fields Identified By Text Mining

Technology Keyword Ranking by Number of Patents

Top 30 Assignees in the Field of Industrial Robot with Detailed Profile

Top 10 Industrial Robot Patents

Matrix Analysis of 10 Most Important Industrial Robot Patents

Leading Industrial Robot Companies' Product Portfolios by Mechanical Structure

List of Figures

Illustration of Industrial Robots

Industrial Robot Systems and Their Component Coverage

Search Flow for Industrial Robot Patents

Industrial Robot Distribution Share by Sector

Worldwide Industrial Robot Patent Share by Field Type

Worldwide Industrial Robot Market Volume, 2010 - 2016

Worldwide Industrial Robot Market Volume Share by Application

Worldwide Industrial Robot Market Volume Share by Sector

Worldwide Industrial Robot Market Volume Share by Robot Type

Industrial Robot Market Adoption Intensity by Country

Chinese Industrial Robot Market Volume by Sector and Application

Taiwanese Industrial Robot Market Volume by Application and Robot Type

Worldwide Industrial Robot Market Value

Industrial Robot Market Value Share by Regional Market

Illustration of Industrial Robots by Fanuc

Illustration of Industrial Robots by ABB

Illustration of Industrial Robot by KUKA

Illustration of Industrial Robots by Yaskawa