New Jersey, United States,- The report is a must-have for business strategists, participants, consultants, researchers, investors, entrepreneurs, and other interested parties associated with the Service Robotics Market. It is also a highly useful resource for those looking to foray into the Service Robotics market. Besides Porters Five Forces and SWOT analysis, it offers detailed value chain assessment, comprehensive study on market dynamics including drivers, restraints, and opportunities, recent trends, and industry performance analysis. Furthermore, it digs deep into critical aspects of key subjects such as market competition, regional growth, and market segmentation so that readers could gain sound understanding of the Service Robotics market.

The research study is a brilliant account of macroeconomic and microeconomic factors influencing the growth of the Service Robotics market. This will help market players to make appropriate changes in their approach toward attaining growth and sustaining their position in the industry. The Service Robotics market is segmented as per type of product, application, and geography. Each segment is evaluated in great detail so that players can focus on high-growth areas of the Service Robotics market and increase their sales growth. Even the competitive landscape is shed light upon for players to build powerful strategies and give a tough competition to other participants in the Service Robotics market.

The competitive analysis included in the report helps readers to become aware of unique characteristics of the vendor landscape and crucial factors impacting the market competition. It is a very important tool that players need to have in their arsenal for cementing a position of strength in the Service Robotics market. Using this report, players can use effective business tactics to attract customers and improve their growth in the Service Robotics market. The study provides significant details about the competitive landscape and allows players to prepare for future challenges beforehand.

Service Robotics Market Segmentation

This market has been divided into types, applications and regions. The growth of each segment provides a precise calculation and forecast of sales by type and application, in terms of volume and value for the period between 2020 and 2026. This analysis can help you develop your business by targeting qualified niche markets. . Market share data are available at global and regional levels. The regions covered by the report are North America, Europe, Asia-Pacific, the Middle East and Africa and Latin America. Research analysts understand competitive forces and provide competitive analysis for each competitor separately.

Service Robotics Market by Type:

YYYY

Service Robotics Market by Application:

ZZZZ

Service Robotics Market by Region:

North America (The USA, Canada, and Mexico)Europe (Germany, France, the UK, and Rest of Europe)Asia Pacific (China, Japan, India, and Rest of Asia Pacific)Latin America (Brazil and Rest of Latin America.)Middle East &Africa (Saudi Arabia, the UAE, South Africa, and Rest of Middle East & Africa)

The report answers important questions that companies may have when operating in the Service Robotics market. Some of the questions are given below:

What will be the size of the Service Robotics market in 2026?

What is the current CAGR of the Service Robotics market?

What products have the highest growth rates?

Which application is projected to gain a lions share of the Service Robotics market?

Which region is foretold to create the most number of opportunities in the Service Robotics market?

Which are the top players currently operating in the Service Robotics market?

How will the market situation change over the next few years?

What are the common business tactics adopted by players?

What is the growth outlook of the Service Robotics market?

To get Incredible Discounts on this Premium Report, Click Here @ https://www.verifiedmarketresearch.com/ask-for-discount/?rid=4745&utm_source=COD&utm_medium=003

Reasons to Buy the Report

Upgrade your market research resources with this comprehensive and accurate report on the Service Robotics market

Get complete understanding of general market scenarios and future market situations to prepare for rising above the challenges and ensuring strong growth

The report offers in-depth research and various tendencies of the Service Robotics market

It provides detailed analysis of changing market trends, current and future technologies used, and various strategies adopted by leading players of the Service Robotics market

It offers recommendations and advice for new entrants of the Service Robotics market and carefully guides established players for further market growth

Apart from hottest technological advances in the Service Robotics market, it brings to light the future plans of dominant players in the industry

Table of Contents

Market Overview: This section comes under executive summary and is divided into four sub-sections. It basically introduces the Service Robotics market while focusing on market size by revenue and production, market segments by type, application, and region, and product scope.

Competition by Manufacturers: It includes five sub-sections, viz. market competitive situation and trends, manufacturers products, areas served, and production sites, average price by manufacturers, revenue share by manufacturers, and production share by manufacturers.

Market Share by Region: It provides regional market shares by production and revenue besides giving details about gross margin, price, and other factors related to the growth of regional markets studied in the report. The review period considered here is 2015-2019.

Company Profiles: Each player is assessed for its market growth in terms of different factors such as markets served, gross margin, price, revenue, production, product specification, and areas served.

Manufacturing Cost Analysis: It is sub-divided into four chapters, viz. industrial chain analysis, manufacturing process analysis, manufacturing cost structure, and key raw materials analysis.

Learn More about this report @ https://www.verifiedmarketresearch.com/product/global-service-robotics-market-size-and-forecast-to-2025/?utm_source=COD&utm_medium=003

About us:

Verified Market Research is a leading Global Research and Consulting firm servicing over 5000+ customers. Verified Market Research provides advanced analytical research solutions while offering information enriched research studies. We offer insight into strategic and growth analyses, Data necessary to achieve corporate goals and critical revenue decisions.

Our 250 Analysts and SMEs offer a high level of expertise in data collection and governance use industrial techniques to collect and analyse data on more than 15,000 high impact and niche markets. Our analysts are trained to combine modern data collection techniques, superior research methodology, expertise and years of collective experience to produce informative and accurate research.

Contact us:

Mr. Edwyne Fernandes

US: +1 (650)-781-4080UK: +44 (203)-411-9686APAC: +91 (902)-863-5784US Toll Free: +1 (800)-7821768

Email: [emailprotected]

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Service Robotics Market 2020 Key Players, Share, Trend, Segmentation and Forecast to 2026 - Cole of Duty

New Jersey, United States,- The report is a must-have for business strategists, participants, consultants, researchers, investors, entrepreneurs, and other interested parties associated with the Cloud Robotics Market. It is also a highly useful resource for those looking to foray into the Cloud Robotics market. Besides Porters Five Forces and SWOT analysis, it offers detailed value chain assessment, comprehensive study on market dynamics including drivers, restraints, and opportunities, recent trends, and industry performance analysis. Furthermore, it digs deep into critical aspects of key subjects such as market competition, regional growth, and market segmentation so that readers could gain sound understanding of the Cloud Robotics market.

The research study is a brilliant account of macroeconomic and microeconomic factors influencing the growth of the Cloud Robotics market. This will help market players to make appropriate changes in their approach toward attaining growth and sustaining their position in the industry. The Cloud Robotics market is segmented as per type of product, application, and geography. Each segment is evaluated in great detail so that players can focus on high-growth areas of the Cloud Robotics market and increase their sales growth. Even the competitive landscape is shed light upon for players to build powerful strategies and give a tough competition to other participants in the Cloud Robotics market.

The competitive analysis included in the report helps readers to become aware of unique characteristics of the vendor landscape and crucial factors impacting the market competition. It is a very important tool that players need to have in their arsenal for cementing a position of strength in the Cloud Robotics market. Using this report, players can use effective business tactics to attract customers and improve their growth in the Cloud Robotics market. The study provides significant details about the competitive landscape and allows players to prepare for future challenges beforehand.

Cloud Robotics Market Segmentation

This market has been divided into types, applications and regions. The growth of each segment provides a precise calculation and forecast of sales by type and application, in terms of volume and value for the period between 2020 and 2026. This analysis can help you develop your business by targeting qualified niche markets. . Market share data are available at global and regional levels. The regions covered by the report are North America, Europe, Asia-Pacific, the Middle East and Africa and Latin America. Research analysts understand competitive forces and provide competitive analysis for each competitor separately.

Cloud Robotics Market by Type:

YYYY

Cloud Robotics Market by Application:

ZZZZ

Cloud Robotics Market by Region:

North America (The USA, Canada, and Mexico)Europe (Germany, France, the UK, and Rest of Europe)Asia Pacific (China, Japan, India, and Rest of Asia Pacific)Latin America (Brazil and Rest of Latin America.)Middle East &Africa (Saudi Arabia, the UAE, South Africa, and Rest of Middle East & Africa)

The report answers important questions that companies may have when operating in the Cloud Robotics market. Some of the questions are given below:

What will be the size of the Cloud Robotics market in 2026?

What is the current CAGR of the Cloud Robotics market?

What products have the highest growth rates?

Which application is projected to gain a lions share of the Cloud Robotics market?

Which region is foretold to create the most number of opportunities in the Cloud Robotics market?

Which are the top players currently operating in the Cloud Robotics market?

How will the market situation change over the next few years?

What are the common business tactics adopted by players?

What is the growth outlook of the Cloud Robotics market?

To get Incredible Discounts on this Premium Report, Click Here @ https://www.verifiedmarketresearch.com/ask-for-discount/?rid=26331&utm_source=COD&utm_medium=005

Reasons to Buy the Report

Upgrade your market research resources with this comprehensive and accurate report on the Cloud Robotics market

Get complete understanding of general market scenarios and future market situations to prepare for rising above the challenges and ensuring strong growth

The report offers in-depth research and various tendencies of the Cloud Robotics market

It provides detailed analysis of changing market trends, current and future technologies used, and various strategies adopted by leading players of the Cloud Robotics market

It offers recommendations and advice for new entrants of the Cloud Robotics market and carefully guides established players for further market growth

Apart from hottest technological advances in the Cloud Robotics market, it brings to light the future plans of dominant players in the industry

Table of Contents

Market Overview: This section comes under executive summary and is divided into four sub-sections. It basically introduces the Cloud Robotics market while focusing on market size by revenue and production, market segments by type, application, and region, and product scope.

Competition by Manufacturers: It includes five sub-sections, viz. market competitive situation and trends, manufacturers products, areas served, and production sites, average price by manufacturers, revenue share by manufacturers, and production share by manufacturers.

Market Share by Region: It provides regional market shares by production and revenue besides giving details about gross margin, price, and other factors related to the growth of regional markets studied in the report. The review period considered here is 2015-2019.

Company Profiles: Each player is assessed for its market growth in terms of different factors such as markets served, gross margin, price, revenue, production, product specification, and areas served.

Manufacturing Cost Analysis: It is sub-divided into four chapters, viz. industrial chain analysis, manufacturing process analysis, manufacturing cost structure, and key raw materials analysis.

Learn More about this report @ https://www.verifiedmarketresearch.com/product/Cloud-Robotics-Market/?utm_source=COD&utm_medium=005

About us:

Verified Market Research is a leading Global Research and Consulting firm servicing over 5000+ customers. Verified Market Research provides advanced analytical research solutions while offering information enriched research studies. We offer insight into strategic and growth analyses, Data necessary to achieve corporate goals and critical revenue decisions.

Our 250 Analysts and SMEs offer a high level of expertise in data collection and governance use industrial techniques to collect and analyse data on more than 15,000 high impact and niche markets. Our analysts are trained to combine modern data collection techniques, superior research methodology, expertise and years of collective experience to produce informative and accurate research.

Contact us:

Mr. Edwyne Fernandes

US: +1 (650)-781-4080UK: +44 (203)-411-9686APAC: +91 (902)-863-5784US Toll Free: +1 (800)-7821768

Email: [emailprotected]

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Read the original post:

Cloud Robotics Market 2020 Key Players, Share, Trend, Segmentation and Forecast to 2026 - Cole of Duty

An army of disinfecting robots has been enlisted in the fight against the coronavirus, as companies seek fast, safe and effective ways of cleaning and sanitizing workplaces and other public spaces.

One of the latest entrants is from Fetch Robotics, a cloud robotics and on-demand automation firm. The company partnered with Build with Robots (BWR), a developer of industrial robots, and the city of Albuquerque, New Mexico, to release the Breezy One, a disinfecting autonomous mobile robot.

The companies announced the robots debut on June 18.

What is unique about the Breezy One, according to Kimberly Corbitt, Build with Robots head of customer engagement, is that it is specially designed for large spaces, such as airports, factories and warehouses.

It safely and effectively disinfects 100,000 square feet in an hour and a half, Corbitt told FreightWaves. For comparison, she said, it would take a team of people an entire shift to disinfect a facility of that size.

After the robot has finished cleaning, employees can reenter the space in about two hours, confident that allergens, bacteria and viruses have been taken out of the air and surface, Corbitt said.

The Breezy One uses a patented, EPA-registered, government-developed and -tested disinfecting chemical originally developed to kill harmful biological agents. It eliminates around 99.9999% of viruses and bacteria, according to the companies.

A good fit for warehouse and fulfillment

Put into service last month, the Breezy One was developed with the city of Albuquerques Aviation Department, where it sanitizes the citys airport facilities every night. But the team has its eye on other large spaces, which require significantly more manpower and labor costs to sanitize, and which often expose employees to cleaning chemicals that can be harmful in their own right.

Founded in 2014, Fetch Robotics already has a large presence in the warehousing space, Melonee Wise, Fetch CEO, told FreightWaves. For customers who already have robots, this is going to be a quick and easy add.

The base of Breezy One is the same generic autonomous mobile robot the company deploys for point-to-point delivery in the warehouse, Wise explained. Then we marry that with a purpose-built robot for disinfections.

Since BWR built Breezy One on Fetch Robotics cloud software platform, customers can remotely change the robots paths, schedules and frequencies as needs change.

Unlike some of the other solutions on the market, the Breezy does not use UV light to kill coronavirus microbes. A growing body of research suggests that UV light can kill the novel coronavirus, and the solution is currently in use as a disinfectant. Amazon, for one, has built a UV-light emitting robot to kill the virus in its Whole Food stores.

While UV light can be effective for smaller spaces with flat surfaces such as surgical units, the Breezy One team believes that is not the best fit for large spaces like warehouses that dont have perfectly flat surfaces, Corbitt said, but are more textured, like cardboard.

Warehouses have a lot of corners and edges, and for that you need an effective and safe chemical that can take things out of the air and can cover those surfaces in a way that UV can never reach, Corbitt said.

Allaying fears about robots displacing workers, the team said the Breezy One does not replace janitorial staff but instead integrates into their workflows. Disinfecting is dangerous and difficult work, Corbitt noted, requiring workers to suit up with personal protective equipment, carry disinfectant on their backs, and then spray and be exposed to large volumes of chemicals.

Its hot, uncomfortable, physically painful and really boring, she said.

Click here for more FreightWaves articles by Linda Baker

The rest is here:

March of the COVID-fighting robots - FreightWaves

Due to the pandemic, we have included a special section on the Impact of COVID 19 on the Collaborative RobotsMarket which would mention How the Covid-19 is Affecting the Industry, Market Trends and Potential Opportunities in the COVID-19 Landscape, Key Regions and Proposal for Collaborative Robots Market Players to battle Covid-19 Impact.

The Collaborative RobotsMarket report is one of the most comprehensive and important data about business strategies, qualitative and quantitative analysis of Global Market. It offers detailed research and analysis of key aspects of the Collaborative Robots market. The market analysts authoring this report have provided in-depth information on leading growth drivers, restraints, challenges, trends, and opportunities to offer a complete analysis of the Collaborative Robots market.

Top Leading players covered in the Collaborative Robots market report: Universal Robots, Rethink Robotics, ABB, Fanuc, KUKA, Kawasaki and More

Get PDF Sample Report With Impact of COVID-19 on Collaborative Robots [emailprotected] https://www.marketinforeports.com/Market-Reports/Request-Sample/84201

The report offers clear guidelines for players to cement a position of strength in the global Collaborative Robots market. It prepares them to face future challenges and take advantage of lucrative opportunities by providing a broad analysis of market conditions. the global Collaborative Robots market will showcase a steadyCAGR in the forecast year 2020 to 2026.

Key Product Type:Upto 5kg5~10 kgAbove 10kg

Market by Application:AutomotiveElectronicsMetal and MachiningPlastic and PolymersFood and BeveragesOthers

Our Complimentary Sample Collaborative Robots market Report Accommodate a Brief Introduction of the research report, TOC, List of Tables and Figures, Competitive Landscape and Geographic Segmentation, Innovation and Future Developments Based on Research Methodology.

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Regions Covered in the Global Collaborative Robots Market: The Middle East and Africa (GCC Countries and Egypt) North America (the United States, Mexico, and Canada) South America (Brazil etc.) Europe (Turkey, Germany, Russia UK, Italy, France, etc.) Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)

Years Considered to Estimate the Collaborative Robots Market Size:History Year: 2015-2019Base Year: 2019Estimated Year: 2020Forecast Year: 2020-2026

Highlights of the Report: Accurate market size and CAGR forecasts for the period 2019-2026 Identification and in-depth assessment of growth opportunities in key segments and regions Detailed company profiling of top players of the global Collaborative Robots market Exhaustive research on innovation and other trends of the global Collaborative Robots market Reliable industry value chain and supply chain analysis Comprehensive analysis of important growth drivers, restraints, challenges, and growth prospects

For More Information:https://www.marketinforeports.com/Market-Reports/84201/Collaborative-Robots-market

Customization of the Report:Market Info Reports provides customization of reports as per your need. This report can be personalized to meet your requirements. Get in touch with our sales team, who will guarantee you to get a report that suits your necessities.

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Collaborative Robots Market Global Industry Outlook, Share, Growth Analysis, Trends and top manufacture like Universal Robots, Rethink Robotics, ABB,...

This report additionally covers the effect of COVID-19 on the worldwide market. The pandemic brought about by Coronavirus (COVID-19) has influenced each part of life all inclusive, including the business segment. This has brought along a several changes in economic situations.

The Latest Research Report on Electrical & Electronic Robotics Market size | Industry Segment by Applications, by Type, Regional Outlook, Market Demand, Latest Trends, Electrical & Electronic Robotics Industry Share & Revenue by Manufacturers, Company Profiles, Growth Forecasts 2025. Analyzes current market size and upcoming 5 years growth of this industry.

Download Premium Sample of the Report: http://marketresearchbazaar.com/requestSample/23054

GMD predicts the revenue of global electrical & electronic robotics market to reach $45.79 billion by 2026 in terms of robot systems (including hardware, software & service), representing a 2019-2026 CAGR of 13.55%. The hardware market will grow at 13.92% annually over the forecast years. The annual shipment is expected to exhibit a CAGR of 18.05% during the same period, advancing to 518.7 thousand units in 2026.

Highlighted with 74 tables and 108 figures, this 215-page report Global Electrical & Electronic Robotics Market by Subsystem, Robot Type, Application, End-user, and Region 2015-2026: Trend Forecast and Growth Opportunity is based on a comprehensive research of the entire global electrical & electronic robotics market and all its sub-segments through extensively detailed classifications. Profound analysis and assessment are generated from premium primary and secondary information sources with inputs derived from industry professionals across the value chain. The report provides historical market data for 2015-2018, revenue estimates for 2019, and forecasts from 2020 till 2026. (Please note: The report will be updated before delivery if necessary, so that the latest historical year is the base year and the forecast covers the next 5-10 years over the base year.)

In-depth qualitative analyses include identification and investigation of the following aspects:

Market Structure

Growth Drivers

Restraints and Challenges

Emerging Product Trends & Market Opportunities

Porters Fiver Forces

The trend and outlook of global market is forecast in optimistic, balanced, and conservative view. The balanced (most likely) projection is used to quantify global electrical & electronic robotics market in every aspect of the classification from perspectives of Subsystem, Robot Type, Application, End-user, and Region.

Based on subsystem, the global market is segmented into the following sub-markets with annual revenue for 2015-2026 (historical and forecast) included in each section.

Hardware (further segmented into Robot Controller Unit, Robotic Arm, End Effector, Drive, Sensors, Power Supply, Motors, and Others)

Software

Service & Support

Based on robot type, the global market is segmented into the following sub-markets with annual revenue for 2015-2026 (historical and forecast) included in each section.

Articulated Robots

Cartesian Robots

SCARA Robots

Cylindrical Robots

Polar/Spherical Robots

Others

Based on application, the global market is segmented into the following sub-markets with annual revenue for 2015-2026 (historical and forecast) included in each section.

Soldering & Welding

Material Handling

Assembling & Disassembling

Painting & Dispensing

Cutting

Others

Based on end-user, the global market is segmented into the following sub-markets with annual revenue and unit shipment for 2015-2026 (historical and forecast) included in each section.

Electronic Components

Telecommunication Devices

Electrical & Electronics Equipment

Other Products

Geographically, the following regions together with the listed national/local markets are fully investigated:

APAC (Japan, China, South Korea, Taiwan, India, and Rest of APAC)

Europe (Germany, UK, France, Spain, Italy, Rest of Europe)

North America (U.S. and Canada)

Latin America (Brazil, Mexico, Argentina, Rest of Latin America)

RoW (Saudi Arabia, United Arab Emirates, South Africa)

For each of the aforementioned regions and countries, detailed analysis and data for annual revenue and unit shipment are available for 2015-2026. The breakdown of all regional markets by country and split of key national/local markets by Robot Type and Application over the forecast years are also included.

The report also covers current competitive scenario and the predicted trend; and profiles key vendors including market leaders and important emerging players.

Specifically, potential risks associated with investing in global electrical & electronic robotics market are assayed quantitatively and qualitatively through GMDs Risk Assessment System. According to the risk analysis and evaluation, Critical Success Factors (CSFs) are generated as a guidance to help investors & stockholders identify emerging opportunities, manage and minimize the risks, develop appropriate business models, and make wise strategies and decisions.

Key Players:

ABB Ltd.

Comau S.p.A

Denso Corporation

Fanuc Corp.

Kawasaki Robotics Inc.

KUKA (Midea Group)

Mitsubishi Electric Corp.

Omron Corporation (Omron Adept Technologies)

Reis Robotics

Rockwell Automation Inc.

Seiko Epson Corporation (Epson Robotics)

Staubli International AG

Universal Robots

Yaskawa Electric Corp.

(Please note: The report will be updated before delivery if necessary, so that the latest historical year is the base year and the forecast covers the next 5-10 years over the base year.)

Request Customization of the Report: http://marketresearchbazaar.com/enquiry/23054

Electrical & Electronic Robotics Market: Regional Analysis

The report offers in-depth assessment of the growth and other aspects of the Electrical & Electronic Robotics market in important regions, including the U.S., Canada, Germany, France, U.K., Italy, Russia, China, Japan, South Korea, Taiwan, Southeast Asia, Mexico, and Brazil, etc. Key regions covered in the report are North America, Europe, Asia-Pacific and Latin America.

The report has been curated after observing and studying various factors that determine regional growth such as economic, environmental, social, technological, and political status of the particular region. Analysts have studied the data of revenue, production, and manufacturers of each region. This section analyses region-wise revenue and volume for the forecast period of 2015 to 2025. These analyses will help the reader to understand the potential worth of investment in a particular region.

Key Strategic Developments:The study also includes the key strategic developments of the Electrical & Electronic Roboticsmarket, comprising R&D, new product launch, M&A, agreements, collaborations, partnerships, joint ventures, and regional growth of the leading competitors operating in the market on a global and regional scale.

Key Market Features:The report evaluated key market features, including revenue, price, capacity, capacity utilization rate, gross, production, production rate, consumption, market share, CAGR, and gross margin.Analytical Tools: The Electrical & Electronic Robotics Market report includes the precisely studied and weighed data of the key industry players and their scope in the Electrical & Electronic Robotics market by means of several analytical tools

About (Market Research Bazaar):

Market Research Bazaar (MRB)- a part of VRRB Reports LLP is an overall Market Research and consulting organization. We give unparalleled nature of offering to our clients present all around the world crosswise over industry verticals. Market Research Bazaar has aptitude in giving profound jump showcase understanding alongside advertise knowledge to our clients spread across over different endeavours.

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Market Research Bazaar

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India: +919548234540

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Original post:

Electrical & Electronic Robotics Market 2020 Industry Research, Segmentation, Key Players Analysis and Forecast to 2025 - 3rd Watch News

This report additionally covers the effect of COVID-19 on the worldwide market. The pandemic brought about by Coronavirus (COVID-19) has influenced each part of life all inclusive, including the business segment. This has brought along a several changes in economic situations.

The Latest Research Report on North America Educational Robotics Market size | Industry Segment by Applications, by Type, Regional Outlook, Market Demand, Latest Trends, North America Educational Robotics Industry Share & Revenue by Manufacturers, Company Profiles, Growth Forecasts 2025. Analyzes current market size and upcoming 5 years growth of this industry.

Download Premium Sample of the Report: http://marketresearchbazaar.com/requestSample/22921

GMD predicts the total revenue of education robotics in North America will reach $2.29 billion in 2025, driven by a growing adoption of smart education tools and robots in various school levels across the region.

Highlighted with 13 tables and 27 figures, this 86-page report North America Educational Robotics Market by Component, Product, Application and Country 2014-2025: Segment Analysis, Trend Forecast and Business Strategy is based on a comprehensive research of North America education robot market by analyzing the entire North America market and all its sub-segments through extensively detailed classifications. Profound analysis and assessment are generated from premium primary and secondary information sources with inputs derived from industry professionals across the value chain. The report provides historical market data for 2014-2016, revenue estimates for 2017, and forecasts from 2018 till 2025.

In-depth qualitative analyses include identification and investigation of the following aspects:

Market Structure

Growth Drivers

Restraints and Challenges

Emerging Product Trends & Market Opportunities

Porters Fiver Forces

The trend and outlook of North America market is forecast in optimistic, balanced, and conservative view. The balanced (most likely) projection is used to quantify North America educational robotics market in every aspect of the classification from perspectives of component, product, application vertical and country.

Based on component, the North America market is segmented into the following sub-markets with annual revenue included for 2014-2025 (historical and forecast) for each section.

Hardware

Software

Services

Based on product type, the North America market is segmented into the following sub-markets with annual revenue included for 2014-2025 (historical and forecast) for each section.

Wheeled Robotics

Reconfigurable Robotics

Humanoid Robotics

On basis of application vertical, the North America market is analyzed on the following segments with annual revenue in 2014-2025 provided for each segment.

K-12 Schools

Colleges and Institutes

Other Domains

Geographically, the following national markets are fully investigated:

U.S.

Canada

For each of the aforementioned countries, detailed analysis and data for annual revenue are available for 2014-2025. The breakdown of each national market by product type and application vertical over the forecast years is also included.

The report also covers current competitive scenario and the predicted manufacture trend; and profiles North America educational robot vendors including market leaders and important emerging players.

Specifically, potential risks associated with investing in North America educational robotics market and industry are assayed quantitatively and qualitatively through GMDs Risk Assessment System. According to the risk analysis and evaluation, Critical Success Factors (CSFs) are generated as a guidance to help investors & stockholders manage and minimize the risks, develop appropriate business models, and make wise strategies and decisions.

Key Players:

Cytron Technologies

Evollve, Inc.

Fischertechnik GmbH

Innovation First International

Lego System A/S

Makeblock Co. Ltd.

Modular Robotics Incorporated

Parallax, Inc.

Pitsco, Inc.

Wonder Workshop

Request Customization of the Report: http://marketresearchbazaar.com/enquiry/22921

North America Educational Robotics Market: Regional Analysis

The report offers in-depth assessment of the growth and other aspects of the North America Educational Robotics market in important regions, including the U.S., Canada, Germany, France, U.K., Italy, Russia, China, Japan, South Korea, Taiwan, Southeast Asia, Mexico, and Brazil, etc. Key regions covered in the report are North America, Europe, Asia-Pacific and Latin America.

The report has been curated after observing and studying various factors that determine regional growth such as economic, environmental, social, technological, and political status of the particular region. Analysts have studied the data of revenue, production, and manufacturers of each region. This section analyses region-wise revenue and volume for the forecast period of 2015 to 2025. These analyses will help the reader to understand the potential worth of investment in a particular region.

Key Strategic Developments:The study also includes the key strategic developments of the North America Educational Roboticsmarket, comprising R&D, new product launch, M&A, agreements, collaborations, partnerships, joint ventures, and regional growth of the leading competitors operating in the market on a global and regional scale.

Key Market Features:The report evaluated key market features, including revenue, price, capacity, capacity utilization rate, gross, production, production rate, consumption, market share, CAGR, and gross margin.Analytical Tools: The North America Educational Robotics Market report includes the precisely studied and weighed data of the key industry players and their scope in the North America Educational Robotics market by means of several analytical tools

About (Market Research Bazaar):

Market Research Bazaar (MRB)- a part of VRRB Reports LLP is an overall Market Research and consulting organization. We give unparalleled nature of offering to our clients present all around the world crosswise over industry verticals. Market Research Bazaar has aptitude in giving profound jump showcase understanding alongside advertise knowledge to our clients spread across over different endeavours.

Media Contact:

Market Research Bazaar

UK: +442070973908

US: +13156360953

India: +919548234540

Email:[emailprotected]

Website:http://marketresearchbazaar.com/

Blog:http://marketresearchbazaar.com/blogs

See the article here:

North America Educational Robotics Market 2020 Worldwide Industry Size, Key Vendors, Growth Drivers, Opportunity And Competitive Landscape Forecast to...

Detailed Market Analysis on Global Delivery Robots Market 2020 by Industry Expansion Overview, Trends, Investment Opportunities, Competitive Landscape, Growth Analysis, Size, Share, Regional Overview and Forecast by 2024

The report contains in-depth information on all the key aspects of the global Delivery Robots market. This report contains data such as facts & figures, market research, market analysis, competitive landscape, regional analysis, and future growth prospects. The report also contains qualitative and quantitative research which gives you a detailed analysis of the global Delivery Robots market.

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Top Companies Covered:

Starship Technologies, Robby Technologies, Amazon Robotics, Boston Dynamics, Robomart, Eliport, Piaggio Fast Forward, Box Bot, Savioke, Dispatch, Teleretail, Marble, Nuro, Jingdong

This global Delivery Robots market research report has data of all the important players in the industry. From their market share in the industry, to their growth plans, important information has been compiled in the report to let you get an insightful look at the leading players operating in the industry and what their strategies are. The competitor analysis in the report will give you a complete breakdown of all the important information you need about these top market players.

Market Research is Further Divided into Following Segments:

Market Segmentation by Product Types:By Load Carrying Capacity, By Speed Limit

Market Segmentation by Applications:Food & Beverages, Retail, Healthcare, Postal

Regions Mentioned in the Global Delivery Robots Market:

The Middle East and Africa North America South America Europe Asia-Pacific

Following Questions are Answered in This Report:

What will be the size of the global Delivery Robots market in 2025? What is the current CAGR of the global Delivery Robots market? Which product is expected to show the highest market growth? Which application is projected to gain a lions share of the global Delivery Robots market? Which region is foretold to create the most number of opportunities in the global Delivery Robots market? Will there be any changes in market competition during the forecast period? Which are the top players currently operating in the global Delivery Robots market? How will the market situation change in the coming years? What are the common business tactics adopted by players? What is the growth outlook of the global Delivery Robots market?

Table of Content:Section 1 Delivery Robots Product Definition

Section 2 Global Delivery Robots Market Manufacturer Share and Market Overview2.1 Global Manufacturer Delivery Robots Shipments2.2 Global Manufacturer Delivery Robots Business Revenue2.3 Global Delivery Robots Market Overview2.4 COVID-19 Impact on Delivery Robots Industry

Section 3 Manufacturer Delivery Robots Business Introduction3.1 Starship Technologies Delivery Robots Business Introduction3.1.1 Starship Technologies Delivery Robots Shipments, Price, Revenue and Gross profit 2014-20193.1.2 Starship Technologies Delivery Robots Business Distribution by Region3.1.3 Starship Technologies Interview Record3.1.4 Starship Technologies Delivery Robots Business Profile3.1.5 Starship Technologies Delivery Robots Product Specification

3.2 Robby Technologies Delivery Robots Business Introduction3.2.1 Robby Technologies Delivery Robots Shipments, Price, Revenue and Gross profit 2014-20193.2.2 Robby Technologies Delivery Robots Business Distribution by Region3.2.3 Interview Record3.2.4 Robby Technologies Delivery Robots Business Overview3.2.5 Robby Technologies Delivery Robots Product Specification

3.3 Amazon Robotics Delivery Robots Business Introduction3.3.1 Amazon Robotics Delivery Robots Shipments, Price, Revenue and Gross profit 2014-20193.3.2 Amazon Robotics Delivery Robots Business Distribution by Region3.3.3 Interview Record3.3.4 Amazon Robotics Delivery Robots Business Overview3.3.5 Amazon Robotics Delivery Robots Product Specification

3.4 Boston Dynamics Delivery Robots Business Introduction3.5 Robomart Delivery Robots Business Introduction3.6 Eliport Delivery Robots Business Introduction

Section 4 Global Delivery Robots Market Segmentation (Region Level)4.1 North America Country4.1.1 United States Delivery Robots Market Size and Price Analysis 2014-20194.1.2 Canada Delivery Robots Market Size and Price Analysis 2014-20194.2 South America Country4.2.1 South America Delivery Robots Market Size and Price Analysis 2014-20194.3 Asia Country4.3.1 China Delivery Robots Market Size and Price Analysis 2014-20194.3.2 Japan Delivery Robots Market Size and Price Analysis 2014-20194.3.3 India Delivery Robots Market Size and Price Analysis 2014-20194.3.4 Korea Delivery Robots Market Size and Price Analysis 2014-20194.4 Europe Country4.4.1 Germany Delivery Robots Market Size and Price Analysis 2014-20194.4.2 UK Delivery Robots Market Size and Price Analysis 2014-20194.4.3 France Delivery Robots Market Size and Price Analysis 2014-20194.4.4 Italy Delivery Robots Market Size and Price Analysis 2014-20194.4.5 Europe Delivery Robots Market Size and Price Analysis 2014-20194.5 Other Country and Region4.5.1 Middle East Delivery Robots Market Size and Price Analysis 2014-20194.5.2 Africa Delivery Robots Market Size and Price Analysis 2014-20194.5.3 GCC Delivery Robots Market Size and Price Analysis 2014-20194.6 Global Delivery Robots Market Segmentation (Region Level) Analysis 2014-20194.7 Global Delivery Robots Market Segmentation (Region Level) Analysis

Section 5 Global Delivery Robots Market Segmentation (Product Type Level)5.1 Global Delivery Robots Market Segmentation (Product Type Level) Market Size 2014-20195.2 Different Delivery Robots Product Type Price 2014-20195.3 Global Delivery Robots Market Segmentation (Product Type Level) Analysis

Section 6 Global Delivery Robots Market Segmentation (Industry Level)6.1 Global Delivery Robots Market Segmentation (Industry Level) Market Size 2014-20196.2 Different Industry Price 2014-20196.3 Global Delivery Robots Market Segmentation (Industry Level) Analysis

Section 7 Global Delivery Robots Market Segmentation (Channel Level)7.1 Global Delivery Robots Market Segmentation (Channel Level) Sales Volume and Share 2014-20197.2 Global Delivery Robots Market Segmentation (Channel Level) Analysis

Section 8 Delivery Robots Market Forecast 2019-20248.1 Delivery Robots Segmentation Market Forecast (Region Level)8.2 Delivery Robots Segmentation Market Forecast (Product Type Level)8.3 Delivery Robots Segmentation Market Forecast (Industry Level)8.4 Delivery Robots Segmentation Market Forecast (Channel Level)

Section 9 Delivery Robots Segmentation Product Type9.1 By Load Carrying Capacity Product Introduction9.2 By Speed Limit Product Introduction

Section 10 Delivery Robots Segmentation Industry10.1 Food & Beverages Clients10.2 Retail Clients10.3 Healthcare Clients10.4 Postal Clients

Section 11 Delivery Robots Cost of Production Analysis11.1 Raw Material Cost Analysis11.2 Technology Cost Analysis11.3 Labor Cost Analysis11.4 Cost Overview

Section 12 Conclusion

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Delivery Robots Market 2020 Projections, Growth Opportunities, Trends, Companies Strategies and Forecast 2024 | Starship Technologies, Robby...

Qualcomm Robotics RB3 Development Platform powered by Snapdragon 845 processor gets an upgrade with Robotics RB5 Platform equipped with Qualcomm QRB5165 Robotics processor designed for industrial-grade temperature operating, and featuring a 15 TOPS Qualcomm AI Engine fo artificial intelligence and machine learning applications such as heterogeneous computing, enhanced computer vision, and multi-camera concurrency.

The development platform also supports for 4G and 5G connectivity via a companion module and runs Ubuntu and ROS 2.0 operating systems.

Qualcomm Robotics RB5 development kit specifications:

On the software side, the development platform supports Linux, Ubuntu, and Robot Operating System (ROS) 2.0, with pre-integrated drivers for various cameras, sensors, and 5G connectivity. The kit also supports OpenCL and OpenGL ES APIs, as well as OpenCV for computer vision applications.

Typical applications would include autonomous mobile robots (AMR), delivery, inspection, inventory, industrial, collaborative robots, and unmanned aerial vehicles (UAVs) for Industry 4.0 robotics use cases. The company also claims RB5 robotics development lays the foundation for the UAV Traffic Management (UTM) space.

While Qualcomm QRB5165 Robotics processor is very similar to Snapdragon 865 with four Cortex-A77 cores, four Cortex-A55 cores and much of the same features, LinuxGizmos notes an additional Engine for Video Analytics (EVA) working with the ISP to handle computer vision workloads for up to seven concurrent camera inputs with simultaneous localization and mapping (SLAM), object detection and classification, autonomous navigation, and path planning in complex indoor and outdoor settings. QRB5165 is also equipped with a FIPS 140-2 certified Qualcomm Secure Processing Unit, and support 30 to 105C temperatures range, as well as long term availability until 2029.

There are two kits for sale: Qualcomm RB5 Core Kit with the mainboard, the QRB5165 SoM, a power cord, a USB cable, and four standoffs going for $485, as well as Qualcomm RB5 Core Kit adding a Vision mezzanine with tracking & main cameras and related accessories for a total of $695. The Panasonic ToF camera and Intel RealSense are optional accessories selling for $65 and $199 respectively. Youll find all those for pre-order on ThunderComm website. Youll also find additional resources on Qualcomms product page and developer website.

Jean-Luc started CNX Software in 2010 as a part-time endeavor, before quitting his job as a software engineering manager, and starting to write daily news, and reviews full time later in 2011.

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Qualcomm Robotics RB5 Platform Targets the Development of 5G and AI-Enabled Robots - CNX Software

In the Atlanta Botanical Garden, Georgia, visitors over the next several months will be treated to the peculiar sight of a sloth robot on a mission to save some of the worlds most endangered species.

Meet SlothBot, a new high-tech, a slow-moving and energy-efficient robot that can linger in the trees to monitor animals, plants, and the environment below. Featuring several 3D printed components, built by robotics engineers at the Georgia Institute of Technology, the SlothBot is currently being tested near the Gardens popular Canopy Walk.

SlothBot has been designed to take advantage of the low-energy lifestyle of real sloths; its an example of how being slow can sometimes be ideal for certain applications. Powered by solar panels and using innovative power management technology, SlothBot moves along a cable strung between two large trees as it monitors the temperature, weather, carbon dioxide levels, and other information in the Gardens 30-acre midtown Atlanta forest.

SlothBot embraces slowness as a design principle, explains Magnus Egerstedt, professor and Steve W. Chaddick School Chair in the Georgia Tech School of Electrical and Computer Engineering.

Thats not how robots are typically designed today, but being slow and hyper-energy efficient will allow SlothBot to linger in the environment to observe things we can only see by being present continuously for months, or even years.

Taking it slow with the SlothBot

The initial SlothBot prototype was designed by Egerstedt, alongside Ph.D. students Gennaro Notomista and Yousef Emam in 2019. The team used FDM 3D printed parts for the gearing and wire-switching mechanisms, which the robot needs to crawl through a network of wires in the trees.

Measuring three feet long, the new SlothBot in the Atlanta Botanical Garden also features a 3D printed shell, which helps to protect its motors, gearing, batteries, and sensing equipment from the weather. The robot is powered by a pair of photovoltaic panels and designed to linger in the forest canopy continuously for months, only moving when necessary to measure environmental changes. Such changes include weather and chemical factors, which can only be observed with a long-term presence. It will also move to locate sunlight when its batteries need recharging.

During its testing phase at the Atlanta Botanical Garden, SlothBot will operate on a single 100-foot cable, but in larger environmental applications, it will be able to switch from cable to cable to cover more territory.The most exciting goal well demonstrate with SlothBot is the union of robotics and technology with conservation, said Emily Coffey, vice president for conservation and research at the Garden. We do conservation research on imperiled plants and ecosystems around the world, and SlothBot will help us find new and exciting ways to advance our research and conservation goals.

The SlothBot project is supported by the National Science Foundation and the Office of Naval Research. Researchers suggest that the robot has the potential to help scientists better understand the abiotic factors affecting critical ecosystems. It can, therefore, act as a new tool for developing information needed to protect rare species and endangered ecosystems.

SlothBot could do some of our research remotely and help us understand whats happening with pollinators, interactions between plants and animals, and other phenomena that are difficult to observe otherwise, Coffey added. With the rapid loss of biodiversity and with more than a quarter of the worlds plants potentially heading toward extinction, SlothBot offers us another way to work toward conserving those species.

The design of the robot was inspired by a visit Egerstedt made to a vineyard in Costa Rica where he saw two-toed sloths creeping along overhead wires in their search for food in the tree canopy. It turns out that they were strategically slow, which is what we need if we want to deploy robots for long periods of time, he explained.

As well as conservation, the SlothBot could have applications for precision agriculture, where the robots camera and other sensory equipment could provide early detection of crop diseases, measure humidity, and watch for insect infestation. After testing in the Atlanta Botanical Garden, the researchers hope to move SlothBot to South America to observe orchid pollination or the lives of endangered frogs.

The research team, consisting of Gennaro Notomista and Yousef Emam, undergraduate student Amy Yao, and postdoctoral researcher Sean Wilson, considered multiple locomotion techniques for the SlothBot. Although wheeled robots are common, they are prone to a number of obstacles in the natural world like rocks or mud. At the other end of the spectrum, flying robots require too much energy to linger for long; hence Egerstedts observation of the wire-crawling sloths was so important.

Its really fascinating to think about robots becoming part of the environment, a member of an ecosystem, he said. While were not building an anatomical replica of the living sloth, we believe our robot can be integrated to be part of the ecosystem its observing like a real sloth.

3D printing in the robot revolution

3D printing has played a significant role in designing various functional robots intended to help improve different facets of society. For example, last year scientists at Florida Atlantic University (FAU) used 3D printing deep learning, artificial intelligence, and robotics to create Astro, an intelligent robot dog that can see, hear, train, and learn. Potential applications for Astro include a number of useful tasks such as the detection of guns and explosives to assist police, the military, and security personnel. It can also be programmed to operate as a service dog for the visually impaired or provide medical diagnostic monitoring.

3D printing is also playing a key role in a NASA project seeking to bring soft robotics to space. Soft robots are constructed from highly flexible materials, allowing for new robot movements similar to living organisms that traditional robots cant replicate, therefore presenting new possible applications for robots in space. Although in its early stages, 3D printing has played a key role in the research, having been used to develop the soft robotic actuator, which is key for animating and controlling a robots moving parts.

The nominations for the 2020 3D Printing Industry Awards are now open. Who do you think should make the shortlists for this years show? Have your say now.

Subscribe to the 3D Printing Industry newsletter for the latest news in additive manufacturing. You can also stay connected by following us on Twitter and liking us on Facebook.

Looking for a career in additive manufacturing? Visit 3D Printing Jobs for a selection of roles in the industry.

Featured image shows SlothBot in the Garden. Photo via Georgia Institute of Technology.

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This robotic sloth with 3D printed parts is helping to conserve the Atlanta Botanical Garden - 3D Printing Industry

Mitsubishi Electric

Since 1980, this company has introduced a wide range of robotic systems that help improve productivity in high-speed and precision performance in manufacturing. Mitsubishi extended its range of compact SCARA and articulated arm robotics with the addition of Codian Robotics exclusive delta style robots.

Key Products:MELFA FR Series, RV-F-D series, RP series, Ceiling Type RH-FRHR series, SCADA MC Works64

From the time it pioneered the worlds first all-electric microprocessor-controlled robot and the worlds first industrial paint robot in the late 1960s and early 1970s,ABBremains a technology and market leader in robotics with over 300,000 robots sold to customers all over the world. Today, ABB is still one of the worlds largest industrial robotics companies.

View Technavios latest industry research reports featuring ABB.

Key products:IRB 910SC SCARA, IRB 14000 YuMi, IRB 5500-22 FlexPainter, IRB 5500-25 Elevated rail, IRB 6660 for pre-machining, IRB 6660 for press tending.

B+M, as a worlds leading robot manufacturer, provides fully automated painting application systems and painting plants for surfaces with high-quality standards. From feasibility studies to design, installation and service, BMs industrial robots help customers at every stage with a customized approach.

Key Products:T1 X5 series painting robots, T2 X5 series, Adhesive Dosing Systems.

This is the largest US-based industrial robotics company. Its intelligent automation products include mobile robots, industrial robots and other automation equipment, applications software, machine vision, and systems. In 2015, the Omron Corporation acquired Adept Technology Inc. to create this entity.

Key Products:Cobra, eCobra, Hornet, Quattro, Sysmac Delta, Viper.

Covering a diverse range of industries and applications, FANUC Robotics offers more than 100 models of industrial robots that are easy to operate and provide great flexibility. FANUC has never taken its market dominance for granted and has been dynamically working on smarter and flexible solutions, particularly those that incorporate Artificial Intelligence(AI).

Key products:Fanuc CR Series of Collaborative Robots, Fanuc Robot R2000iC Series, M-20iB/25 Series of Articulated Robots, M-1/2/3 Series of Delta-Robots, SCARA Series.

Read more: Top 12 Vendors in the Global Smart Robots Market

This isanother Japanese brand that has led the industrial robotics industry since the first launch of itsall-electric industrial robotMotoman in 1977. With more than 300,000 Motoman robots, 18 million inverter drives and 10 million servos and 18 million installed globally, Yaskawa has successfully commercialized optimum robots for various uses including arc welding, assembly, dispensing, material handling, material removal, material cutting, packaging, and spot welding.

Vital Details:HQ:Kitakyushu, Japan|Founded:1915|Revenues/2017:USD$ 1.5 billion

Key Products:VA1400 for arc welding, HP20F for assembly, ES Series for Machine Tending, G Series for pick and pack, MH225 for spot welding.

German industrial giant Kuka is one of the worlds largest producers of robotics that are used to manufacture automobiles, characterized by its signature bright orange crane-like bots. KUKA Robotics offers a fully integrated range of automated robotics, control technology, and customized software solutions. Since 2004, automation and robotics have been the companys primary focus, and non-core areas have been closed or sold. In 2016, Kuka, a company whose robots already grace several factory floors, was acquired by Midea Group, a Chinese household company, for USD$3.9 billion.

Vital Details:HQ:Augsburg,Germany|Founded:1898|Revenues/2017:USD$ 1.4 billion

Key Products:KR AGILUS series:KR 30/60 F series: KR QUANTEC F series, QUANTEC for palletizing, AGILUS (Hygiene Machine variant), shelf-mounted robots, press-to-press robots.

This pioneering company first entered the North and South American Market in 1984 as the EPSON Factory Automation Group. Originally founded to support automation needs, EPSON quickly became prominent in many of the largest manufacturing sites throughout the world. Over the past three decades, EPSON Robots has been leading the automation industry for small parts assembly products and has introduced several industry firsts, including compact SCARA robots, PC based controls, and much more.

Vital Details:HQ:California, USA|Founded:1984|Revenues/2017:USD$ 1.4 billion

Key Products:G-Series, RS-Series, LS-Series and T-Series SCARA Robots.

With over 160,000 robotics installed worldwide, the Japan-based Kawasaki is a leading provider of industrial robots and automation systems with a broad product portfolio. Kawasaki robotics was the first in Japan to commercialize industrial robots. Since then, the company has developed several robots as a domestic pioneer and has contributed to growth in many industry verticals through automation and labor-saving systems. In 2015, the company began sales of duAro, an advanced, dual-arm SCARA robot that can work alongside humans.

Vital Details:HQ:Wixom, Michigan, USA|Founded:1896|Revenues/2017:USD$ 1.3 billion

Key Products:duAro Scara Robot, K Series Robots for Painting, Y Series for Pick and Place, B Series for Spot Welding, RA020N for arc welding, M Series for medical and pharmaceuticals.

This is a global mechatronics solution provider with three core activities: Connectors,Robotics,andTextile. Since 1892 when it was founded, the Staubli Group has expanded both geographically and technologically. With the acquisition of Unimation a prominent vendor in industrial robotics industry Staubli continued its dynamic path into the most advanced and innovative industrial sectors. The company has launched a new range of collaborative robots and is investing further into its software business.

Vital Details:HQ:Horgen,Switzerland|Founded:1892|Revenues/2017:USD$ 1.26 billion

Key Products:TS80, TX Series, RX Series, TX2 Series, TP90, CS Series.

Based in southern Germany, Drr is a leading mechanical and plant engineering firm with outstanding automation expertise. It joined forces with Kuka, another giant in automation technology sector, to develop an integrated solution for automated paint application. In 2017, the companys painting robot business achieved new records in incoming orders and sales, despite intense competition. The growing demand for the Drr robot can be attributed to the growing ongoing automation of vehicle paint technology.

Vital Details:HQ:Bietigheim-Bissingen, Germany|Founded:1895|Revenues/2017:USD$ 724 million

Key Products:EcoRCMP control for painting applications, EcoRS 30 L 16S, EcoRS 16, EcoGun 1D.

For detailed information about the global industrial robotics market size, robotics industry statistics, and top robotics companies,request yourGlobal Industrial Robotics Services Market Report Sample for FREE!

This trendsetter started developing industrial robots in 1967 and in the early 1980s. The company developed 4-axis and 6-axis industrial robots that have unlimited freedom of movement. Today, DENSO subsidiary DENSO WAVE develops high-productivity robots, designed to maximize the efficiency of operations in the manufacturing of engineered products such as automobiles and medical instruments.

Vital Details:HQ:Kariya, Japan|Founded:1949|Revenues/2017:USD$ 564 million

Key Products:VM, VP and VS Series 5-and 6-Axis Robots, VS-050S2 Medical Robots, HS Series SCARA Robots.

Read more: Top 5 Ways in Which Robotics Has Changed our Lives

This is a Michigan-based company that spans a broad range of manufacturing fields including machining products such as tools, ultra-precision machines, and robotic systems for reducing power consumption and automating production lines. Owned by the Nachi-Fujikoshi Corp, Nachi Robotic Systems boasts an impressive product lineup of industrial robots, integrated vision systems, and cutting-edge technology. The company recently introduced the MZ12 robot to the market that is capable of transporting 12 kgs, which is in high demand in the electronics and EMS sectors.

Vital Details:HQ:Novi, Michigan, USA|Founded:1928|Revenues/2017:USD$ 325 million

Key Products:Compact MZ Series, WING SLICER Type EZ series, SR Series for Spot Welding, FlexGui.

Part of the worlds largest automotive groups and a prominent supplier of industrial robots and robotized processes, Comau Robotics is a market leader. The company has launched a wide range of innovative products, perhaps most importantly the largest collaborative robots on the market. Its industrial robots are designed and developed to be integrated into applications where accuracy, speed, repeatability, and flexibility are of most importance.

Vital Details:HQ:Grugliasco, Italy|Founded:1973|Revenues/2017:USD$ 287 million

Key Products: REBEL-S SCARA, RACER ROBOT, STANDARD ROBOTS NS Series, HOLLOW WRIST ARC.

This company is renowned for developing safe, flexible, easy-to-use robotic arms that serve a range of industries, including food and tobacco production, metal and machining, automotive and subcontractors, pharma and chemistry, furniture and equipment, and scientific and research industries. This Danish company develops lightweight industrial robots that streamline and automate repetitive industrial processes. These robots are most commonly used for injection molding, pick-and-place, CNC, quality inspection, packaging and palletizing, assembly, machine tending, and gluing and welding applications.

Vital Details:HQ:Odense,Denmark|Founded:2005|Revenues/2017:USD$ 170 million

Key Products:Collaborative Arm UR3, Collaborative UR5, and Collaborative UR10 robot arms.

This conglomerate is a global leader in the manufacturing of robots, injection molding machines, and peripheral equipment for the plastics sector. The Austria-based auxiliary equipment maker maxed out its recently extended robotic manufacturing competences in 2017, shipping more than 5,000 robots. To capitalize on the growing interest in robotics and automation systems, Wittmann released several innovative products in 2017, including the Primus 16 and Primus 14 robots for standard pick-and-place applications.

Vital Details:HQ:Vienna, Austria|Founded:1983|Revenues/2017:USD$ 145 million

Key Products:Primus 14 and 16 for pick and place, W853 pro-robot, R9 robot control system, W808 Servo Robot, W818 Optimal Robot.

In the year 1981, Yamaha Motors took up the challenge to develop a completely new breed of industrial robots. Since then, this Japanese giant has provided a range of cutting-edge industrial robots to the marketplace that is unsurpassed for speed, payload, and dependability. The current industrial robot lineup is the culmination of more than three decades of experience in YAMAHAs own manufacturing plants and thousands of others around the world. Yamaha Robotics has the capability to provide Cartesian systems in several configurations, as well as exclusive 2-axis YP high-speed pick and place models.

Vital Details:HQ:Iwata, Japan|Founded:1887|Revenues/2017:USD$ 88.6 million

Key Products:Liner Conveyor Modules LCM-X, Single axis robots GX series, Articulated Robots YA Series, SCARA Robots, Clean Robots.

With more than 3000 successful welding robot systems operational worldwide, IGM is the only manufacturer from Austria to specialize in industrial robots developed for arc welding in heavy mechanical applications. IGM welding robots are used in fields such as wheel-bearing production and mechanical diggers, locomotive and rolling stock construction and boiler manufacturer, bridge construction, and shipbuilding, along with applications in mobile cranes and forklift trucks.

Vital Details:HQ:Wisconsin, USA|Founded:1983|Revenues/2017:USD$ 59 million

Key Products:RTE 400 series, RTE 499 welding robot.

The global industrial robotics services market size will grow to USD 335.7 billion by 2021. Click HERE to see the latest driving factors, competitive landscape and future trends in this market.

This is one of the worlds leading robotics manufacturers and a major supplier of high-tech industrial robotics systems and automation owned by the Chinese Academy of Services. It is one of the top 10 leading industrial robotics companies in the Chinese robotics industry, thanks to its comprehensive industrial robotics product line. Included in the brands product offerings are automated guided vehicles, intelligent logistics equipment, laser equipment, rail transportation equipment, automated assembly and test production products, energy equipment, and special equipment.

Vital Details:HQ:Shanghai, China|Founded:2000|Revenues/2017:USD$ 38.2 million

Key Products:High Load Vacuum Robot, Siasun Collaborative Robot, SR4C Robot, SRBD1100 Parallel Robot, SR36A.

One of the early collaborative industrial robotics companies, Rethink Robotics has been generating a lot of interest lately. The company helps robot makers meet the challenges of an agile economy with an integrated workforce, combining safe, trainable, and cost-effective robotics with skilled labor. Its Baxter robot, powered by advanced software platform Intera, provides world-class manufacturers in automotive, plastics, electronics, consumer goods, and more.

Vital Details:HQ:Massachusetts, USA|Founded:2008|Revenues/2017:USD$ 20 million

Key Products:Baxter (robot), Baxter Research Robot, Intera software platform, Sawyer (cobot).

Read more: Artificial Intelligence of Smart Robots Are They as Good as Humans?

With more than two decades of experience in mechatronics, Schunk has become one of the worlds most important providers of mobile gripping systems for industrial robotics. The companys mechatronic lightweight arms, grippers, gripping hands, modular systems, and rotary modules have already set a benchmark today in several applications. Schunk is consistently expanding its module program for gripping systems with the simple aim to further simplify operation and control.

Vital Details:HQ:Lauffen am Neckar, Germany|Founded:1945|Revenues/2017:USD$ 19 million

Key Products:LWA 4D Lightweight Arm, LWA 4P, SDH 3-finger servo-electric gripping hand, EGP-FWA parallel gripper.

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Top 21 Industrial Robotics Companies in 2018 | Global ...

The Del Rio High School robotics team will get an opportunity to replay the 2020 season next year, after it was cut short due to the COVID-19 crisis, For Inspiration and Recognition in Science and Technology, also known as FIRST, announced.

The ongoing impact of the pandemic presents significant and unprecedented challenges for all, including our community. Recognizing these challenges, including the need to minimize team total participation costs, and the fact that nearly half of the FIRST Robotics Competition Teams were unable to play the 2020 game due to the disruption of season, FIRST has determined that the 2020 Infinite Recharge game will be replayed for the 2021 Game Changers, powered by Star Wars: Force for Change season, the organization said in an update.

According to FIRST, there will be changes to the game layout from the 2020 game, as the Game Design Team will be looking at adjustments to the game. Changes to the game will be announced during the official kickoff in 2021.

Team 4063, also known as TrikZr4Kidz or the Bunnies, will have the opportunity to continue using its robot, Luke Skyhopper, make any necessary upgrades or changes, or use parts from Skyhopper to create a new robot for the upcoming season. The Bunnies will also be able to work on their robot between now and the 2021 kickoff.

The rules that had prohibited this activity in prior seasons are being rewritten for 2021 and will be published shortly, the update states.

The Bunnies recently were awarded the 2020 El Paso District Chairmans award, the most prestigious award to receive at a robotics competition and immediately qualified to the state championship.

Currently FIRST is evaluating whether or not the qualification will carry over into 2021 and will provide details as they become available.

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Robotics season to be replayed in 2021 | News - Del Rio News Herald

Two New Castle High School robotics teams returned from the Western Pennsylvania State VEX Robotics Competition with high honors.

Six New Castle teams competed inthe event at Clarion University, which took place prior to COVID-19 shutdowns and social distancing mandates.

Team 16101V, comprised of all seniors, tookhome trophiesfor the Excellence Award the highest award in VEX Robotics with a combination of rankings, engineering design notebook and judges interviews, andas tournament championby being undefeated in the elimination rounds.Its members are Ricky Zheng, Dylan McLaren, TeAsia Stewart, Jacob Snyder, and Sean Ayers.

Team 16101E also received the tournament Design Award at the competition.Its members, also all seniors, are Alexis Burkett, Logan Mooers, Michaela Washington, Jade Bodie, and Dashonna Drew.

Although both teams qualified to attend Vex Worlds 2020, the eventis canceled because of the ongoing COVID-19 restrictions. However, next years competitive robotics students already are working remotely on designing a robot for the new games for 2020-2021, according to their teacher, Matt Dado.

All six New Castle teams did great at the VEX Robotics State Competition, Dado said. The members of Team 16101V had theirminds set on this day since our program commenced in 2016. Its unfortunate they will not be able to attend the world competition, but we definitely understand there are greater concerns at this time.

The attention to detail in their engineering notebook, robotics programming, team determination and of course the mechanical robot led them to win these major awards,he continued. Its one thing to say you want to achieve something in life, butits another thing to prepare accordingly so you have a chance to achieve it. The number of students are limited who want to come to school on a weekend or wake up at 5a.m. to leave for a competition.

Story continues below video

Still practicing with their robot from the season, a few weeks before the state competition, Team 16101V started building a new robot and thought they finished everything, Dado explained. However, the team members decided totaketheir original robot to the state competition instead, because the driver and programmer were more familiar with it.

At the state competition, the team workedits way through the elimination brackets, winning each round. The final round required three matches, with the team winning two of the three, taking the championship.

Team driver Dylan McLaren looked at his teacher after the last match and said, Mr. Dado, Ive been waiting for this moment since eighth grade!

When asked about the championship accomplishment, Jacob Snyder commented, It was a great way to end this chapter of my life, and I cant wait to see what the others do next year.

Upon graduation, the students all are furthering their education and have bright futures at the next level and beyond, Dado said, but its extra-special to seeJade Bodie, Alexis Burkett, TeAsia Stewart, Ricky Zheng, and Jacob Snyderall pursuing engineering or computer science degrees after they graduate.

Both of my grandfathers served our country, and not serving is my biggest regret, the teacher added.Words are not enough to express the gratitude I hold in my heart for our veterans. I would like to thank Dylan McLaren (who plans to enter the Marines) and Logan Mooers (bound for the Army)who will be serving our country, as well as all the other men and women.

We are making critical coverage of the coronavirus available for free. Please consider subscribing so we can continue to bring you the latest news and information on this developing story.

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New Castle's winning robotics teams turn toward future - New Castle News

FRANKFURT, Germany--(BUSINESS WIRE)--Companies around the world are increasing their use of industrial robots: Within five years, the global operational stock rose by about

65 percent to 2.4 million units (2013-2018). For the same period of time, the U.S. Bureau of Labor Statistics reported a positive impact on the job market: Employment in the automotive industry the largest adopter of robots increased by 22% from 824,400 to 1,005,000 jobs (2013-2018). These facts contradict the conclusions recently published by MITs news office on economist Daron Acemoglus research. Based on data between 1990 to 2007 he deduces an overall negative effect of robots on employment in blue-collar working communities in the US. Yet, recent experience in the US, Europe and Asia proves the opposite: robot adoption will likely be a critical determinant of productivity growth for the post-COVID-19 economy. These are results of the International Federation of Robotics.

The impact of automation on employment is not in any respect different from previous waves of technology-driven change, says Milton Guerry, President of the International Federation of Robotics. Productivity increases and competitive advantages of automation dont replace jobs they will automate tasks, augment jobs and create new ones.

OECD Research: Ten times more productive

Research by the OECD shows that companies that employ technology effectively are ten times more productive than those that do not. To equip the workforce with the soft skills and technical knowledge required in the post-COVID-19 economy, a tight collaboration between industry, government and educational institutions is needed. Governmental policy incentives should encourage corporate investment in training and support funding of education.

Renaissance of industrial production

Companies around the globe are reassessing their global supply chain business models in reaction to the lessons learned from coronavirus. This will likely accelerate the introduction of robots, leading to a renaissance of industrial production in some regions and bringing back jobs. After the crisis, IFR expects a considerable boost for robotics and automation, even if the industry cannot currently decouple itself from the economic downturn.

Please find full press release version here: https://ifr.org/ifr-press-releases/

VideoWatch FACTS about ROBOTS by IFR - worldwide: https://www.youtube.com/watch?v=CAs00nvecho

Robots + Jobs positioning paper: https://tinyurl.com/wxbd8b3

About IFR

The International Federation of Robotics: http://www.ifr.org

Originally posted here:

Post-COVID-19 Economy: Robots Create Jobs - IFR reports - Business Wire

NVIDIA CEO Jensen Huang invited 100,000 GTC 2020 attendees into his kitchen

I attend hundreds of events a year as an analyst and one way I rate them is by the number and industry impact of the announcements. I watched NVIDIAs GTC 2020 virtual keynote today, and I found the company scored high on both. Architecture is everything when you are a platform provider and NVIDIA rolled out its new architecture, Ampere, across most of its entire markets. The only exception was gaming but Im sure that will be rolled out at the next gaming show.

NVIDIA rolled out its announcements in nine video chapters and I thought it made sense to roll out my coverage of GTC 2020 aligned with most of those eight chapters. Ive included links to the most relevant parts.

Clara healthcare platform updated and Data-Center-Scale Accelerated Computing introduced

From his kitchen in 4K splendor, NVIDIA CEO Jensen Huang kicked off this section thanking front-line COVID-19 workers and citing numerous examples where GPU-accelerated computing was helping in the fight. The two that stood out to me were Oxford Nanopore Technologies and Oak Ridge National Laboratory (ORNL) and the Scripps Research Institute who respectively, sequenced the virus in seven hours and already screened a billion drug combinations in one day. Its important for all keynotes these days to start by talking about COVID-19 as I believe this matters a lot to the audience.

The company took the time to provide an update on Clara, NVIDIAs healthcare platform. It introduced Guardian to power smart hospitals, new AI models to advance COVID-19 research and improve detection and a new world record for analyzing the human genome in under 20 minutes. As I said here, supercomputing will only get more important as we look at todays and future pandemics.

Huang continued onto NVIDIAs architecture for the datacenter, coined as Data-Center-Scale Accelerated Computing. He went on to make the case that the datacenter is the new computing unit. This was a very provocative statement but it basically says that the future is all about converged solutions containing CPU, GPU, networking (DPU), and a comprehensive software stack. It was a good way for the company to reinforce why acquiring Mellanox made sense for NVIDIA and its customers.

Omniverse and tip of the hat to NVIDIA RTX, DLSS 2.0 and ray tracing

This segment was a bit of a victory lap for NVIDIA on ray tracing and upsampling using AI (DLSS), which, I believe it deserves. This led to the Omniverse announcement. I believe the company has led the industry in accelerated ray tracing and AI for both gaming and workstations. RTX was announced at SIGGRAPH 2018 and its safe to say ray tracing is now a mainstream feature.

Jensen showed some cool eye candy demos of how the Unreal engine was upsampling a 540P scene to 1080P.Then he showed how ray tracing and AI came together on Minecraft. I wrote about the Minecraft for RTX Beta(here).

Huang then moved into the announcement that Omniverse, a collaboration platform for graphics and simulation workflows, was now available to early access customers. Huang showed how different developers in AEC (architecture, engineering, construction) working on different tools (Rhino, Max, Revit, AR) could work on the same project, via the cloud.

To me, the biggest significance is seeing NVIDIA develop a cloud-based collaboration platform that micro-verticals like AEC can leverage

Apache Spark 3.0 acceleration for big data

Huang then dove into GPU acceleration for the biggest of data in HPC and scientific computing where NVIDIA already performs well. NVIDIAs software library already supports over 700 CUDA-accelerated applications and Spark 3.0 acceleration is a huge announcement.

Many data scientists use Apache Spark. Adobe is one of the first companies working with a preview release of Spark 3.0 running on Databricks and said it achieved a 7x performance improvement and 90 percent cost savings in an initial test.

In his classic phrase we have learned to appreciate, Huang said the more you buy, the more you save. I have not scoured through every inch of the cost analysis, but similar prior claims hes made have passed my scrutiny.

Huang ended this session saying Databricks and Google Cloud Dataproc will soon be offering Spark with GPU acceleration. I find this announcement fascinating given just how much revenue opportunity there is in ETL (extract, transform, load). This news coupled with NVIDIA RAPIDS support on Google Cloud AI, AWS Sagemaker means NVIDIA is moving upstream in data workflows.

Merlin recommendation application framework

Next, Huang jumped into Merlin, a new application framework for recommendation systems. Youve likely used thousands of recommendation systems before if youve used Amazon (Customers who bought this item also bought) or Netflix (suggested videos). He said, Merlin slashes the time needed to create a recommender system from a 1-terabyte dataset from a couple of days to just a few minutes.

I will be watching this one very closely as I believe most real-time, or near real-time recommendation systems use CPUs today. The frameworks for recommenders are now more complex than ever and I believe, in need of acceleration.

Jarvis conversational AI application framework

All my readers have either used Alexa, Siri, Cortana or Assistant intelligent agents. But what about application developers who want to use something else in their applications? Enter NVIDIA Jarvis.

Jarvis is NVIDIAs application framework for multi-modal (speech and vision) and conversational AI applications. The company says it can recognize vision and sound so companies can create real-time translations, closed captioning of everyone speaking, transcriptions of video calls in real time or power a number of other applications such as smart speakers, call centers, interactions with robots and cars, and retail services.

I find this incredibly interesting as NVIDIA just got into the chatbot enabling business. The latest conversational applications use AI to be humanlike in intelligence and speech, it is impossible to run such systems in real time without GPUs. Jarvis opens the door for every enterprise to build and retrain such language-based applications for their use cases.

NVIDIA A100 datacenter GPU and DGX A100 integrated system

While the previous announcements were interesting, Huang put the biggest reveal in the middle of the program, the A100 datacenter GPU. This would be part six, for those counting at home. For the deepest dive on the A100, head on over to Moor Insights & Strategy AI analyst Karl Freunds post on the A100.

Huang kicked it off big by saying the A100 is in full production and shipping to customers worldwide. As Freund wrote, the company has early commitments from the industrys major players, including Google, AWS, Microsoft, Alibaba, Dell, Lenovo, HPE. While Freund did a great job in his article, I wanted to point out my main takeaways on the NVIDIA A100:

For those who pay close attention to this space, the most interesting takeaway is on training-inference using the same chip. While the industry has coalesced on NVIDIA GPUs for training, there are currently 100s of options here or coming for inference. I wonder how many VCs will be losing sleep tonight.

Its one thing to do a chip, another to create an entire system based on the chip. Huang also announced what we at the firm consider converged infrastructure, containing CPU, GPU, networking, memory, and storage. NVIDIA says the new platform, called DGX A100, is the first system to deliver 5 PetaFLOPS in a single node. I checked and its the only one I can find.

A single DGX A100 can contain eight A100s, six NVSwitches, nine Mellanox NICs, one dual core AMD Rome-based Epyc processor, and 15TB NVMe SSD. What a beast. And yes, it can likely play Crysis.

What a way to kick off an ecosystem.

EGX A100 edge computing with Ampere architecture and BMW factory robotics win

After that high point with A100 and DGX A100, Huang wasnt finished. Whats good for the datacenter is good for the edge, right?

Huang announced the NVIDIA EGX A100 for larger edge servers and the smaller EGX Jetson Xavier NX for what NVIDIA calls micro-edge servers. The two products enable developers to enable different performance and price points as well as different form factors.

The EGX A100 consists of an NVIDIA Ampere GPU and Mellanox ConnectX-6 DX SmartNIC and can support hundreds of cameras while the EGX Jetson Xavier NX supports a couple of cameras.

It was nice to see NVIDIA bring a major design win to the table, BMW, who committed to NVIDIAs robotics platform, called Isaac, to power many robots at its factories. Huang talked about numerous robots that split, pick, place, transport, and sort raw materials and work-in-progress assemblies.

Bigger picture, I see NVIDIA raising the bar by adding increasingly higher amounts of performance at different price points with a software platform that leverages all the designs. While there werent hard numbers on how many robots overall or revenue size, it sure is a positive feather in the NVIDIA cap. BMW is a very precise manufacturer and you can imagine how hard it would have been to win this business.

Automotive goes Ampere with Orin

If you have ever attended an NVIDIA CES event, you will know that NVIDIA is serious about the automotive market. CEO Jensen Huang once spoke 90 minutes at a CES keynote about the state of autonomous driving.

Just like what was good for the datacenter is good for the edge, what is good for the edge is good for automotive. With Orin, NVIDIA is bringing the Ampere architecture to automotive. Whats new here is NVIDIA offerings now span ADAS (10 TOPS/5W) to L2+ autopilot (200 TOPS/45W) to full L5 robotaxi (2,000 TOPS/800W).

Like the EGX family, the benefit of having a scaled architecture is that as an automaker or Tier 1, you can leverage design resources across hardware and software. In the past, OEMs and Tier 1s would have to qualify two separate platforms: one for ADAS and one for self-driving. Now they have only one platform to qualify.

Wrapping up

While GTC 2020 was virtual this year, it certainly didnt decrease the number of announcements or excitement. Too many events I attend now are devoid of product and service announcements and I think theyre real snoozers. Having attended nine GTCs, I can say this had the most announcements I can recall.

What I wanted to do was net out over 90 minutes of video from Jensen Huangs kitchen and eight press releases and talk about what it means for NVIDIA. With NVIDIAs chips based on the Ampere architecture and Mellanox networking, the company is bringing up to 20x AI performance in roughly the same power envelope. With the A100, it is very emphatically saying that you should be doing both training and inference on the same chip. Thats a really big deal because, while NVIDIA does have competitive inference solutions, there are at least 50 competing solutions out there already or coming.

The event also showcases Mellanoxs value add and integration into NVIDIAs grand plan, which Huang hit first, which he described as Data-Center-Scale Accelerated Computing. With Mellanox in the datacenter, nodes and GPUs connected by Mellanox becomes the datacenter. I think thats bold.

Overall, it was an impressive showing for NVIDIA. Now, Im looking forward to seeing how NVIDIA will integrate Ampere into its GeForce gaming solutions.

Disclosure: Moor Insights & Strategy, like all research and analyst firms, provides or has provided paid research, analysis, advising, or consulting to many high-tech companies in the industry, includingAmazon.com, Advanced Micro Devices,Apstra,ARM Holdings, Aruba Networks, AWS, A-10 Strategies,Bitfusion,Cisco Systems, Dell, DellEMC, Dell Technologies, Diablo Technologies, Digital Optics,Dreamchain, Echelon, Ericsson, Foxconn, Frame, Fujitsu, Gen Z Consortium, Glue Networks, GlobalFoundries,Google,HPInc., Hewlett Packard Enterprise, HuaweiTechnologies,IBM, Intel, Interdigital, Jabil Circuit, Konica Minolta, Lattice Semiconductor, Lenovo, Linux Foundation, MACOM (Applied Micro),MapBox,Mavenir, Mesosphere,Microsoft,National Instruments, NetApp, NOKIA, Nortek,NVIDIA, ON Semiconductor, ONUG, OpenStack Foundation, Panasas,Peraso, Pixelworks, Plume Design,Portworx, Pure Storage,Qualcomm, Rackspace, Rambus,RayvoltE-Bikes, Red Hat, Samsung Electronics, Silver Peak, SONY,Springpath, Sprint, Stratus Technologies, Symantec, Synaptics, Syniverse,TensTorrent,TobiiTechnology, Twitter, Unity Technologies, Verizon Communications,Vidyo, Wave Computing,Wellsmith, Xilinx, Zebra, which may be cited in this article.

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NVIDIA Launches New Ampere Architecture, Infrastructure, Robotics And Automotive Technologies At GTC 2020 - Forbes

LONDON--(BUSINESS WIRE)--Technavio has been monitoring the industrial robotics market in Europe and it is poised to grow by USD 2.23 billion during 2020-2024, progressing at a CAGR of almost 11% during the forecast period. The report offers an up-to-date analysis regarding the current market scenario, latest trends and drivers, and the overall market environment.

Technavio suggests three forecast scenarios (optimistic, probable, and pessimistic) considering the impact of COVID-19. Please Request Free Sample Report on COVID-19 Impact

The market is concentrated, and the degree of concentration will accelerate during the forecast period. ABB Ltd., b+m surface systems GmbH, Comau Spa, DENSO Corp., FANUC Corp., KUKA AG, OMRON Corp., Staubli International AG, Teradyne Inc., and Yaskawa Electric Corp. are some of the major market participants. The rising industrial automation will offer immense growth opportunities. To make the most of the opportunities, market vendors should focus more on the growth prospects in the fast-growing segments, while maintaining their positions in the slow-growing segments.

Rising industrial automation has been instrumental in driving the growth of the market.

Industrial Robotics Market in Europe 2020-2024: Segmentation

Industrial Robotics Market in Europe is segmented as below:

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Industrial Robotics Market in Europe 2020-2024: Scope

Technavio presents a detailed picture of the market by the way of study, synthesis, and summation of data from multiple sources. Our industrial robotics market in Europe report covers the following areas:

This study identifies rising demand for collaborative robots across industries as one of the prime reasons driving the industrial robotics market growth in Europe during the next few years.

Industrial Robotics Market in Europe 2020-2024: Vendor Analysis

We provide a detailed analysis of vendors operating in the industrial robotics market in Europe, including some of the vendors such as ABB Ltd., b+m surface systems GmbH, Comau Spa, DENSO Corp., FANUC Corp., KUKA AG, OMRON Corp., Staubli International AG, Teradyne Inc., and Yaskawa Electric Corp. Backed with competitive intelligence and benchmarking, our research reports on the industrial robotics market in Europe are designed to provide entry support, customer profile and M&As as well as go-to-market strategy support.

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Industrial Robotics Market in Europe 2020-2024: Key Highlights

Table Of Contents:

Executive Summary

Market Landscape

Market Sizing

Five Forces Analysis

Market Segmentation by End-user

Customer landscape

Geographic Landscape

Drivers, Challenges, and Trends

Vendor Landscape

Vendor Analysis

Appendix

List of abbreviations

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Technavio is a leading global technology research and advisory company. Their research and analysis focus on emerging market trends and provides actionable insights to help businesses identify market opportunities and develop effective strategies to optimize their market positions. With over 500 specialized analysts, Technavios report library consists of more than 17,000 reports and counting, covering 800 technologies, spanning across 50 countries. Their client base consists of enterprises of all sizes, including more than 100 Fortune 500 companies. This growing client base relies on Technavios comprehensive coverage, extensive research, and actionable market insights to identify opportunities in existing and potential markets and assess their competitive positions within changing market scenarios.

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Analysis on Impact of COVID-19- Industrial Robotics Market in Europe 2020-2024 | Rising Industrial Automation to Boost Growth | Technavio - Business...

The award-winning team is preparing for next years big competition at NASA, despite the cancellation of this years event.

Rachel Evans

The Express Building where the Robotics Team typically meets throughout the semester.

By Rachel Evans, Guest WriterMay 14, 2020

The University of Akrons Robotics Team was getting ready for the NASA Robotics Mining Competition at Kennedy Space Center scheduled for later in May, when their plans were brought to a halt by the global COVID-19 pandemic.On March 10, The University of Akron President Gary L. Miller announced that all in-person classes, as well as student organization meetings, would be canceled through the end of the Spring 2020 semester due to COVID-19.Since then, the Robotics Team has been working virtually, getting ready for next years competition.The biggest effect is that we cannot continue building the robot, Gina Lanese, Vice President of the Robotics team, said. The fall semester typically focuses on design, while at this point in the spring semester we are usually heavily focused on building and testing.The Robotics Team was founded in 2010, the same year as the first NASA Robotics Mining Competition, now called NASA RMC: Lunabotics.Their objective is to create the best robot for mining ice chunks on the moon, as well as fostering an interest in the STEM field through numerous outreach events with K-12 students throughout the semester.They have around 30 members and won second place in last years Robotics Mining Competition out of 50 teams. Earlier this year, they also represented the state of Ohio at the NASA Space Grant Consortium Anniversary event.The teams mission is to take the knowledge learned in the classroom and be able to apply it, team member Jason Colonna said. It is a great place to learn practical skills they dont teach in the classroom.While the competition at NASA has been cancelled due to COVID-19, the team continues to gear up for next years competition.Theyre learning about more ways to work both mechanically and with code, as well as carrying out official business such as officer elections and other preparations for next year.Its disappointing that we cant have meetings and work on our robot, but I understand that its necessary, team member Sarah Kuchcinski said.The team hopes to win next year, and to Beat Bama!, as their competition is last years NASAs competition winner, The University of Alabama. Alabama won Slide Presentation and Demonstrations, Systems Engineering Paper Award and The Joe Kosmo Award for Excellence.UAs team won second place in Slide Presentations & Demonstrations, as well as first place in Outreach Report. The Robotics Teams outreach program is something they take much pride in, hosting STEM and robotics events for various K-12 schools around the Akron area.Every month we always try to give back to the community by providing them with the confidence they need to pursue engineering, Kuchcinski said.This isnt the first time that the team has had to work around a cancellation, however.Last year, NASA had to cancel the competition due to the lengthy government shutdown that occurred, Lanese said. The shutdown put a pause on the construction of a building where the competition would have been held, as well as a pause on NASA employees projects. NASA cancelled the in-person competition, but still held a virtual one.When asked why the competition wasnt held virtually this year as well, Lanese said that she thinks that teams would still need to meet face to face, putting them at risk of COVID-19, so the event is closed this year, but is planning on hosting the event as scheduled next year.

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UA's Robotics Team Works Virtually Through COVID-19 Pandemic - The Buchtelite

A detailed study on the Global Robotics Education Market is used for the understanding the strategies, which is used by the manufacturers for increased in changes for the growth of the market in the estimated forecast period. Market research is one of the methods for the determination and estimation of the growth of the Global keyword Market in the estimated forecast period.

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Key vendors/manufacturers in the market:

The major players covered in Nerve Repair Biomateria are:AxogenCollagen MatrixPENTAIRThe Weir GroupZUWAPedrollo S.p.AINOXPAXylemJinan yuquanVARISCO S.p.A

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The Global Robotics Education Market report supplies business outlining, requirements, contact information and product image of important manufacturers of Global Robotics Education Market. This analysis report similarly reduces the present, past and in future Robotics Education business strategies, company extent, development, share and estimate analysis having a place with the predicted circumstances. Moreover, the possible results and the exposure to the enhancement of Global Robotics Education Market widely covered in this report. In conclusion, the Robotics Education report, demonstrate business enhancement projects, the Global Robotics Education Market deals network, retailers, consumers, suppliers, research findings, reference section, data sources and moreover.

Global Market By Type:

By Type, Robotics Education market has been segmented intoInstructional ProgramsPhysical Platforms& TrainingEducational Resources & Pedagogical Philosophy

Global Market By Application:

By Application, Robotics Education has been segmented into:UniversityHigh SchoolKindergartenOther

Market research report for every market is based upon several key factors, such as demand and supply of the product, market trends, revenue growth patterns as well as market shares. Report on the Global Robotics Education Market has been prepared after conducting a comprehensive research through a systematized methodology. These skills are useful for scrutinizing the market on the terms of outlined research guidelines. Mainly, research report covers all the information about the target audience, manufactures, vendors, research papers, products and many more. Moreover, their research papers cover the information and data about an industry in every aspect that consists of information related to the products, services, countries, market size, current trends, business research details and much more. In conclusion, research report gives an overview about all the important information needed to understand about a market. In addition, it is also beneficial and used for the estimation of the several aspects of the market which are likely to have an impact on the growth and the forecast of the market in the estimated forecast period.

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Global Robotics Education Market Report Forecast By Investment Statistics,Industry Outlook, Trends and Opportunities 2025 - Cole of Duty

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Our expert columnists offer opinion and analysis on important issues facing modern businesses and managers.

Before COVID-19, most people had some degree of apprehension about robots and artificial intelligence. Though their beliefs may have been initially shaped by dystopian depictions of the technology in science fiction, their discomfort was reinforced by legitimate concerns. Some of AIs business applications were indeed leading to the loss of jobs, the reinforcement of biases, and infringements on data privacy.

Those worries appear to have been set aside since the onset of the pandemic as AI-infused technologies have been employed to mitigate the spread of the virus. Weve seen an acceleration of the use of robotics to do the jobs of humans who have been ordered to stay at home or who have been redeployed within the workplace. Labor-replacing robots, for example, are taking over floor cleaning in grocery stores and sorting at recycling centers. AI is also fostering an increased reliance on chatbots for customer service at companies such as PayPal and on machine-driven content monitoring on platforms such as YouTube. Robotic telepresence platforms are providing students in Japan with an in-person college graduation experience. Robots are even serving as noisy fans in otherwise empty stadiums during baseball games in Taiwan. In terms of data, AI is already showing potential in early attempts to monitor infection rates and contact tracing.

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No doubt, more of us are overlooking our former uneasiness about robots and AI when the technologys perceived value outweighs its anticipated downsides. But there are dangers to this newfound embrace of AI and robots. With robots replacing more and more job functions in order to allow humans to coexist as we grasp for some semblance of normalcy, its important to consider whats next. What will happen when humans want their former jobs back? And what will we do if tracking for safetys sake becomes too invasive or seems too creepy yet is already an entrenched practice?

After a vaccine for COVID-19 is developed (we hope) and the pandemic retreats, its hard to imagine life returning to how it was at the start of 2020. Our experiences in the coming months will make it quite easy to normalize automation as a part of our daily lives. Companies that have adopted robots during the crisis might think that a significant percentage of their human employees are not needed anymore. Consumers who will have spent more time than ever interacting with robots might become accustomed to that type of interaction. When you get used to having food delivered by a robot, you eventually might not even notice the disappearance of a job that was once held by a human. In fact, some people might want to maintain social distancing even when it is not strictly needed anymore.

We, as a society, have so far not questioned what types of functions these robots will replace because during this pandemic, the technology is serving an important role. If these machines help preserve our health and well-being, then our trust in them will increase.

As the time we spend with people outside of our closest personal and work-related social networks diminishes, our bonds to our local communities might start to weaken. With that, our concerns about the consequences of robots and AI may decrease. In addition to losing sight of the scale of job loss empowered by the use of robots and AI, we may hastily overlook the forms of bias embedded within AI and the invasiveness of the technology that will be used to track the coronaviruss spread.

There are many critical considerations we have to make before we become more reliant on AI and robots during the pandemic.

First, as societys adoption and comfort level increases, organizations need to be mindful that the opportunities for bias that we know exist in AI are still a concern. For example, the potential of AI algorithms to assist with health care decision-making is vast in part because they can be trained on large data sets. AI may be called upon to help handle cases where a triage decision needs to be made in an intensive care unit such as who gets access to a ventilator which can have life and death ramifications. Given that heart disease is often misdiagnosed in women and black patients are frequently undertreated for pain, we know that many forms of bias underlie data sets and can interfere with data quality and how data is analyzed. These problems predate the advent of AI, but they could become more widely encoded into the fabric of the health care system if they are not corrected before AI becomes widespread.

Second, privacy concerns with respect to data collection and data accuracy are a growing problem, and organizations need to pay special attention to this issue. Vast data collection may be necessary for curtailing the spread of disease: Companies around the world are proposing phone-based apps that track individuals contact with those diagnosed with or recovering from the virus. Google and Apple, for instance, are partnering on an opt-in app for individuals to self-disclose their COVID-19 diagnosis. One might make a compelling argument that this is justified until the pandemic ends. Yet, once the precedent for this type of surveillance is established, how do you remove that power from governments, companies, and others? Are sunset clauses going to be built into organizations data collection and use plans?

The secondary uses of the vast troves of tracking data will undoubtedly entice organizations to hold on to them, especially given the financial profits that could be made off the data. Take the case of the app from Google and Apple. What happens when members of the public demand to get their data back or EU data protection and privacy rules require the disposal of the data when it is no longer needed? Cases of abuse from covert data collection and sharing are already well documented. Organizations involved in data collection and analysis and their oversight need to address these issues now versus later, when individuals will be less forgiving if their data is appropriated for other uses or used in ethically dubious ways.

It certainly is tempting to cast aside certain norms, regulations, and other protections, such as those around data privacy, in an emergency, when that may be what is needed in the short term to protect people and save lives. Yet we must not fail to prepare for what comes after this global emergency. This includes developing retraining strategies to help those whose jobs have been disrupted by the pandemic already well over 30 million people in the U.S. alone as they try to return to the workforce, given that some of those jobs are highly susceptible to replacement by automation. We need to rethink the harmful biases that might have cropped up in the AI applications weve adopted biases they will have learned from our adaptive behaviors and will have modeled through their interactions with us. And although we are living in an unprecedented situation, we proactively need to address planning and protections in relation to the adoption of robots and AI. Otherwise, a crisis of another form may be looming.

Ayanna Howard (@robotsmarts) is the Linda J. and Mark C. Smith Professor and Chair of the School of Interactive Computing in the College of Computing at Georgia Tech. She also serves as director of the Human-Automation Systems (HumAnS) Lab in the School of Electrical and Computer Engineering. Jason Borenstein is the director of graduate research ethics programs and associate director of the Center for Ethics and Technology within the School of Public Policy and Office of Graduate Studies at Georgia Tech.

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AI, Robots, and Ethics in the Age of COVID-19 - MIT Sloan

The numbers speak for themselves. We definitely need more women in STEM fields. According to the United Nations, women constitute merely 14 percent of the total 280,000 scientists, engineers, and technologists in research development institutions in India.

Its 2020 and still, there is an under-representation of women in STEM. Its therefore, heartening to hear of young people in India trying to make a mark in this field.

One such youngster who is taking her love for robotics and hoping to turn it into a profitable business enterprise is Lavanya Iyer, a 14-year-old student of Dhirubhai Ambani International School, Mumbai.

As a robotics enthusiast, Lavanya regularly participates in global competitions on robotics and also mentors young students in the field.

The idea of a business, however, came from one of her sessions at the Young Entrepreneurs Academy (YEA!)

The young entrepreneur clearly remembers her second session at YEA!, where they discussed at length about the problems around them and brainstormed on how to find solutions.

Thats when I thought about my aunt, who had to undergo a surgery when she was young, and had to take the long road to recovery through physiotherapy. It was a painful memory and made me realise that there must be a large segment of patients who face similar issues. It was then that I thought of a way to make this process easier for both patients and physiotherapists, and the idea of Kynaid was born.

Kynaid, as the name suggests, is a robotic tool that aids in the kinetic movement of fingers, hand, and arm. It assists in the speedy recovery of patients and provides efficient physiotherapy management.

Lavanya emphasises that the product, which evolved with inputs from doctors, physiotherapists, and patients, is simple, easy to use, and inexpensive.

She says, the prototype is ready, and she is in the process of filing for a patent.

Initially, Lavanya plans to introduce Kynaid to physiotherapists to garner their support and then reach out to consumers, as it will help them in their job and help patients to do the exercises at home.

She plans a business model comprising customer segments - patients and physiotherapists.

Kynaid will offer a basic and fully functional model, and also a range of models with additional features. While the basic model could be priced at around Rs 10,000 to make it affordable, the ones with additional features could go up to Rs 25,000.

Lavanya attributes moving forward with her idea to her mentorship and training sessions at YEA!

YEA has helped me get in touch with various industry leaders who have helped me with improving upon various aspects of my business. I won the second prize at the investor panel and got the opportunity to attend the YEA! Global competition in the US. I also attended two YEA! trade shows and through all these avenues, I received brilliant feedback on my product and guidance on ways to improve it and make it more patient-friendly. All this exposure through YEA! really boosted my self-confidence and the feedback helped me tweak my business plan, she says.

Lavanya also got the opportunity to pitch at a healthtech conference organised by IIM-Ahmedabad, where the judges were so impressed by her product that they announced an impromptu seed funding for her venture.

She is also looking to raise seed funding from private investors to scale up the business to its real potential.

I am hoping to extend Kynaid into other physiotherapy practices such as acupressure. This is just the beginning. I do hope I can continue using my creative skills in designing technological innovations in the field of healthcare. Nothing will give me more happy than to break stereotypes for women in STEM by making an impact in this space through my healthtech innovations, says Lavanya.

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This 14-year-old has developed a robotic tool prototype that aids in kinetic movements of fingers, hands, arms - YourStory

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