Trending Artificial Intelligence (AI) Robots Market 2020: COVID-19 Outbreak Impact Analysis

Chicago, United States The Artificial Intelligence (AI) Robots market report provides a detailed analysis of global market size, regional and country-level market size, segmentation market growth, market share, competitive Landscape, sales analysis, impact of domestic and global market players, value chain optimization, trade regulations, recent developments, opportunities analysis, strategic market growth analysis, product launches, area marketplace expanding, and technological innovations

The Artificial Intelligence (AI) Robots market report 5 Years Forecast [2020-2025] focuses on the COVID19 Outbreak Impact analysis of key points influencing the growth of the market. The intelligence report prepared contains details on the leading players of the Global Artificial Intelligence (AI) Robots Market, along with various depending aspects related and associated with the market. Profile the Top Key Players of Artificial Intelligence (AI) Robots, with sales, revenue and global market share of Artificial Intelligence (AI) Robots are analyzed emphatically by landscape contrast and speak to info. Upstream raw materials and instrumentation and downstream demand analysis is additionally administrated. The Artificial Intelligence (AI) Robots market business development trends and selling channels square measure analyzed. Artificial Intelligence (AI) Robots industry research report enriched on worldwide competition by topmost prime manufactures which providing information such as Company Profiles, Gross, Gross Margin, Capacity, Product Picture and Specification, Production, Price, Cost, Revenue and contact information.The report assesses the key opportunities in the market and outlines the factors that are and will be driving the growth of the Artificial Intelligence (AI) Robotsindustry. Growth of the overall Artificial Intelligence (AI) Robotsmarket has also been forecasted for the period 2020-2025, taking into consideration the previous growth patterns, the growth drivers and the current and future trends.

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Key Issues Addressed by Artificial Intelligence (AI) Robots Market: The Artificial Intelligence (AI) Robots report is a compilation of first-hand information, qualitative and quantitative assessment by industry analysts, inputs from industry experts and industry participants across the value chain. This report provides an in-depth analysis of parent company market trends, macroeconomic indicators and dominant factors, and market attractiveness by segment.

Our exploration specialists acutely ascertain the significant aspects of the global Artificial Intelligence (AI) Robots market report. It also provides an in-depth valuation in regards to the future advancements relying on the past data and present circumstance of Artificial Intelligence (AI) Robots market situation. In this Artificial Intelligence (AI) Robots report, we have investigated the principals, players in the market, geological regions, product type, and market end-client applications. The global Artificial Intelligence (AI) Robots report comprises of primary and secondary data which is exemplified in the form of pie outlines, Artificial Intelligence (AI) Robots tables, analytical figures, and reference diagrams. The Artificial Intelligence (AI) Robots report is presented in an efficient way that involves basic dialect, basic Artificial Intelligence (AI) Robots outline, agreements, and certain facts as per solace and comprehension.

Key point summary of the Artificial Intelligence (AI) Robots market Report:

1) Examining the overall market, underlining the recent trends and SWOT analysis2) Artificial Intelligence (AI) Robots Market scenario, focused on the growth opportunities in the market in the coming years3) Analysis of the different market segments, including qualitative and quantitative research and studies the impact of both economic and non-economic factors4) Inspection of the market at regional and global levels focusing on the demand and supply factors affecting the growth of the Artificial Intelligence (AI) Robots market.5) Market size (USD Million) and volume (Units Million) statistics for all market segment and sub-segment6) Competitive analysis with Artificial Intelligence (AI) Robots market share of leading market players, shedding light on project launches and tactical approaches implemented by the players in the last five years7) Extensive company profiling comprising of the product offerings, key financial facts and figures, recent developments, SWOT analysis, and strategic initiatives by the major firms in the Artificial Intelligence (AI) Robots market

The analysis includes market size, upstream situation, market segmentation, market segmentation, price & cost and industry environment. In addition, the report outlines the factors driving industry growth and the description of market channels.The report begins from overview of industrial chain structure, and describes the upstream. Besides, the report analyses market size and forecast in different geographies, type and end-use segment, in addition, the report introduces market competition overview among the major companies and companies profiles, besides, market price and channel features are covered in the report.

Competitive Landscape:

The competitive analysis of major market players is another notable feature of the Artificial Intelligence (AI) Robots market report; it identifies direct or indirect competitors in the market.

The Artificial Intelligence (AI) Robots market report provides answers to the following key questions:

At what rate is the Artificial Intelligence (AI) Robots market expected to grow in size in the forecast period? What are the key factors influencing the global Artificial Intelligence (AI) Robots market growth? Which significant market trends are driving the growth of the global Artificial Intelligence (AI) Robots market? Which factors are the determinants of the market shares of the leading geographies across the globe? Who are the leading participants in the industry and what are the strategies adopted by them in the global Artificial Intelligence (AI) Robots market? What are the opportunities and challenges encounters by vendors in the global Artificial Intelligence (AI) Robots market? Which trends, drivers and challenges are affecting the growth of the industry? What is the outcome of the PESTEL analysis of the global Artificial Intelligence (AI) Robots market?

Analysis of Global Artificial Intelligence (AI) Robots Market: By TypeServiceIndustriaMarket by TechnologyMachine LearningComputer Vision

Analysis of Global Artificial Intelligence (AI) Robots Market: By ApplicationPublic RelationsStock Management

Artificial Intelligence (AI) Robots Market Regional Analysis Includes:

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

Strategic Points Covered in Table of Content of Global Artificial Intelligence (AI) Robots Market:

Chapter 1: Introduction, market driving force product Objective of Study and Research Scope the Artificial Intelligence (AI) Robots market

Chapter 2: Exclusive summary the basic information of the Artificial Intelligence (AI) Robots Market.

Chapter 3: Displaying the Market Dynamics- Drivers, Trends and Challenges of the Artificial Intelligence (AI) Robots

Chapter 4: Presenting the Artificial Intelligence (AI) Robots Market Factor Analysis Porters Five Forces, Supply/Value Chain, PESTEL analysis, Market Entropy, Patent/Trademark Analysis.

Chapter 5: Displaying the by Type, End User and Region 2013-2018

Chapter 6: Evaluating the leading manufacturers of the Artificial Intelligence (AI) Robots market which consists of its Competitive Landscape, Peer Group Analysis, BCG Matrix & Company Profile

Chapter 7: To evaluate the market by segments, by countries and by manufacturers with revenue share and sales by key countries in these various regions.

Chapter 8 & 9: Displaying the Appendix, Methodology and Data Source.

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Excerpt from:

New Trends: Covid-19 Impact On Artificial Intelligence (AI) Robots Market Competitive Landscape, Analysis And Overview Forecast | ABB, Alphabet,...

Moving neuromorphic technology from the laboratory into practice has proven slow-going. This week, National University of Singapore researchers moved the needle forward demonstrating an event-driven, visual-tactile perception system that uses Intels Loihi chip to control a robotic arm combining tactile sensing and vision. Noteworthy, they also ran the exercise on a GPU system and reported the Loihi-based the system performed slightly better and at much lower power.

NUS researchers presented their results today at the virtual Robotics Science and Systems conference being held this week. The combination of tactile sensing (grip) with vision (location) is expected to significantly enhance Robotic arm precision and delicacy of grip when handling objects. The use of neuromorphic technology also promises progress in efforts to reduce the power consumption required for robotics which is a central goal for neuromorphic technology.

Were excited by these results. They show that a neuromorphic system is a promising piece of the puzzle for combining multiple sensors to improve robot perception. Its a step toward building power-efficient and trustworthy robots that can respond quickly and appropriately in unexpected situations, said Harold Soh a NUS professor and author on a paperdescribing the work (Event-Driven Visual-Tactile Sensing and Learning for Robots).

Intel has long been at the forefront of efforts to commercialize neuromorphic technology, and its Loihi (chip)/Pohoiki (system) is among the most developed platforms. Neuromorphic systems mimic natural systems such as the brain in that they use spiking neural networks (SNN) to process information instead of the artificial neural networks (ANN) more commonly used in machine/deep learning.

Mike Davies, director of Intels Neuromorphic Computing Lab, said, This research from National University of Singapore provides a compelling glimpse to the future of robotics where information is both sensed and processed in an event-driven manner combining multiple modalities. The work adds to a growing body of results showing that neuromorphic computing can deliver significant gains in latency and power consumption once the entire system is re-engineered in an event-based paradigm spanning sensors, data formats, algorithms, and hardware architecture. Intel also posted an account of the work.

This excerpt from the NUS paper nicely describes the challenge and contribution:

Many everyday tasks require multiple sensory modalities to perform successfully. For example, consider fetching a carton of soymilk from the fridge humans use vision to locate the carton and can infer from a simple grasp how much liquid the carton contains. They can then use their sense of sight and touch to lift the object without letting it slip. These actions (and inferences) are performed robustly using a power-efficient neural substratecompared to the multi-modal deep neural networks used in current artificial systems, human brains require far less energy.

In this work, we take crucial steps towards efficient visual-tactile perception for robotic systems. We gain inspiration from biological systems, which are asynchronous and event- driven. In contrast to resource-hungry deep learning methods, event-driven perception forms an alternative approach that promises power-efficiency and low-latencyfeatures that are ideal for real-time mobile robots. However, event-driven systems remain under-developed relative to standard synchronous perception methods.

The value of multi-modal sensing has long been recognized as an important component for advancing robotics. However, limitations in the use of spiking neural networks have impeded the use of neuromorphic chips in real-time sensing functions.

Event-based sensors have been successfully used in conjunction with deep learning techniques. The binary events are first converted into real-valued tensors, which are processed downstream by deep ANNs (artificial neural networks). This approach generally yields good models (e.g., for motion segmentation, optical flow estimation, and car steering prediction, but at high compute cost, write the researchers

Neuromorphic learning, specifically Spiking Neural Networks (SNNs), provide a competing approach for learning with event data. Similar to event-based sensors, SNNs work directly with discrete spikes and hence, possess similar characteristics, i.e., low latency, high temporal resolution and low power consumption. Historically, SNNs have been hampered by the lack of a good training procedure. Gradient-based methods such as backpropagation were not available because spikes are non-differentiable. Recent developments in effective SNN training, and the nascent availability of neuromorphic hardware (e.g., IBM TrueNorth and Intel Loihi) have renewed interest in neuromorphic learning for various applications, including robotics. SNNs do not yet consistently outperform their deep ANN cousins on pseudo-event image datasets, and the research community is actively exploring better training methods for real event-data.

Another obstacle was simply developing adequate tactile sensing devices. Although there are numerous applications for tactile sensors (e.g., minimal invasive surgery and smart prosthetics, tactile sensing technology lags behind vision. In particular, current tactile sensors remain difficult to scale and integrate with robot platforms. The reasons are twofold: first, many tactile sensors are interfaced via time-divisional multiple access (TDMA), where individual taxels are periodically and sequentially sampled. The serial readout nature of TDMA inherently leads to an increase of readout latency as the number of taxels in the sensor is increased. Second, high spatial localization accuracy is typically achieved by adding more taxels in the sensor; this invariably leads to more wiring, which complicates integration of the skin onto robot end- effectors and surfaces, according to the paper.

The researchers developed their own a novel neuro-inspired tactile sensor (NeuTouch): The structure of NeuTouch is akin to a human fingertip: it comprises skin, and bone, and has a physical dimension of 372113 mm. This design facilitates integration with anthropomorphic end-effectors (for prosthetics or humanoid robots) and standard multi-finger grippers; in our experiments, we use NeuTouch with a Robotiq 2F-140 gripper. We focused on a fingertip design in this paper, but alternative structures can be developed to suit different applications, wrote the researchers.

NeuTouchs tactile sensing is achieved via a layer of electrodes with 39 taxels and a graphene-based piezoresistive thin film. The taxels are elliptically-shaped to resemble the human fingertips fast-adapting (FA) mechano-receptors, and are radially-arranged with density varied from high to low, from the center to the periphery of the sensor.

During typical grasps, NeuTouch (with its convex surface) tends to make initial contact with objects at its central region where the taxel density is the highest. Correspondingly, rich tactile data can be captured in the earlier phase of tactile sensing, which may help accelerate inference (e.g., for early classification). The graphene-based pressure transducer forms an effective tactile sensor, due to its high Youngs modulus, which helps to reduce the transducers hysteresis and response time, report the researchers.

The primary goal, say the researchers, was to determine if their multi-modal system was effective at detecting differences in objects that were difficult to isolate using a single sensor, and whether the weight spike-count loss resulted in better early classification performance. Note that our objective was not to derive the best possible classifier; indeed, we did not include proprioceptive data which would likely have improved results, nor conduct an exhaustive (and computationally expensive) search for the best architecture. Rather, we sought to understand the potential benefits of using both visual and tactile spiking data in a reasonable setup.

They used four different containers: a coffee can, Pepsi bottle, cardboard soy milk carton, and metal tuna can. The robot was used to grasp and lift each object 15 times and classify the object and determine its weight. The multi-modal SNN model achieved the highest score (81percent) which was about ten percent better than any of the single mode tests.

In terms of comparing the Loihi neuromorphic chip with the GPU (Nvidia GeForce RTX 2080), their overall performance was broadly similar but the Loihi-based system used far less power (see table). The latest work is significant step forward.

Its best to read the full paper but here is an overview of the experiment taken from the paper.

Link to paper, http://www.roboticsproceedings.org/rss16/p020.pdf

Link to Intel release, https://newsroom.intel.com/news/singapore-researchers-neuromorphic-computing-robots-feel/#gs.av7uff

Link to video, https://www.youtube.com/watch?time_continue=19&v=tmDjoSIYtsY&feature=emb_logo

Here is the original post:

Get a Grip: Intel Neuromorphic Chip Used to Give Robotics Arm a Sense of Touch - HPCwire

The COVID-19 crisis has heightened the economic imperative to improve recycling, particularly as countries seek to bring more parts of their supply chains closer to home. Yet, the sorting and disassembly required in order to recycle effectively and safely is not unlike unscrambling an eggin other words, challenging.

Roboticists think that, computer vision, neural networks and modular robotics can enable a more intelligent, flexible approach to recycling. For instance, AI-enabled robotics can identify items based on visual cues such as logos or color, and sort or take them apart accordingly.

Such systems excel at identifying small items, such as the coffee pods used in Nespresso machines, which, while technically recyclable, are not always recycled. You can categorize and subcategorize, and the robotics are getting smarter as a result of artificial intelligence, notes Chris Wirth, vice-president of marketing and business development for AMP Robotics.

And, taking products apart will become increasingly important as more waste is electronic, which often contains valuable materials such as gold, silver, platinum and cobalt.

Shahin Rahimifard, professor of sustainable engineering at the UKs Loughborough University observes that, In electric cars, most of the value will be the precious metals which, by weight, could be only four or five percent. His team is developing a robotic dissembler.

This technology is creating a sustainable workforce for jobs that arent being filled, notes Wirth. These are the dull, dirty, dangerous kind of jobs which robotics and AI is perfect for.

View the original article here.

Originally posted here:

AI-enabled Robotics are Helping to Strengthen Recycling Processing Capabilities - waste360

Global Robotics End-of-arm Tooling Market report gives a comprehensive and detail picture of the present and upcoming market opportunities that is been completed by investigating the effect by buyers, new entrants, Robotics End-of-arm Tooling industry competitors and suppliers available in the Robotics End-of-arm Tooling market. The goal of this report is to incorporate both authentic and future trends for Robotics End-of-arm Tooling supply, Market size, costs, exchanging, competition and value chain. The top to bottom information and data on what the business sectors definition, arrangements, applications, and commitment are covered and furthermore clarifies with the drivers and restraints of the market which is gotten from SWOT analysis.

This research essentially examines the market size, current trends and growth status of the Robotics End-of-arm Tooling market, as well as financing opportunities, government policy, drivers, restraints, opportunities, supply chain, and ambitious landscape. Technological innovation and rise will additionally upgrade the presentation of the product, making it all the more generally utilized in downstream applications. Moreover, Porters Five Forces Analysis (potential entrants, suppliers, substitutes, buyers, industry competitors) provides vital data for knowing the Robotics End-of-arm Tooling market.

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Major Players Of Robotics End-of-arm Tooling Market

Schunk, Festo, SMC, Robotiq, Zimmer, Destaco, ATI Industrial Automation, EMI, IAI, Applied Robotics, Schmalz, RAD, FIPA, SAS Automation, Bastian Solutions, Soft Robotics, Grabit

This report covers the Types as well as Application data for Robotics End-of-arm Tooling Market along with the country level information for the period of 2015-2024

Market Segmented By Types and By its Applications:

Type:Robot GrippersRobotic Tools

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Global Robotics End-of-arm Tooling Market Scope and Features

Global Robotics End-of-arm Tooling Industry Introduction and Overview Includes Robotics End-of-arm Tooling market Definition, Market Scope and Market Size Estimation and region-wise Robotics End-of-arm Tooling Value and Growth Rate history from 2015-2024, Robotics End-of-arm Tooling market dynamics:Drivers, Limitations, challenges that are faced, emerging countries of Robotics End-of-arm Tooling, Industry News and Policies by Regions.

Industry Chain Analysis To describe upstream raw material suppliers and cost structure of Robotics End-of-arm Tooling, major players of Robotics End-of-arm Tooling with company profile, Robotics End-of-arm Tooling manufacturing base and market share, manufacturing cost structure analysis, Market Channel Analysis and major downstream buyers of Robotics End-of-arm Tooling.

Global Robotics End-of-arm Tooling Market Analysis by Product Type and Application It gives Robotics End-of-arm Tooling market share, value, status, production, Robotics End-of-arm Tooling Value and Growth Rate analysis by type from 2015 to 2019. Although downstream market overview, Robotics End-of-arm Tooling consumption,Market Share, growth rate, by an application (2015-2019).

Regional Analysis This segment of report covers the analysis of Robotics End-of-arm Tooling production, consumption,import, export, Robotics End-of-arm Tooling market value, revenue, market share and growth rate, market status and SWOT analysis, Robotics End-of-arm Tooling price and gross margin analysis by regions.

Competitive Landscape, Trends And Opportunities: It includes the provides competitive situation and market concentration status of major players of Robotics End-of-arm Tooling with basic information i.e company profile, Product Introduction, Market share, Value, Price, Gross Margin 2015-2019

Robotics End-of-arm Tooling Industry Analysis and Forecast by Region Includes Market Value and Consumption Forecast (2015-2024) of Robotics End-of-arm Tooling market Of the following region and sub-regions including the North America, Europe(Germany, UK, France, Italy, Spain, Russia, Poland), China, Japan,Southeast Asia (Malaysia, Singapore, Philippines, Indonesia, Thailand, Vietnam) Middle East and Africa(Saudi Arabia, United Arab Emirates, Turkey, Egypt, South Africa, Nigeria), India, South America(Brazil, Mexico, Colombia)

Do you want any other requirement or customize the report, Do Inquiry Here: https://www.globalmarketers.biz/report/manufacturing-&-construction/global-robotics-end-of-arm-tooling-market-2019-by-manufacturers,-regions,-type-and-application,-forecast-to-2024/131377#inquiry_before_buying

1 Robotics End-of-arm Tooling Introduction and Market Overview

2 Industry Chain Analysis

3 Global Robotics End-of-arm Tooling Value (US$ Mn) and Market Share, Production , Value (US$ Mn) , Growth Rate and Average Price (US$/Ton) analysis by Type (2015-2020)

4 Robotics End-of-arm Tooling Consumption, Market Share and Growth Rate (%) by Application (2015-2020) by Application

5 Global Robotics End-of-arm Tooling Production, Value (US$ Mn) by Region (2015-2020)

6 Global Robotics End-of-arm Tooling Production (K Units), Consumption (K Units), Export (%), Import (%) by Regions (2015-2020)

7 Global Robotics End-of-arm Tooling Market Status by Regions

8 Competitive Landscape Analysis

9 Global Robotics End-of-arm Tooling Market Analysis and Forecast by Type and Application

10 Robotics End-of-arm Tooling Market Analysis and Forecast by Region

11 New Project Feasibility Analysis

12 Research Finding and Conclusion13 Appendix13.1 Methodology13.2 Research Data Source

Table of Content & Report Detail @ https://www.globalmarketers.biz/report/manufacturing-&-construction/global-robotics-end-of-arm-tooling-market-2019-by-manufacturers,-regions,-type-and-application,-forecast-to-2024/131377#table_of_contents

Original post:

Global Robotics End-of-arm Tooling Market to Witness Comprehensive Growth by 2024 - Daily Research Chronicles

Global Warehouse Robotics Market report gives a comprehensive and detail picture of the present and upcoming market Opportunities that is been completed by investigating the effect by buyers, new entrants, Warehouse Robotics industry competitors and suppliers available in the Warehouse Robotics market. The goal of this report is to incorporate both authentic and future trends for Warehouse Robotics supply, Market size, costs, exchanging, competition and value chain. The top to bottom information and data on what the business sectors definition, arrangements, applications, and commitment are covered and furthermore clarifies with the drivers and restraints of the market which is gotten from SWOT analysis.

This research essentially examines the market size, current trends and growth status of the Warehouse Robotics market, as well as financing Opportunities, government policy, drivers, restraints, Opportunities, supply chain, and ambitious landscape. Technological innovation and rise will additionally upgrade the presentation of the product, making it all the more generally utilized in downstream applications. Moreover, Porters Five Forces Analysis (potential entrants, suppliers, substitutes, buyers, industry competitors) provides vital data for knowing the Warehouse Robotics market.

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Major Players Of Warehouse Robotics Market

Daifuku, Kuka, Knapp, Dematic, Grenzebach, Bastian, Amazon Robotics, CIM Corp, Adept Technology, Vanderlande, Hitachi, Vecna, Others

This report covers the Types as well as Application data for Warehouse Robotics Market along with the country level information for the period of 2015-2024

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Global Warehouse Robotics Industry Introduction and Overview Includes Warehouse Robotics market Definition, Market Scope and Market Size Estimation and region-wise Warehouse Robotics Value and Growth Rate history from 2015-2024, Warehouse Robotics market dynamics:Drivers, Limitations, challenges that are faced, emerging countries of Warehouse Robotics , Industry News and Policies by Regions.

Industry Chain Analysis To describe upstream raw material suppliers and cost structure of Warehouse Robotics , major players of Warehouse Robotics with company profile, Warehouse Robotics manufacturing base and market share, manufacturing cost structure analysis, Market Channel Analysis and major downstream buyers of Warehouse Robotics .

Global Warehouse Robotics Market Analysis by Product Type and Application It gives Warehouse Robotics market share, value, status, production, Warehouse Robotics Value and Growth Rate analysis by type from 2015 to 2019. Although downstream market overview, Warehouse Robotics consumption,Market Share, growth rate, by an application (2015-2019).

Regional Analysis This segment of report covers the analysis of Warehouse Robotics production, consumption,import, export, Warehouse Robotics market value, revenue, market share and growth rate, market status and SWOT analysis, Warehouse Robotics price and gross margin analysis by regions.

Competitive Landscape, Trends And Opportunities: It includes the provides competitive situation and market concentration status of major players of Warehouse Robotics with basic information i.e company profile, Product Introduction, Market share, Value, Price, Gross Margin 2015-2019E

Warehouse Robotics Industry Analysis and Forecast by Region Includes Market Value and Consumption Forecast (2015-2024) of Warehouse Robotics market Of the following region and sub-regions including the North America, Europe(Germany, UK, France, Italy, Spain, Russia, Poland), China, Japan,Southeast Asia (Malaysia, Singapore, Philippines, Indonesia, Thailand, Vietnam) Middle East and Africa(Saudi Arabia, United Arab Emirates, Turkey, Egypt, South Africa, Nigeria), India, South America(Brazil, Mexico, Colombia)

Do you want any other requirement or customize the report, Do Inquiry Here: https://www.globalmarketers.biz/report/manufacturing-&-construction/global-warehouse-robotics-market-2019-by-manufacturers,-regions,-type-and-application,-forecast-to-2024/130969#inquiry_before_buying

1 Warehouse Robotics Introduction and Market Overview

2 Industry Chain Analysis

3 Global Warehouse Robotics Value (US$ Mn) and Market Share, Production , Value (US$ Mn) , Growth Rate and Average Price (US$/Ton) analysis by Type (2015-2020E)

4 Warehouse Robotics Consumption, Market Share and Growth Rate (%) by Application (2015-2020E) by Application

5 Global Warehouse Robotics Production, Value (US$ Mn) by Region (2015-2020E)

6 Global Warehouse Robotics Production (K Units), Consumption (K Units), Export (%), Import (%) by Regions (2015-2020E)

7 Global Warehouse Robotics Market Status by Regions

8 Competitive Landscape Analysis

9 Global Warehouse Robotics Market Analysis and Forecast by Type and Application

10 Warehouse Robotics Market Analysis and Forecast by Region

11 New Project Feasibility Analysis

12 Research Finding and Conclusion13 Appendix13.1 Methodology13.2 Research Data Source

Table of Content & Report Detail @ https://www.globalmarketers.biz/report/manufacturing-&-construction/global-warehouse-robotics-market-2019-by-manufacturers,-regions,-type-and-application,-forecast-to-2024/130969#table_of_contents

Read more:

Global Warehouse Robotics Market Segmentation, Trends, Growth, Competitive Analysis and Geographical Outlook till 2024 - Cole of Duty

Extraordinary timesand a need for proven measuresmay be what propels robotics to the next level in warehouse and distribution center (DC) operations.

Not that robotics has been slow to catch on in warehousing. According to analyst firm ABI Research, the global mobile robotics market will reach $23 billion this year. In a 2020 survey by Peerless Research as part of our annual Industry Outlook study, 9% surveyed told us they were already using robotics, and 19% were considering them.

But can robotics for intralogistics keep growing quickly, given the disruption from the COVID-19 pandemic? Unemployment has skyrocketed. Some manufacturers temporarily had to shut down sites, and many companies have tightened their budgets, at least in the short term.

At the same time, e-commerce has spiked, especially in sectors like grocery. And while it may be too early to tally the impacts of the pandemic on robotics, in the long term, the technologys ability to increase productivity with minimal added labor bodes well for the technology, says Rian Whitton, a senior analyst at ABI.

From what were seeing, there has been a huge increase in demand for e-commerce during the pandemic, says Whitton. And the greater the percentage of retail that shifts to online, the more heavily automated these warehouses and other facilities involved with fulfillment will need to become, which should accelerate the market for mobile robotics.

Robotics spans autonomous mobile robots (AMRs) that transport goods or assist workers with picking, as well as fixed robotic arms that can identify and pick goods. Some workflows may combine the two, with AMRs transporting bins to robotic arms. Some vendors, such as IAM Robotics, offer mobile manipulation robots that can pick items.

In short, there are multiple types of robotics, and they often work in combination with people, or with fixed forms of automation like conveyors. This range of solution types is the first thing potential users need to realize about warehouse robotics.

Robotics vendors say there are other ways that robotics is evolving for intralogistics, including new workflows, better exception handling, and deeper leveraging of artificial intelligence (AI). Whats more, robotics aligns with the times in that they can help keep human co-workers safe, while keeping orders flowing to customers.

During the last couple of years, when unemployment was at historic lows, an often-cited driver for robotics was how it could make the labor you could find more effective by doing away with much of the non-value-added time spent walking or pushing carts in large DCs.

While for the recently unemployed, warehousing can provide much needed work, since due to health concerns, many companies will likely continue to struggle to find enough people without increased automation, say some vendors.

From a business perspective, the big challenges are that were running out of people, weve been running out of space, and weve been running out of time, says Jeff Cashman, COO with AMR vendor GreyOrange.

Even before COVID-19, it was difficult to hire and retain enough associates, adds Cashman. Now, because of health risk concerns, its still difficult to find enough people, and on top of that, theres the need to practice social distancing, and time pressures operations face havent gotten any easier. Those three problemsrunning out of people, running out of space, and running out of timecan be seen as underlying drivers for robotics. Its important, however, that the robots are integrated with a software that is real-time and flexible, to solve those problems.

Collaborative robots are well suited to these troubling times, explains Karen Leavitt, CMO for Locus Robotics, because robots boost the productivity of their human co-workers, and naturally keeps them socially distanced.

Mobile robots are capable of transporting larger payloads across a facility.

Locus offers a multi-bot collaborative AMR solution in which human pickers stick to one fairly compact area to do picking with the help of multiple bots that come by with work to execute. This elimination of most of the travel involved with traditional pick-to-cart methods, and the guidance from the robots, helps Locus users get at least two times more productivity from their associates versus pick to cart, says Leavitt.

Our solution also naturally provides for employee separation, says Leavitt. We did it for productivity reasons. The design point was to ensure we were keeping workers from crossing each others paths and walking long distances. It turns out that the same design point that makes the solution more productive also supports social distancing.

The surge of online buying has also found many DCs scrambling to meet orders. Robotics fits well with this challenge, Leavitt says, not only because it increases productivity, but because it scales quickly by allowing an operation to bring in more mobile robots during a demand surgeand conversely, shipping robots back when the peak subsides.

The current spike in e-commerce has been pretty dramatic, Leavitt says. I think its going to settle back down eventually, but probably at a much high plateau than before. Thats going to create some lasting impacts for warehouse operations.

Tom Galluzzo, CEO of IAM Robotics, sees robotics as gaining in importance as corporate executives address growing challenges around e-commerce growth and operational continuity. People are still in crunch mode trying to get through this period of disruption, but once they get through and do their internal analysis of what to prioritize, we know that robotics and automation are going to be a high priority, he says.

While robots do reduce the labor requirement versus more manual methods of processing orders, vendors say people typically are part of the equation. Using the bots for materials movements frees up warehouse associates to do things like kitting, exception handling, packing quality checks, or simply spending more time on actual picking.

There also are larger AMRs that can be configured to bring pallets and larger loads from receiving to a bulk storage area, which eliminates time spent by skilled lift truck operators transporting pallets across a DC, with empty trips back to pick up more pallets.

Robotics frees up people to do the more nuanced, less repeatable tasks that makes use of the ingenuity which people have, but robots do not, says David Clear, chief revenue officer with AMR provider Vecna Robotics.

Galluzo agrees that AMRs arent turning DCs into lights-out, fully-automated operations. Typically, there are manual or semi-automated processes that link up with the robotics. For example, says Galluzo, in a new implementation this year, A.S. Watson, a major health and beauty retailer in Europe, will be using IAMs mobile manipulation bots to batch select goods into bins for conveyance to a downstream put wall process. Put walls use human workers who select goods for orders using light-directed visual cues.

Jason Walker, CEO and co-founder of AMR vendor Waypoint Robotics, agrees robots are great at eliminating human effort spent on low value-added tasks like walking long distances to pick locations, or pushing heavy carts. For example, in one recent deployment of Waypoints robots, the bots automate the movement of carts loaded with heavy goods needed to fill orders. The AMRs bring the goods to a picking area where workers using a voice picking solution pick the orders.

Walker believes that, for theforeseeable future, the value of mobile robots is in having easily configurable software that can combine automated robotic tasks with human work. Our whole thesis at Waypoint is that humans with robots are better than humans on their own, and robots with humans are better than robots on their own, Walker says. The people currently doing manual work recognize that the endless walking part of their job is not where they are adding value, and, its also exhausting.

Vendors generally agree that the key to robotics effectiveness is the software smarts that leverages technologies like AI and machine learning so that the system constantly learns from factors like order mix, labor resources and material flow patterns.

The software should also be easy to use, and not just for a vendor-provided specialist, but for workers and supervisors in a facility, says Walker. Most mobile robots are getting easy to set up from the perspective of an automation engineer, but they need to be easy enough for a shipping or receiving clerk, or an assembly line worker, to be able to quickly learn and use, he says. You shouldnt need a roboticist to come in to configure the system if you have a platform that was designed from the ground up to be used by those doing the frontline work.

There are other factors that contribute to ease of AMR deployment, adds Walker. One is that, if needed, the robots can function disconnected from a facilitys wireless network, so the site doesnt have to spend money and time having their information technology (IT) staff beef up the wireless network.

Robotics arms have been used successfully in manufacturing for decades, but traditionally they had to be trained to do one movement or to memorize how to handle a small set of materials.

But now, the advancement of artificial intelligence (AI) software, along with vision systems to read bar codes, is enabling robotic arms to take a more cognitive approach to handling the broad range of stock keeping units (SKUs) found in warehousing.

AI is now making it possible for robotic arms to handle the large SKU counts found in warehousing, says Kevin Reader, director of marketing and business development for KNAPP, a provider of intralogisticsautomation solutions.

At the 2020 Modex event, KNAPP announced a partnership with Covariant, an AI robotics technology vendor, to enhance KNAPPs piece picking robot solution. The solution already is in use at several customer sites, including at Obeta, a German electrical supply wholesaler.

Reader says that by employing AI, piece picking robots dont have to be trained on each item, and can improve over time on how to grasp items. Our solution is using an AI engine with deep learning to identify SKUs and adjust for how to best grip an item, says Reader. And, its learning so that the piece picking is enhanced every time items are handled.

AI allows for model-free, autonomous picking, says Vince Martinelli, head of product and marketing at RightHand Robotics, a provider of autonomous robotic picking solutions. Some of RighthHands deployments involve picking of tens of thousands of SKUs, says Martinelli.

With AI, a piece picking solution doesnt need to pre-learn 3D models for each SKU, or refer to database of dimensions, to figure out how to handle an item. This makes it possible for robotic picking to adapt rapidly to new SKUs, he adds.

Operations are going to experience rapid changes in their product mix, says Martinelli. Youre going to have new SKUs, new suppliers, and there will be changes in packaging, so the robotic piece picking has to be insensitive to changes and fluctuations like that.

Walker also advises potential users to ask about how the robotic charging stations work and how maintenance free they are. Additionally, he says, an AMR solution should be able to easily interface to software like a warehouse management system (WMS) using application programming interfaces (APIs), but also be capable of being quickly set up standalone.

The software platform for most robotics solutions also employs AI to constantly learn from operations and dynamically adapt to tasks and routes as the work unfolds. The most important part of a solution is the software, which is AI-based software that is real-time in nature, says Cashman. Robotics software, he adds, should be able to adjust tasks on the fly, based on factors like whats currently coming into the order pool, where each robot is, and the current performance level of the workers.

The software is really integrated into the robots so that when the system is thinking about orders or inventory or the particular people that are picking, or the available robots, its weighing these factors all at once, says Cashman. And its that ability to orchestrate all of these components in real timethats the difference with the robotics of today versus a generation ago.

Robotics vendors need to have robust software, not only for managing inventory and robot movements within a robotic zone, but for coordinating with upstream and downstream zones as well as reconciling exceptions with WMS, points out Markus Schmidt, president of Swisslog Americas, which offers a wide range of automation solutions, including AMRs and collaborative picking arm solutions.

For example, says Schmidt, a robotic picking arm can rapidly pick goods from bins presented to it from a system like an automated storage solution. While the API-based integration between the piece picking robot and automated storage can be quickly achieved, there are still exception-handling scenarios to iron out.

For instance, a robotic picking arm may need three items in a bin to fill an order, but if the bin presented only has two items, the robotic arm and its vision system need supporting software thats able to resolve such an exception by initiating a logical action, like requesting a new bin.

At a manual pick station, an operator can resolve that type of exception, says Schmidt, but robotics vendors need to have configurable software at the warehouse execution system (WES) level to automatically manage exceptions, or when desired, kick up an exception for management review. Most of the exception handling should be automatic, but it should be configurable via the software, says Schmidt.

Ultimately, says Schmidt, robotics and WES trends intertwine, especially when it comes to resolving exceptions. Theres been a lot of progress with the robot technology itself, but the real challenge is to make these machines productive in actual distribution environments, which is where the need for configurable exception handling comes in, he says.

The rapid uptake of AMRs also has drawn attention from software vendors who have in some cases partnered with AMR vendors to pre-integrate robotic platforms with their software, or come up with AMR options of their own.

According to Don White, CEO of North America for WMS vendor SnapFulfil, AMR use is beginning to become normalized, which puts the onus on vendors to make them easy to deploywhich was a driver for the vendor coming up with its SnapCart solution.

That intersection between operational needs and development of AMR solutions presented a great opportunity, says White. Taking advantage of that opportunity requires removing the most common barriers: seamless integration between the AMR and the WMS, and scalable, predictable and affordable solutions.

Robotics vendors have benefited from the wow factor of the technology, but ultimately have to deliver solutions that help DCs fulfill orders faster, more accurately and reliably.

Thus, vendors are not only focused on core technology like deeper use of AI, but on partnerships with other types of automation or software vendors to ensure that robotics can integrate with various systems in a DC, says Vince Martinelli, head of product and marketing at RightHand Robotics, a provider of autonomous robotic picking solutions.

Theres definitely a wow factor in working with robotics or in watching robotics demos, but if you want to make a business of it, youve got to be solving real problems for somebody, Martinelli says.

Another frontier for robotics is employing them in new workflows beyond picking of small items. Larger AMR units, for example, are being used to automate the flow of pallets of inbound goods from receiving docks to bulk storage, or to a replenishment zone for AMR mobile storage carts.

And others are using collaborative AMRs to guide workers on replenishing pick locations, says Leavitt. Locuss bots do this via task interleaving logic that guides workers on replenishment tasks interspersed with picking tasks.

The companies that have deployed robotics aggressively tend to be visionaries, but also pragmatic in that theyre after better and faster customer service, adds Leavitt. I think of them as pragmatic visionaries, says Leavitt. These are companies that are not afraid to say: How do I move the needle on performance in a way that is going to add value for mycustomers and for my business?

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Robotics Finds Its Place in Fulfillment - Logistics Management

As the coronavirus pandemic rewrites the rules of human interaction, it also has inspired new thinking about how robots and other machines might step in.

The stuff of the bot world early factory-line automation up to todays artificial intelligence has been a growing fact of life for decades. The worldwide health crisis has added urgency to the question of how to bring robotics into the public health equation.

Nowhere is that truer than in Japan, a country with a long fascination with robots, from android assistants to robot receptionists. Since the virus arrived, robots have offered their services as bartenders, security guards and deliverymen.

Sharing the full story, not just the headlines

But they dont necessarily need to supplant humans, researchers say. They can also bridge the gap between people mindful of social distance now or when the next major contagion hits.

Want to drop in on your elderly parents but are afraid of passing on a coronavirus infection? Maybe youre missing your grandchildren, and finding Zoom chats a little limiting?

Ideas are brewing.

Hugging the bot

The Newme robot developed by Japanese company Avatarin is basically a tablet computer on a stand, with wheels. The user controls the avatar from a laptop or tablet, and his or her face shows on the avatars screen.

Its really like teleporting your consciousness, says founder and CEO Akira Fukabori. You are really present.

Akira Fukabori demonstrates his company's Newmerobot avatar (The Washington Post/Simon Denyer)

Already available commercially, Avatarins robots have been used by doctors to interact with patients in a Japanese coronavirus ward; by university students in Tokyo to attend a graduation ceremony; and by fans of the Yomiuri Giants baseball team to remotely interview their favourite players after games held in empty stadiums.

There are even avatar robots that have just arrived at the International Space Station.

But its the way the robot is already being used by families separated by the coronavirus that really underscores the heart of the technology starting with the family of the companys chief operating officer, Kevin Kajitani, whose parents live in Seattle.

His parents cant always come and visit their grandson, Fukabori says. But they always access the avatar, and can even chase their grandson. And the grandson really hugs the robot.

No hype, just the advice and analysis you need

Avatarin is part of Japans ANA airline group, and the company has joined with the X Prize Foundation to launch a $10m (8m), four-year contest for companies to create more complex robots that could further develop the avatar concept.

You need to move, Fukabori says. This is really important, because we forget the freedom of this mobility. You can just walk around, and people will talk to you about really, really natural things. That creates human trust. That isnt as easy in Webex or Zoom, where if you dont know each other its really hard to keep talking.

Work is underway on prototypes that allow users to control a remote robot through virtual reality headsets and gloves that allow the wearer to pick up, hold, touch and feel an object with a distant robotic hand, with potential uses ranging from space exploration to disaster relief or elderly care.

But Fukabori says the cheaper, lightweight avatars offer more immediate and affordable uses. What sets this project apart from existing avatar robots, the company says, is the ability for users to access the robots easily from a laptop, by renting them out rather than having to buy them.

Avatarin hopes to install the avatars in more hospitals and in elderly-care centres, shops, museums, zoos and aquariums. The company also aims to have 1,000 in place for next years Tokyo Olympics.

Cleaning patrol

In Tokyo, robotics lab ZMP has been developing three small bots to help compensate for Japans shrinking workforce, employing the same technology as self-driving cars.

A delivery robot aims to transport goods ordered online from local warehouses to customers doors; a patrol robot, with six cameras, does the job of a security guard; a self-driving wheelchair can be programmed to take users to specific destinations. The wheelchair is already available and approved for use on Tokyo streets. The others still await official permission to venture out alone in public.

Now, the patrol robot has been adapted so it can also disinfect surfaces as it patrols, and is attracting interest from Tokyos Metro stations as well as other businesses.

In May, prime minister Shinzo Abe noted surging demand for unmanned deliveries and pledged to carry out tests to see if delivery robots were safe to use on roads and sidewalks by the end of the year.

Even the self-driving wheelchair can come into its own amid a coronavirus-filled world, the company says, potentially helping elderly people move around more independently without a helper who might be a vector for the virus.

A robotic bartender makes coffee and mixes drinks at the offices of Qbit Robotics in Tokyo (The Washington Post/Simon Denyer)

Before corona, most customers wanted to reduce workers, says Hisashi Taniguchi, ZMPs chief executive. But after corona, our customers changed drastically. Now, they want to accelerate unmanned systems.

Bot bartender

Qbit Robotics, also in Tokyo, has programmed a robotic arm and hand to interact with customers and serve them coffee, mix cocktails or even serve a simple cup of instant pasta.

President and chief executive Hiroya Nakano says he aims not to replace human interaction but to supply robots that can communicate and entertain in a friendly way.

While robots can sometimes seem disturbing and alien to westerners, they are seen in a more welcoming light by many Japanese people, Nakano says.

Until now, expectations have been high for what robots can do in the future, but they havent been able to do what humans do, he says. But now we are living with the coronavirus, the idea of no contact or automation has become especially important. And I feel there is an extremely high expectation for robots to meet that demand.

And one can dance, too

In South Korea, a Chinese-made robot is already greeting children in Seouls schools as they reopen.

The Cruzr, with eyes that beam a neon-blue light and a video screen on its chest, takes kids temperatures and reminds them to follow anti-virus rules.

Please wear your mask properly, the robot tells a student at Wooam Elementary School whose mask wasnt covering his nose.

Chinese robot maker UBTech launched Cruzr in 2017 as a humanoid service robot for businesses, but the pandemic has given it added value as a personal assistant free from infection risks.

It is also being used by medical institutions for mass temperature screening, patient monitoring and medical record-keeping, helping overwhelmed medical workers.

Three robots developed by ZMP are seen in the companys office lobby in Tokyo (The Washington Post/Simon Denyer)

In June, Seouls Seocho district government deployed Cruzr robots to the districts 51 public schools, helping reduce the burden on overworked teachers.

Before the robot came to school, teachers had taken kids temperatures as they arrived, creating long lines and raising infection risks from human contact. Now, the robot checks the temperature of multiple students as they walk by and immediately sounds an alarm if anyone has a fever.

At first, students were ill at ease with the robot greeting them at the school gate, but in a matter of weeks, students have embraced it as part of the school community, says Yoo Jung-ho, the head of Wooams science department.

At the school, students wave towards the robot at the gate as they walk into the school, and nod in agreement when it reminds them about the mask rules.

The robot can also provide basic academic help and entertain students by teaching them simple dance moves.

Of course, robots cant replace teachers at classrooms yet, but there is significant and rising potential for contactless teaching with the pandemic, Yoo says.

Nine-year-old Lee Hye-rin says she befriended the robot after they danced together.

When I first saw the robot standing in place of our teachers greeting us at the entrance, I found it cold and disorienting, she says. But this robot is actually the same height as I am and also displays goofy dance moves, and I realised I can befriend him and share a fun time.

But Lee feels the robot is not so friendly when it orders her to wear her mask properly.

If I fail to follow the mask rule, my teachers warning will be followed with a smile telling me to behave better in the future, but the robot doesnt smile when it warns me about the mask, she says.

The Washington Post

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'Like teleporting your consciousness': Could Japanese robots be the answer to loneliness while social distancing - The Independent

ReportsandMarkets has conducted an exhaustive study with the help of their skilled researchers have resulted into this detailed report on the global market for Mobile Robotics. The tenure of estimation, i.e. 2020-2026, have been considered while conducting the research. The worldwide Mobile Robotics markets growth rate has been calculated through percentage calculation and is identified through CAGR. The report is the result of an intricate approach adopted for data analysis, data collection, and data filtration, with the incorporation of both primary and secondary data collection methods. Primary data has been primarily collected by the means of original or first-hand research. For example, questionnaires, focus group discussions, and interviews. On the other hand, secondary data implies the informationwhich had been collected in the past by some other source. For example, company reports, researching the newspaper articles, government websites, and internet resources.

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Global Mobile Robotics market globally is led by notable players. These players, their profiles, and their business updates, have been covered in this section of the report.

GeckoSystems, Bossa Nova Robotics, Adept Technology, Honda, Harvest Automation, John Deere, AXYN ROBOTICS, KUKA, Barrett Technology, Aethon Inc., IRobot, Seegrid, Bluefin Robotics, Eca Group

The final report will add the analysis of the Impact of Covid-19 in this report Mobile Robotics industry.

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In this part of the report, the constraints and drivers of the worldwide Mobile Robotics market have been encompassed. Both the constraints and drivers take into account aspects such as technological, geographical, cultural, social, financial, environmental, legal, and political. These forces propel the Mobile Robotics markets development on a global basis and has vital role to play in the expansion and decline of the Mobile Robotics market. This section of the report concentrates on the factors that can trigger threats for the Mobile Robotics market. Different techniques and approaches have been incorporated in preparing the different sections of the report. The mostly used techniques and approaches constituted value net framework, face to face interviews, observations, SWOT analysis, focus group interview, questionnaires, and Porters five forces model.

Regional Analysis:-

The global Mobile Robotics market has been assessed in this segment of the report, on the basis of geography. Regional analysis outlines the profitable revenue pockets spanning across Latin America, the Middle East & Africa, Asia Pacific, Europe, North America, and the Rest of the World. The potential, trend, and performance, of the global Mobile Robotics market, in each of the identified regions, have been analyzed and studied in this section of the report.

Market segment by Type, the product can be split into

Market segment by Application, split into

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For the purpose of data collection, the report has applied both primary and secondary data collection approaches. The primary tools included observations, questionnaires, and focus interviews. The questionnaire has been structured with the incorporation of Likert scale. Likert scale is a nine, seven, or five-point agreement scale applied to measure the respondents answer against a range of options.

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TOC

1 Study Coverage1.1 Robotic Floor Cleaners Product Introduction1.2 Market Segments1.3 Key Robotic Floor Cleaners Manufacturers Covered: Ranking by Revenue1.4 Market by Type1.4.1 Global Robotic Floor Cleaners Market Size Growth Rate by Type1.4.2 Outdoor Robot1.4.3 In-House Robot1.5 Market by Application1.5.1 Global Robotic Floor Cleaners Market Size Growth Rate by Application1.5.2 Residential1.5.3 Commercial1.5.4 Industrial1.6 Study Objectives1.7 Years Considered 2 Executive Summary2.1 Global Robotic Floor Cleaners Market Size, Estimates and Forecasts2.1.1 Global Robotic Floor Cleaners Revenue 2015-20262.1.2 Global Robotic Floor Cleaners Sales 2015-20262.2 Global Robotic Floor Cleaners, Market Size by Producing Regions: 2015 VS 2020 VS 20262.2.1 Global Robotic Floor Cleaners Retrospective Market Scenario in Sales by Region: 2015-20202.2.2 Global Robotic Floor Cleaners Retrospective Market Scenario in Revenue by Region: 2015-2020 3 Global Robotic Floor Cleaners Competitor Landscape by Players3.1 Robotic Floor Cleaners Sales by Manufacturers3.1.1 Robotic Floor Cleaners Sales by Manufacturers (2015-2020)3.1.2 Robotic Floor Cleaners Sales Market Share by Manufacturers (2015-2020)3.2 Robotic Floor Cleaners Revenue by Manufacturers3.2.1 Robotic Floor Cleaners Revenue by Manufacturers (2015-2020)3.2.2 Robotic Floor Cleaners Revenue Share by Manufacturers (2015-2020)3.2.3 Global Robotic Floor Cleaners Market Concentration Ratio (CR5 and HHI) (2015-2020)3.2.4 Global Top 10 and Top 5 Companies by Robotic Floor Cleaners Revenue in 20193.2.5 Global Robotic Floor Cleaners Market Share by Company Type (Tier 1, Tier 2 and Tier 3)3.3 Robotic Floor Cleaners Price by Manufacturers3.4 Robotic Floor Cleaners Manufacturing Base Distribution, Product Types3.4.1 Robotic Floor Cleaners Manufacturers Manufacturing Base Distribution, Headquarters3.4.2 Manufacturers Robotic Floor Cleaners Product Type3.4.3 Date of International Manufacturers Enter into Robotic Floor Cleaners Market3.5 Manufacturers Mergers & Acquisitions, Expansion Plans 4 Market Size by Type (2015-2026)4.1 Global Robotic Floor Cleaners Market Size by Type (2015-2020)4.1.1 Global Robotic Floor Cleaners Sales by Type (2015-2020)4.1.2 Global Robotic Floor Cleaners Revenue by Type (2015-2020)4.1.3 Robotic Floor Cleaners Average Selling Price (ASP) by Type (2015-2026)4.2 Global Robotic Floor Cleaners Market Size Forecast by Type (2021-2026)4.2.1 Global Robotic Floor Cleaners Sales Forecast by Type (2021-2026)4.2.2 Global Robotic Floor Cleaners Revenue Forecast by Type (2021-2026)4.2.3 Robotic Floor Cleaners Average Selling Price (ASP) Forecast by Type (2021-2026)4.3 Global Robotic Floor Cleaners Market Share by Price Tier (2015-2020): Low-End, Mid-Range and High-End 5 Market Size by Application (2015-2026)5.1 Global Robotic Floor Cleaners Market Size by Application (2015-2020)5.1.1 Global Robotic Floor Cleaners Sales by Application (2015-2020)5.1.2 Global Robotic Floor Cleaners Revenue by Application (2015-2020)5.1.3 Robotic Floor Cleaners Price by Application (2015-2020)5.2 Robotic Floor Cleaners Market Size Forecast by Application (2021-2026)5.2.1 Global Robotic Floor Cleaners Sales Forecast by Application (2021-2026)5.2.2 Global Robotic Floor Cleaners Revenue Forecast by Application (2021-2026)5.2.3 Global Robotic Floor Cleaners Price Forecast by Application (2021-2026) 6 North America6.1 North America Robotic Floor Cleaners by Country6.1.1 North America Robotic Floor Cleaners Sales by Country6.1.2 North America Robotic Floor Cleaners Revenue by Country6.1.3 U.S.6.1.4 Canada6.2 North America Robotic Floor Cleaners Market Facts & Figures by Type6.3 North America Robotic Floor Cleaners Market Facts & Figures by Application 7 Europe7.1 Europe Robotic Floor Cleaners by Country7.1.1 Europe Robotic Floor Cleaners Sales by Country7.1.2 Europe Robotic Floor Cleaners Revenue by Country7.1.3 Germany7.1.4 France7.1.5 U.K.7.1.6 Italy7.1.7 Russia7.2 Europe Robotic Floor Cleaners Market Facts & Figures by Type7.3 Europe Robotic Floor Cleaners Market Facts & Figures by Application 8 Asia Pacific8.1 Asia Pacific Robotic Floor Cleaners by Region8.1.1 Asia Pacific Robotic Floor Cleaners Sales by Region8.1.2 Asia Pacific Robotic Floor Cleaners Revenue by Region8.1.3 China8.1.4 Japan8.1.5 South Korea8.1.6 India8.1.7 Australia8.1.8 Taiwan8.1.9 Indonesia8.1.10 Thailand8.1.11 Malaysia8.1.12 Philippines8.1.13 Vietnam8.2 Asia Pacific Robotic Floor Cleaners Market Facts & Figures by Type8.3 Asia Pacific Robotic Floor Cleaners Market Facts & Figures by Application 9 Latin America9.1 Latin America Robotic Floor Cleaners by Country9.1.1 Latin America Robotic Floor Cleaners Sales by Country9.1.2 Latin America Robotic Floor Cleaners Revenue by Country9.1.3 Mexico9.1.4 Brazil9.1.5 Argentina9.2 Central & South America Robotic Floor Cleaners Market Facts & Figures by Type9.3 Central & South America Robotic Floor Cleaners Market Facts & Figures by Application 10 Middle East and Africa10.1 Middle East and Africa Robotic Floor Cleaners by Country10.1.1 Middle East and Africa Robotic Floor Cleaners Sales by Country10.1.2 Middle East and Africa Robotic Floor Cleaners Revenue by Country10.1.3 Turkey10.1.4 Saudi Arabia10.1.5 U.A.E10.2 Middle East and Africa Robotic Floor Cleaners Market Facts & Figures by Type10.3 Middle East and Africa Robotic Floor Cleaners Market Facts & Figures by Application 11 Company Profiles11.1 iRobot Corporation11.1.1 iRobot Corporation Corporation Information11.1.2 iRobot Corporation Description and Business Overview11.1.3 iRobot Corporation Sales, Revenue and Gross Margin (2015-2020)11.1.4 iRobot Corporation Robotic Floor Cleaners Products Offered11.1.5 iRobot Corporation Related Developments11.2 Neato Robotics11.2.1 Neato Robotics Corporation Information11.2.2 Neato Robotics Description and Business Overview11.2.3 Neato Robotics Sales, Revenue and Gross Margin (2015-2020)11.2.4 Neato Robotics Robotic Floor Cleaners Products Offered11.2.5 Neato Robotics Related Developments11.3 Yujin Robot11.3.1 Yujin Robot Corporation Information11.3.2 Yujin Robot Description and Business Overview11.3.3 Yujin Robot Sales, Revenue and Gross Margin (2015-2020)11.3.4 Yujin Robot Robotic Floor Cleaners Products Offered11.3.5 Yujin Robot Related Developments11.4 Dyson11.4.1 Dyson Corporation Information11.4.2 Dyson Description and Business Overview11.4.3 Dyson Sales, Revenue and Gross Margin (2015-2020)11.4.4 Dyson Robotic Floor Cleaners Products Offered11.4.5 Dyson Related Developments11.5 Ecovacs Robotics11.5.1 Ecovacs Robotics Corporation Information11.5.2 Ecovacs Robotics Description and Business Overview11.5.3 Ecovacs Robotics Sales, Revenue and Gross Margin (2015-2020)11.5.4 Ecovacs Robotics Robotic Floor Cleaners Products Offered11.5.5 Ecovacs Robotics Related Developments11.6 Philips Electronics11.6.1 Philips Electronics Corporation Information11.6.2 Philips Electronics Description and Business Overview11.6.3 Philips Electronics Sales, Revenue and Gross Margin (2015-2020)11.6.4 Philips Electronics Robotic Floor Cleaners Products Offered11.6.5 Philips Electronics Related Developments11.7 Samsung Electronics11.7.1 Samsung Electronics Corporation Information11.7.2 Samsung Electronics Description and Business Overview11.7.3 Samsung Electronics Sales, Revenue and Gross Margin (2015-2020)11.7.4 Samsung Electronics Robotic Floor Cleaners Products Offered11.7.5 Samsung Electronics Related Developments11.8 Milagrow Business & Knowledge Solutions11.8.1 Milagrow Business & Knowledge Solutions Corporation Information11.8.2 Milagrow Business & Knowledge Solutions Description and Business Overview11.8.3 Milagrow Business & Knowledge Solutions Sales, Revenue and Gross Margin (2015-2020)11.8.4 Milagrow Business & Knowledge Solutions Robotic Floor Cleaners Products Offered11.8.5 Milagrow Business & Knowledge Solutions Related Developments11.1 iRobot Corporation11.1.1 iRobot Corporation Corporation Information11.1.2 iRobot Corporation Description and Business Overview11.1.3 iRobot Corporation Sales, Revenue and Gross Margin (2015-2020)11.1.4 iRobot Corporation Robotic Floor Cleaners Products Offered11.1.5 iRobot Corporation Related Developments 12 Future Forecast by Regions (Countries) (2021-2026)12.1 Robotic Floor Cleaners Market Estimates and Projections by Region12.1.1 Global Robotic Floor Cleaners Sales Forecast by Regions 2021-202612.1.2 Global Robotic Floor Cleaners Revenue Forecast by Regions 2021-202612.2 North America Robotic Floor Cleaners Market Size Forecast (2021-2026)12.2.1 North America: Robotic Floor Cleaners Sales Forecast (2021-2026)12.2.2 North America: Robotic Floor Cleaners Revenue Forecast (2021-2026)12.2.3 North America: Robotic Floor Cleaners Market Size Forecast by Country (2021-2026)12.3 Europe Robotic Floor Cleaners Market Size Forecast (2021-2026)12.3.1 Europe: Robotic Floor Cleaners Sales Forecast (2021-2026)12.3.2 Europe: Robotic Floor Cleaners Revenue Forecast (2021-2026)12.3.3 Europe: Robotic Floor Cleaners Market Size Forecast by Country (2021-2026)12.4 Asia Pacific Robotic Floor Cleaners Market Size Forecast (2021-2026)12.4.1 Asia Pacific: Robotic Floor Cleaners Sales Forecast (2021-2026)12.4.2 Asia Pacific: Robotic Floor Cleaners Revenue Forecast (2021-2026)12.4.3 Asia Pacific: Robotic Floor Cleaners Market Size Forecast by Region (2021-2026)12.5 Latin America Robotic Floor Cleaners Market Size Forecast (2021-2026)12.5.1 Latin America: Robotic Floor Cleaners Sales Forecast (2021-2026)12.5.2 Latin America: Robotic Floor Cleaners Revenue Forecast (2021-2026)12.5.3 Latin America: Robotic Floor Cleaners Market Size Forecast by Country (2021-2026)12.6 Middle East and Africa Robotic Floor Cleaners Market Size Forecast (2021-2026)12.6.1 Middle East and Africa: Robotic Floor Cleaners Sales Forecast (2021-2026)12.6.2 Middle East and Africa: Robotic Floor Cleaners Revenue Forecast (2021-2026)12.6.3 Middle East and Africa: Robotic Floor Cleaners Market Size Forecast by Country (2021-2026) 13 Market Opportunities, Challenges, Risks and Influences Factors Analysis13.1 Market Opportunities and Drivers13.2 Market Challenges13.3 Market Risks/Restraints13.4 Porters Five Forces Analysis13.5 Primary Interviews with Key Robotic Floor Cleaners Players (Opinion Leaders) 14 Value Chain and Sales Channels Analysis14.1 Value Chain Analysis14.2 Robotic Floor Cleaners Customers14.3 Sales Channels Analysis14.3.1 Sales Channels14.3.2 Distributors 15 Research Findings and Conclusion 16 Appendix16.1 Research Methodology16.1.1 Methodology/Research Approach16.1.2 Data Source16.2 Author Details16.3 Disclaimer

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The so-called six-foot economy named for the practice that keeps shoppers socially distant to prevent infection is here for the foreseeable future, and food retailers are working double-time to maintain business as usual during these highly unusual times.

The COVID-19 pandemic has added a significant layer of operational complexity to already existing industry-wide challenges. Expectations of cleanliness are at an all-time high among shoppers. With significant inventory turnover, its a struggle to keep shelves consistently stocked. Added to retails long-standing labor shortage, its no wonder this new reality is causing a growing number of grocers and other retailers to evaluate how automation and robots can bring greater efficiency, flexibility, and sanitation to their in-store operations.

Enter the latest wave of autonomous mobile robots (AMRs) intelligent machines that can safely navigate crowded public spaces while taking care of mission-critical tasks. From robotic floor scrubbers and vacuum sweepers to self-driving shelf scanners and in-store delivery tugs, AMRs can be deployed quickly and easily, require no costly or complicated infrastructure, and show too much value for grocers to ignore. Many top U.S. retailers, including Walmart, Kroger, and Giant Eagle, have already made the leap and are seeing huge dividends.

Every food retail business today should be assessing the value of robotics as a part of its retail operations. Why? Here are seven reasons:

As the world adjusts to the new normal, food retailers must prepare for the next normal. Investing in a long-term robotics strategy to bring greater efficiency, safety, accountability, and cost management to in-store operations is one of the first steps. While AMRs are not a panacea for all of the challenges grocers face, they do address the most critical ones: labor shortages, employee safety, consumer experience, and sanitation.

Chris Wright is vice president of sales at Brain Corp,a San Diego-based technology company specializing in the development of intelligent, autonomous navigation systems for everyday machines. Read More

Future of food retailing requires increased vigilance around food safety andsanitation to deliver a next-generation store experience

Recruitment, retention, training and diversity at the forefront

Shelf-scanning robots coming to 650 more U.S. stores by the end of the summer

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7 Reasons Grocers Should Invest in Robotics Right Now - Progressive Grocer

Pindar van Arman has developed a unique application for an ST robot for painting portraits using AI the system works the same way a human artist would- painting a part of the portrait - stepping back, comparing the painting with the subject then going back to add more or change something.

ST Robotics proudly announces that one of its robots has been integrated by artist and roboticist Pindar Van Arman to autonomously create expressive art.

Pindar is delving deep into artonomous' ability to create emotionally evocative portraits. Toward this goal, he and the robot have teamed up with portrait photographer Kitty Simpson in an interspecific collaboration. They plan to paint hundreds of faces using a creative feedback loop, while continually refining artonomous' creative process.

The ST R17 HS robot, mounted with a camera on its arm and a paint brush in its gripper, uses its array of more than two dozen artificial intelligence algorithms to paint sets of curated portraits. The finished paintings are then critiqued by the robot, Kitty, and Pindar. Based on the critique, Kitty adjusts how she takes the next set of portraits. artonomous then retrains its own neural networks to better understand faces, and Pindar modifies the robot's A.I. and hardware. This process is repeated as the body of work is formed.

Of his progress, Pindar Van Arman says, "I developed the ST robots into much more than simple assistants. My robots are now effectively augmenting my creativity, and even achieving their own form of creativity."

The trio's evolving work can be seen at https://artonomo.us where they have already completed the first 32 portraits. Kitty and Pindar project that hundreds and possibly thousands of portraits will be needed for artonomous to improve its creative process to learn the subtleties of fine portraiture.

About ST RoboticsST Robotics, widely known for robotics within reach', has offices in Princeton, New Jersey and Cambridge, England, as well as in Asia. One of the first manufacturers of bench-top robotic arms, ST Robotics has been providing the lowest-priced, easy-to-program boxed robots across industries for the past 30 years. ST's robots are utilized the world over by companies and institutions such as Lockheed-Martin, Motorola, Honeywell, MIT, NASA, HP, Sony, IBM and NXP. The numerous applications for ST's robots benefit the manufacturing, nuclear, pharmaceutical, laboratory and semiconductor industries.

For additional information on ST Robotics, contact:sales1@strobotics.com(609) 584 7522www.strobotics.com

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Artist Pindar Van Arman develops ST Robotics' collaborative robot into the world's most evocative painting robot - Robotics Tomorrow

During our Articulate food robotics summit last year, the common refrain from the restaurant operators in attendance was about the labor crunch. Restaurants couldn't find and retain enough workers, especially when potential hires would prefer to drive Ubers on their own schedule.

But that was then, and this is now. More specifically, this is now during a global pandemic and the conversation has shifted. With so many restaurants closed, and record amounts of unemployment, restaurants are less worried about hiring people, and more interested in how robots can create a more hygienic experience for diners (and workers).

This was one of the takeaways from our virtual fireside chat on The State of Restaurant Robotics yesterday. Linda Poulliot, CEO of Dischcraft Robotics, and Clatyon Wood, CEO of Picnic, were our guests, and they shared their insights about what their customers are looking for with automation right now.

At the moment, restaurants, cafeterias and other food service establishments are looking for safety and hygiene, something that robots can definitely help with in a few ways.

For example, Picnics pizza assembling robot can top 200 pizzas in an hour without human hands ever touching them. The stretched dough runs on a conveyor belt where robotic nodes dispense the proper amount of toppings consistently. Not only does this reduce the number of people touching food, it also helps in small kitchens where there isnt enough room for workers to socially distance.

For its part, Dishcraft offers dishes as a service to cafeterias, restaurants and more. Dirty dishes are picked up from a restaurant and brought to a Discrafts facility where the robot cleans and inspects them better and more environmentally friendly than a human can. The company recently branched out into offering reuseable containers so restaurants can cut down on all the packaging waste that comes with takeout and delivery.

These were just a couple of topics we touched on during our exclusive Spoon Plus event. Spoon Plus subscribers can check out the full video from the event below.

If youd like to see the full event video, future events and premium reports, interviews and exclusive research, become a member today!

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Restaurant Robots Used to Be About Labor, Now They're About Hygiene - The Spoon

HTF MIpublished a new industry research that focuses on Coatings and Application Technologies for Robotics market and delivers in-depth market analysis andfuture outlook of Global Coatings and Application Technologies for Robotics market. The study covers significant data which makes the research document a handy resource for managers, analysts, industry experts and other key people get ready-to-access and self-analyzed study along with graphs and tables to help understand market trends, drivers and market challenges. The study is segmented by Application/ end users [Healthcare, Agriculture, Mining, Manufacturing & Construction], products type [, Solvent Borne, Water Borne, UV Cure & Powder] and profiled players such as Akzo Nobel N.V., Axalta Coating Systems, PPG Industries, The Sherwin Williams Company, HMG Paints Limited, The Lubrizol Corporation, Yashm Paint & Resin Industries, U.S. Paint Corporation, Kansai Paint Co. Ltd., Bernardo Ecenarro SA, Nippon Paint Holdings Co., Ltd., Sheboygan Paint Company, Beckers Group, NOROO Paint & Coatings Co., Ltd., Reichhold LLC & Tikkurila].

Get Access to sample pages @https://www.htfmarketreport.com/sample-report/1496123-global-coatings-and-application-technologies-for-robotics-market-2

This report researches the worldwide Coatings and Application Technologies for Robotics market size (value, capacity, production and consumption) in key regions like United States, Europe, Asia Pacific (China, Japan) and other regions.This study categorizes the global Coatings and Application Technologies for Robotics breakdown data by manufacturers, region, type and application, also analyzes the market status, market share, growth rate, future trends, market drivers, opportunities and challenges, risks and entry barriers, sales channels, distributors and Porters Five Forces Analysis.

The research covers the currentmarket size of the Global Coatings and Application Technologies for Roboticsmarket and its growth rates based on 5 year history data along with company profile of key players/manufacturers. The in-depth information by segments of Coatings and Application Technologies for Robotics market helps monitor future profitability & to make critical decisions for growth. The information on trends and developments, focuses on markets and materials, capacities, technologies, CAPEX cycle and the changing structure of theGlobal Coatings and Application Technologies for RoboticsMarket.

For more information or any query mail at [emailprotected]

The study provides company profiling, product picture and specifications, sales, market share and contact information of key manufacturers of Global Coatings and Application Technologies for Robotics Market, some of them listed here areAkzo Nobel N.V., Axalta Coating Systems, PPG Industries, The Sherwin Williams Company, HMG Paints Limited, The Lubrizol Corporation, Yashm Paint & Resin Industries, U.S. Paint Corporation, Kansai Paint Co. Ltd., Bernardo Ecenarro SA, Nippon Paint Holdings Co., Ltd., Sheboygan Paint Company, Beckers Group, NOROO Paint & Coatings Co., Ltd., Reichhold LLC & Tikkurila. The market is growing at a very rapid pace and with rise in technological innovation, competition and M&A activities in the industry many local and regional vendors are offering specific application products for varied end-users. The new manufacturer entrants in the market are finding it hard to compete with the international vendors based on quality, reliability, and innovations in technology.

Global Coatings and Application Technologies for Robotics (Thousands Units) and Revenue (Million USD) Market Split by Product Type such as , Solvent Borne, Water Borne, UV Cure & Powder. Further the research study is segmented by Application such as Healthcare, Agriculture, Mining, Manufacturing & Construction with historical and projected market share and compounded annual growth rate.Geographically, this report is segmented into several key Regions, with production, consumption, revenue (million USD), and market share and growth rate of Coatings and Application Technologies for Robotics in these regions, from 2014 to 2025 (forecast), covering United States, Europe, China, Japan & Other Regions and its Share (%) and CAGR for the forecasted period 2019 to 2025.

Read Detailed Index of full Research Study at @https://www.htfmarketreport.com/reports/1496123-global-coatings-and-application-technologies-for-robotics-market-2

Following would be the Chapters to display the Global Coatings and Application Technologies for Robotics market.

Chapter 1, to describe Definition, Specifications and Classification of Coatings and Application Technologies for Robotics, Applications of Coatings and Application Technologies for Robotics, Market Segment by Regions;Chapter 2, to analyze the Manufacturing Cost Structure, Raw Material and Suppliers, Manufacturing Process, Industry Chain Structure;Chapter 3, to display the Technical Data and Manufacturing Plants Analysis of Coatings and Application Technologies for Robotics, Capacity and Commercial Production Date, Manufacturing Plants Distribution, R&D Status and Technology Source, Raw Materials Sources Analysis;Chapter 4, to show the Overall Market Analysis, Capacity Analysis (Company Segment), Sales Analysis (Company Segment), Sales Price Analysis (Company Segment);Chapter 5 and 6, to show the Regional Market Analysis that includes United States, Europe, China, Japan & Other Regions, Coatings and Application Technologies for Robotics Segment Market Analysis (by Type);Chapter 7 and 8, to analyze the Coatings and Application Technologies for Robotics Segment Market Analysis (by Application) Major Manufacturers Analysis of Coatings and Application Technologies for Robotics;Chapter 9, Market Trend Analysis, Regional Market Trend, Market Trend by Product Type [, Solvent Borne, Water Borne, UV Cure & Powder], Market Trend by Application [Healthcare, Agriculture, Mining, Manufacturing & Construction];Chapter 10, Regional Marketing Type Analysis, International Trade Type Analysis, Supply Chain Analysis;Chapter 11, to analyze the Consumers Analysis of Global Coatings and Application Technologies for Robotics;Chapter 12,13, 14 and 15, to describe Coatings and Application Technologies for Robotics sales channel, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source.

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What this Research Study Offers:

Global Coatings and Application Technologies for Robotics Market share assessments for the regional and country level segments Focus of the study is to analyse characteristics that affect the nature of competition and pricing. Identifying Influencing factors keeping Global Coatings and Application Technologies for Robotics Market Intense, factored with periodic analysis of CR4 & CR8 concentration ratio. In-depth Competitive analysis at product and Strategic business level. Predictive analysis on upcoming trends and changes in consumer behavior. To analyse the competitive developments, such as new product launch and merger & acquisition, in the Global Coatings and Application Technologies for RoboticsMarket

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Reasons for Buying this ReportThis report provides pin-point analysis for changing competitive dynamicsIt provides a forward looking perspective on different factors driving or restraining market growthIt provides a six-year forecast assessed on the basis of how the market is predicted to growIt helps in understanding the key product segments and their futureIt provides pin point analysis of changing competition dynamics and keeps you ahead of competitorsIt helps in making informed business decisions by having complete insights of market and by making in-depth analysis of market segments

Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Europe or Asia.

About Author:HTF Market Report is a wholly owned brand of HTF market Intelligence Consulting Private Limited. HTF Market Report global research and market intelligence consulting organization is uniquely positioned to not only identify growth opportunities but to also empower and inspire you to create visionary growth strategies for futures, enabled by our extraordinary depth and breadth of thought leadership, research, tools, events and experience that assist you for making goals into a reality. Our understanding of the interplay between industry convergence, Mega Trends, technologies and market trends provides our clients with new business models and expansion opportunities. We are focused on identifying the Accurate Forecast in every industry we cover so our clients can reap the benefits of being early market entrants and can accomplish their Goals & Objectives.

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Coatings and Application Technologies for Robotics Market Next Big Thing | Major Giants Akzo Nobel, Axalta Coating Systems, Bernardo Ecenarro - Cole...

With the latest ROS 2 Foxy Fitzroy release, ADLINK, Rover Robotics, Box Robotics and an entire community of contributors helped move industrial robotics development forward.

*Eclipse Cyclone DDS, an Eclipse Foundation IoT community project that ADLINK, Rover Robotics, Box Robotics, OpenADx and others have poured heavy engineering hours into is now a Tier 1 ROS 2 middleware

*Foxy Fitzroy is a major milestone toward a wider adoption of Cyclone DDS in robotics, autonomous vehicles and mobility markets, as well other mission-critical IoT systems making development faster, safer and more interoperable

ADLINK Technology Inc., a global leader in edge computing with a mission to affect positive change in society and industry by connecting people, places and things with AI, has lead Eclipse Cyclone DDS to become a tier one ROS 2 middleware with the Eclipse Foundation IoT community, OpenADx Working Group and ROS 2 Technical Steering Committee. With the latest ROS 2 release, Foxy Fitzroy (foxy), robotics and autonomous vehicle development is now easier, faster, more secure and reliable.

Eclipse Cyclone DDS is the next generation implementation of the Object Management Group's (OMG) Data Distribution Service (DDS) standard that leverages ADLINK's experience working and innovating DDS from its early days. ADLINK is working with the community to establish the DDS of reference in terms of features, usability, performance and reliability within robotics, autonomous vehicles, healthcare, aerospace and defense, and Industrial IoT.

"Box Robotics is rebuilding the AGV perception stack with human-like spatial awareness for higher speed driving, uncompromising safety and lifelong autonomy," said Tom Panzarella, co-founder and CEO, Box Robotics. "We are building our software on top of the latest advances in long-range 3D digital LiDAR. Processing this data in real-time on high-speed vehicles requires a robust foundation to build upon. This is why we have chosen ROS 2 Foxy Fitzroy and Eclipse Cyclone DDS as our middleware platform. The LTS of ROS 2 foxy and the highly tunable DDS implementation allows us to write the lowest latency point cloud processing pipelines in support of our application requirements."

Foxy is the first ever three-year long term support (LTS) version of ROS and includes significant performance and stability enhancements with Eclipse Cyclone DDS as a tier 1 underlying data sharing backbone of its RMW (ROS Middleware) layer. Eclipse Cyclone DDS offers a platform for sharing data consistently and coherently with a keen focus on system success metrics including performance, robustness, security, safety and interoperability.

"ROS 2 foxy is a major milestone toward establishing the reference platform for a large class of robotics and autonomous vehicles applications," said Angelo Corsaro PhD, CTO, ADLINK Technology. "We are strongly committed to supporting the ROS 2 community and ecosystem with an outstanding open source DDS implementation."

Hosted and supported by the Eclipse Foundation, Eclipse Cyclone DDS is now the fastest growing open source implementation of the OMG DDS standard. ADLINK offers professional services, industrial-grade versions to support DDS development and deployment. To get started with Eclipse Cyclone DDS visit GitHub.

About ADLINK TechnologyADLINK Technology Inc. is a global leader in edge computing. Our mission is to affect positive change in society and industry by connecting people, places and things with AI. The company offerings include robust boards, real-time data acquisition solutions and application enablement for AIoT. ADLINK serves vertical markets including manufacturing, communications, healthcare, aerospace, defense, energy, infotainment and transportation. ADLINK is a Premier Member of the Intel Internet of Things Solutions Alliance, a partner of NVIDIA, and a contributor to standards initiatives such as Eclipse, OCP, OMG and ROS2 TSC. ADLINK is ISO-9001, ISO-14001, ISO-13485 and TL9000 certified and is publicly traded on TAIEX (Stock Code: 6166). Learn more at http://www.adlinktech.com.

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Advancing the Future of Robotics and IoT Systems: Eclipse Cyclone DDS now a Tier 1 ROS Middleware - Robotics Tomorrow

Global Surgical Robotics Market analysis 2015-2027, is a research report that has been compiled by studying and understanding all the factors that impact the market in a positive as well as negative manner. Some of the prime factors taken into consideration are: various rudiments driving the market, future opportunities, restraints, regional analysis, various types & applications, Covid-19 impact analysis and key market players of the Surgical Robotics market. nicolas.shaw@cognitivemarketresearch.com or call us on +1-312-376-8303.

Download Report from: https://cognitivemarketresearch.com/medical-devicesconsumables/surgical-robotics-market-report

Global Surgical Robotics Market: Product analysis: Laparoscopy, Orthopedics, Others

Global Surgical Robotics Market: Application analysis: Open Surgery, Minimal Invasive

Major Market Players with an in-depth analysis: Intuitive Surgical, Stryker, Mazor Robotics, Medtech S.A, THINK Surgical, Restoration Robotics, Medrobotics, TransEnterix

The research is presented in such a way that it consists of all the graphical representations, pie charts and various other diagrammatic representations of all the factors that are used for the research. Surgical Robotics market research report also provides information on how the industry is anticipated to provide a highly competitive analysis globally, revenues generated by the industry and increased competitiveness and expansions among various market players/companies.

Get A Free Sample of Surgical Robotics Market Report: https://cognitivemarketresearch.com/medical-devicesconsumables/surgical-robotics-market-report#download_report

The Surgical Robotics industry is projected in assembling information regarding dynamic approximations and also listings of a profitable progression rate annually in the expected duration according to a recent & latest study. The latest Coronavirus pandemic impact along with graphical presentations and recovery analysis is included in the Surgical Robotics research report. The research report also consists of all the latest innovations, technologies and systems implemented in the Surgical Robotics industries.

Various factors with all the necessary limitations, expenditure/cost figures, consumer behaviour, supply chain, government policies and all the information related to the market have been included in the Surgical Robotics Market report. The research report also provides light on various companies & their competitors, market size & share, revenue, forecast analysis and all the information regarding the Surgical Robotics Market.

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Global Surgical Robotics Market Report 2020 Pandemic Situation to Boost Growth Top companies Intuitive Surgical, Stryker, Mazor Robotics, Medtech S.A,...

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Scientists at the University of Liverpool have unveiled a robotic colleague that has been working non-stop in their lab throughout lockdown.

The 100,000 programmable researcher learns from its results to refine its experiments.

"It can work autonomously, so I can run experiments from home," explained Benjamin Burger, one of the developers.

Such technology could make scientific discovery "a thousand times faster", scientists say.

A new report by the Royal Society of Chemistry lays out a "post-Covid national research strategy", using robotics, artificial intelligence and advanced computing as part of a suite of technologies that "must be urgently embraced" to help socially distancing scientists continue their search for solutions to global challenges.

As its developers describe in a paper in the journal Nature, the robotic scientist is currently embarking on a series of tests to find a catalyst that could speed up the reaction that takes place inside solar cells.

But it could, according to Prof Andy Cooper, the materials scientist who has put the robot to work in his lab, be used in the fight against Covid-19.

"We've had a lot of interest [in the robot] from labs that are doing Covid research," he told BBC News.

"Covid, climate change - there are lots of problems that really need international co-operation. So our vision is we might have robots like this all across the world connected by a centralised brain which can be anywhere. We haven't done that yet - this is the first example - but that's absolutely what we'd like to do."

Today, in a world where scientists also need to limit their time in the lab and maintain social distance from each other, the robo-scientist has come into its own.

"It doesn't get bored, doesn't get tired, works around the clock and doesn't need holidays," Dr Burger joked.

On a more serious note, he said that the robot had transformed the speed at which he could carry out research. "It can easily go through thousands of samples," he said, "so it frees up my time to focus on innovation and new solutions."

Like robotics designed for research in Space, machines like this could also take on riskier experiments - in harsher laboratory environments or using more toxic substances.

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That, according to Deirdre Black, head of research and innovation at the Royal Society of Chemistry, is why UK science needs to build new technologies into its infrastructure.

"This is about human beings harnessing all of these digital technologies, so that they can go faster - discover and innovate faster and explore bigger and more complex problems, like decarbonisation, preventing and treating disease, and making our air cleaner," she told BBC News.

So does this mean that while many scientists have been in lockdown, the machines have come to take their jobs?

"Absolutely not," said Dr Black. "Science will always need people".

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Robotic scientists will 'speed up discovery' - BBC News

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Segment by Type, the Surgical Robotics market is segmented intoLaparoscopyOrthopedicsOthers

Segment by Application, the Surgical Robotics market is segmented intoOpen SurgeryMinimal Invasive

Regional and Country-level AnalysisThe Surgical Robotics market is analysed and market size information is provided by regions (countries).The key regions covered in the Surgical Robotics market report are North America, Europe, China and Japan. It also covers key regions (countries), viz, the U.S., Canada, Germany, France, U.K., Italy, Russia, China, Japan, South Korea, India, Australia, Taiwan, Indonesia, Thailand, Malaysia, Philippines, Vietnam, Mexico, Brazil, Turkey, Saudi Arabia, UAE, etc.The report includes country-wise and region-wise market size for the period 2015-2026. It also includes market size and forecast by Type, and by Application segment in terms of production capacity, price and revenue for the period 2015-2026.Competitive Landscape and Surgical Robotics Market Share Analysis

Surgical Robotics market competitive landscape provides details and data information by manufacturers. The report offers comprehensive analysis and accurate statistics on production capacity, price, revenue of Surgical Robotics by the player for the period 2015-2020. It also offers detailed analysis supported by reliable statistics on production, revenue (global and regional level) by players for the period 2015-2020. Details included are company description, major business, company total revenue, and the production capacity, price, revenue generated in Surgical Robotics business, the date to enter into the Surgical Robotics market, Surgical Robotics product introduction, recent developments, etc.The major vendors covered:Intuitive SurgicalStrykerMazor RoboticsMedtech S.ATHINK SurgicalRestoration RoboticsMedrobotics

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Global Surgical Robotics Market 2019 Produced CAGR Value in Demand By 2033 - 3rd Watch News

TOKYO -As the coronavirus pandemic rewrites the rules of human interaction, it also has inspired new thinking about how robots and other machines might step in.

The stuff of the bot world early factory-line automation up to todays artificial intelligence has been a growing fact of life for decades. The worldwide health crisis has added urgency to the question of how to bring robotics into the public-health equation.

Nowhere is that truer than in Japan, a country with a long fascination with robots, from android assistants to robot receptionists. Since the virus arrived, robots have offered their services as bartenders, security guards and deliverymen.

But they dont necessarily need to supplant humans, researchers say. They can also bridge the gap between people mindful of social distance now or when the next major contagion hits.

Want to drop in on your elderly parents but are afraid of passing on a coronavirus infection? Maybe youre missing your grandchildren, and finding Zoom chats a little limiting?

Ideas are brewing.

The newme robot developed by Japanese company Avatarin is basically a tablet computer on a stand, with wheels. The user controls the avatar from a laptop or tablet, and his or her face shows on the avatars screen.

Its really like teleporting your consciousness, founder and CEO Akira Fukabori said. You are really present.

Already available commercially, Avatarins robots have been used by doctors to interact with patients in a Japanese coronavirus ward; by university students in Tokyo to attend a graduation ceremony; and by fans of the Yomiuri Giants baseball team to remotely interview their favorite players after games held in empty stadiums.

There are even avatar robots that have just arrived in the International Space Station.

But its the way the robot is already being used by families separated by the coronavirus that really underscores the heart of the technology starting with the family of the companys chief operating officer, Kevin Kajitani, whose parents live in Seattle.

His parents cant always come and visit their grandson, Fukabori said. But they always access the avatar and can even chase their grandson. And the grandson really hugs the robot.

Avatarin is part of Japans ANA airline group, and the company has joined with the X Prize Foundation to launch a $10 million, four-year contest for companies to create more complex robots that could further develop the avatar concept.

You need to move, Fukabori said. This is really important, because we forget the freedom of this mobility. You can just walk around, and people will talk to you about really, really natural things. That creates human trust. That isnt as easy in WebEx or Zoom, where if you dont know each other its really hard to keep talking.

Work is underway on prototypes that allow users to control a remote robot through virtual-reality headsets and gloves that allow the wearer to pick up, hold, touch and feel an object with a distant robotic hand, with potential uses ranging from space exploration to disaster relief or elderly care.

But Fukabori said the cheaper, lightweight avatars offer more immediate and affordable uses. What sets this project apart from existing avatar robots, the company says, is the ability for users to access the robots easily from a laptop, by renting them out rather than having to buy them.

Avatarin hopes to install the avatars in more hospitals and in elderly-care centers, shops, museums, zoos and aquariums. The company also aims to have 1,000 in place for next years Tokyo Olympics.

In Tokyo, robotics lab ZMP has been developing three small robots to help compensate for Japans shrinking labor force, employing the same technology as self-driving cars.

A delivery robot aims to transport goods ordered online from local warehouses to customers doors; a patrol robot, with six cameras, does the job of a security guard; a self-driving wheelchair can be programed to take users to specific destinations. The wheelchair is already available and approved for use on Tokyo streets. The others still await official permission to venture out alone in public.

Now, the patrol robot has been adapted so it can also disinfect surfaces as it patrols, and is attracting interest from Tokyos Metro stations as well as other businesses.

In May, Prime Minister Shinzo Abe noted surging demand for unmanned deliveries and pledged to carry out tests to see if delivery robots were safe to use on roads and sidewalks by the end of the year.

Even the self-driving wheelchair can come into its own amid a coronavirus-filled world, the company said, potentially helping elderly people move around more independently without a helper who might be a vector for the virus.

Before corona, most customers wanted to reduce workers, ZMPs chief executive, Hisashi Taniguchi, said. But after corona, our customers changed drastically. Now, they want to accelerate unmanned systems.

Qbit Robotics, also in Tokyo, has programmed a robotic arm and hand to interact with customers and serve them coffee, mix cocktails or even serve a simple cup of instant pasta.

President and chief executive Hiroya Nakano said he aims not to replace human interaction but to supply robots that can communicate and entertain in a friendly way.

While robots can sometimes seem disturbing and alien to Westerners, they tend to be seen in a more welcoming light by many Japanese people, Nakano said.

Until now, expectations have been high for what robots can do in the future, but they havent been able to do what humans do, he said. But now we are living with the coronavirus, the idea of no contact or automation has become especially important. And I feel there is an extremely high expectation for robots to meet that demand.

In South Korea, a Chinese-made robot is already greeting children in Seouls schools as they reopen.

The Cruzr, with eyes that beam a neon-blue light and a video screen on its chest, takes kids temperatures and reminds them to follow anti-virus rules.

Please wear your mask properly, the robot told a student last week at Wooam Elementary School whose mask wasnt covering his nose.

Chinese robotmaker UBTech launched Cruzr in 2017 as a humanoid service robot for businesses, but the pandemic has given it added value as a personal assistant free from infection risks.

It is also being used by medical institutions for mass temperature screening, patient monitoring and medical record keeping, helping overwhelmed medical workers.

In June, Seouls Seocho district government deployed Cruzr robots to the districts 51 public schools, helping reduce the burden on overworked teachers.

Before the robot came to school, teachers had taken kids temperatures as they arrived, creating long lines and raising infection risks from human contact. Now, the robot checks the temperature of multiple students as they walk by and immediately sounds an alarm if anyone has a fever.

At first, students were ill at ease with the robot greeting them at the school gate, but in a matter of weeks, students have embraced it as part of the school community, said Yoo Jung-ho, head of Wooams science department.

At the school, students waved toward the robot at the gate as they walked into the school, and nodded in agreement when it reminded them about the mask rules.

The robot can also provide basic academic help and entertain students by teaching them simple dance moves.

Of course, robots cant replace teachers at classrooms yet, but there is significant and rising potential for contactless teaching with the pandemic, Yoo said.

Nine-year-old Lee Hye-rin says she befriended the robot after they danced together.

When I first saw the robot standing in place of our teachers greeting us at the entrance, I found it cold and disorienting, Lee said. But this robot is actually the same height as I am and also displays goofy dance moves, and I realized I can befriend him and share a fun time.

But Lee feels the robot is not so friendly when it orders her to wear her mask properly.

If I fail to follow the mask rule, my teachers warning will be followed with a smile telling me to behave better in the future, but the robot doesnt smile when it warns me about the mask, she said.

Continued here:

In a time of social distancing, robots could be just what the doctor ordered - Seattle Times