Ionic Mechatronics in Sudbury is infusing an old copper-refining technology with new life, increasing safety and efficiency in the process.

Later this month, the firm will roll out an automated copper starter sheet machine that uses robotics in the transfer of all copper material, which the company says is the first of its kind in the world.

Copper starter sheet machines arent new. Built in the 1980s and 1990s, the technology has been used in the purification of copper for decades. But past iterations have relied on a combination of labour and hydraulics to get the job done.

The old machines werent robotic. They were a lot of linear transfers, or a lot more hydraulic systems, explained Ryan Catton, Ionics business development manager.

The ones weve been able to develop now are really removing the people from doing the dangerous work.

Copper starter sheet machines use a sheet of copperdipped in a chemical bath to start the process of electrolysis, which purifies the metal.

When the operation is complete, the resulting copper sheets are removed and the process is repeated.

Over the years, as companies started to migrate their systems over to newer technology, copper starter sheet machines fell somewhat out of favour, Catton said.

But the machines were so well built, they last for decades before needing to be replaced, and so many companies still use them.

The company that used to do them got bought out by another company, so there are not very many people that do these, Catton said.

A new starter sheet machine hasnt really been built in years, because these are such rugged and robust machines.

But now, as the equipmentstarts to show its age, Catton said many companies believe the only option is to completely overhaul their existing setup.

Ionics solution allows them to either retrofit existing machinery or build something completely new.

We looked at the need and we've come up with a totally new design for the same process, but using robotics and, really, just putting copper sheets on one side and you're getting your finished product out the other side.

It helps make the job safer by removing employees from that part of the operation, reducing their exposure to toxic substances and gases, while also lowering the risk of musculoskeletal injuries, he added.

The addition of robotics also increases an operation'sefficiency andreduces downtime.

After a year in development, the first of these new machines will be ready to be sent to a customer in Arizona, at the heart of the U.S. copper belt, by mid-August.

Ionic has also received interest in the technology from a company in Poland, along with distributors in South Africa and India.

Were also looking at a similar application for a different metal for a starter sheet machine, Catton said. Were going to be able to take the same technology and apply it not only to copper, but to other metals.

This flurry of activity comes as Ionic embarks on an in-house construction project to double the size of its 12,000-square-foot shop in the Sudbury bedroom community of Lively, which will give staff more room to work.

As COVID-19 makes its way around the globe, many operations have stalled, but Catton said Ionic has remained busy over the last several months.

Many larger projects have been shelved as companies trim their capital budgets, but a steady stream of smaller jobs has kept staff working and the shop humming.

Theyre not these million-dollar machines, but being able to do these smaller automation studies or small automation projects has definitely helped out and have kept us busy throughout, Catton said. Its been good.

With pandemic uncertainty continuing, Catton anticipates more companies will look to automation in keeping with social distancing protocols to keep people safe and production running.

We can look at automation and then we can look at how to repurpose the individuals and put them into some tasks where we don't feel like they would be at any risk of any kind of pandemic or disease, or COVID, or whatever it is at that point.

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First-of-its-kind machine brings robotics to copper refining - Sudbury.com

What are the best robotics and artificial intelligence stocks to buy today? In this time of uncertainty characterized by volatile market movements, economic contraction, and spiraling unemployment, finding stocks to put your money into seems like an arduous task. Some investors might think that the stock market is acting irrationally and puzzled by the quick recovery of stock prices sin the end of March. The market's movements isn't far away from economic realities. Economic reality is that long-term real interest rates are negative, the Federal Reserve is flooding the market with cheap credit, and the current economic slowdown is temporary.

This is the perfect environment to buy technology stocks which aren't negatively affected by the coronavirus induced lockdowns and economic slowdown. In this article we are going to take a look at the top 5 robotics and artificial intelligence stocks to buy. We are on the cusp of a technological revolution that will fundamentally change how we live our lives. Recent advancements in machine learning and artificial intelligence will open the door to robots, driving cars, and many other inventions that we can't even imagine today. So, we decided to take a look at the best robotics and AI stocks to buy in order to generate high returns as the companies bring new products in to the marketplace.

robotics and AI stocks

In order to compile this list of best robotics and AI stocks to buy we started with top 15 stocks in the Global X Robotics & Artificial Intelligence ETF (BOTZ). According to its website this ETF "seeks to invest in companies that potentially stand to benefit from increased adoption and utilization of robotics and artificial intelligence (AI), including those involved with industrial robotics and automation, non-industrial robots, and autonomous vehicles".

Savvy investors have used hedge funds as a litmus test to gauge the profitability of stocks and to know the trajectory of market sentiment. Research carried out by Insider Monkey has shown that a select group of hedge fund holdings have consistently outperformed the S&P 500 ETFs by more than 56 percentage points since March 2017 (see the details here). As such, hedge fund sentiments are undoubtedly a useful indicator that experienced investors should pay attention to.

Based on hedge funds sentiment, we present 5 most popular robotics and AI stocks among the 800+ hedge funds tracked by Insider Monkey.

5. John Bean Technologies Corporation (NYSE:JBT)

John Bean Technologies Corporation (NYSE:JBT) provides technology solutions to the food and beverage industry, including equipment and services to air transportation industries. The company has a market capitalization of $2.995bn. This stock has underperformed by -18.4%. In 2020, Q1 John Bean Technologies Corporation (NYSE:JBT) released quarterly earnings of $1.09 per share. This compares to earnings of $1.42 per share a year ago

The company is poised to gain from focus on developing innovative products and services and expanding the aftermarket business on the effects of the pandemic are over. The management also aims to continue its Elevate Plan aiming to drive persistent growth and margin expansion and strategic acquisition programs. Growing demand for protein, beverages and ready-to-eat meals are likely to act as key catalysts in the long haul.

John Bean Technologies Corporation (NYSE:JBT) is in the portfolio of 12 hedge funds. Royce Associates has the biggest position in JBT in our database. Adage Capital and Citadel are also invested in this stock but they have been trimming their holdings more recently.

4. Brooks Automation, Inc. (NASDAQ:BRKS)

Story continues

Brooks Automation, Inc. (NASDAQ:BRKS) has a market capitalization of $3.49bn. This year, the company's share price has increased by 10.84%. In 2020,

Brooks Automation is in the portfolio of 18 hedge funds. Billionaire Ken Fisher, Chuck Royce, and Paul Marshall And Ian Wace are among the top hedge fund backers of BRKS.

3. iRobot Corporation (NASDAQ:IRBT)

iRobot Corporation (NASDAQ:IRBT) is a robotics company with a market capitalization of $2.052bn. Its share price has increased by 51.3% this year. iRobot Corporation (NASDAQ: IRBT) maintained its earnings streak in the second quarter of 2020, reporting earnings of $1.06 per share.

It is no surprise that the company is in the portfolio of 19 hedge funds. Quant hedge fund Two Sigma has the biggest equity position in IRBT in our database.

2. Intuitive Surgical, Inc. (NASDAQ:ISRG)

Intuitive Surgical, Inc. (NASDAQ:ISRG) is known for its da Vinci surgical systems in the United States and internationally. The company has a market capitalization of $80.443B. This yeas alone, shares of Intuitive Surgical, Inc. (NASDAQ:ISRG) have increased by 15%.

Even though the company reported adjusted earnings per share (EPS) of $1.11, for the second quarter, its earnings collapsed 65.8% year over year.

Fifty hedge funds had bullish positions in Intuitive Surgical, Inc. (NASDAQ:ISRG) at the end of the first quarter. The largest stake in Intuitive Surgical, Inc. (NASDAQ: ISRG) is held by Fisher Asset Management, which reported holding $350.1 million worth of stock at the end of September. It was followed by GQG Partners with a $137.2 million position. Other investors bullish on the company included Citadel Investment Group, Adage Capital Management, and OrbiMed Advisors. In terms of the portfolio weights assigned to each position, Unio Capital allocated the biggest weight to Intuitive Surgical, Inc. (NASDAQ: ISRG), around 3.45% of its 13F portfolio. Rock Springs Capital Management is also relatively bullish on the stock, designating 3.12 percent of its 13F equity portfolio to ISRG.

1. NVIDIA Corporation (NASDAQ:NVDA)

NVIDIA Corporation (NASDAQ:NVDA) is a gaming and crypto company. We discussed NVDA in detail in this article. The company has a market capitalization of $261.104bn. NVIDIA has been one of the best performers in the U.S. stock market over the last few years. The stock was changing hands for $30 at the beginning of 2016 and currently trades at $440, representing a more than thirteen-fold jump. The company recently surpassed Intel (NASDAQ:INTC) to become the largest U.S. semiconductor maker.

Based on this performance, it is no surprise that the stock is in the portfolio of 95 hedge funds. Fisher Asset Management and GQG Partners held the largest equity positions in NVDA in our database at the end of March.

Disclosure: None. This article is originally published at Insider Monkey.

Excerpt from:

Top 5 Robotics and Artificial Intelligence Stocks To Buy According to Hedge Funds - Yahoo Finance

In this report, the global Industrial Robotics in Heavy Industries market is valued at USD XX million in 2019 and is projected to reach USD XX million by the end of 2025, growing at a CAGR of XX% during the period 2019 to 2025.

For top companies in United States, European Union and China, this report investigates and analyzes the production, value, price, market share and growth rate for the top manufacturers, key data from 2019 to 2025.

The Industrial Robotics in Heavy Industries market report firstly introduced the basics: definitions, classifications, applications and market overview; product specifications; manufacturing processes; cost structures, raw materials and so on. Then it analyzed the worlds main region market conditions, including the product price, profit, capacity, production, supply, demand and market growth rate and forecast etc. In the end, the Industrial Robotics in Heavy Industries market report introduced new project SWOT analysis, investment feasibility analysis, and investment return analysis.

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Segment by Type, the Industrial Robotics in Heavy Industries market is segmented intoMaterial handling robotsAssembly line robotsIndustrial welding robots

Segment by Application, the Industrial Robotics in Heavy Industries market is segmented intoMetalworking machineryConstruction machineryOther heavy machinery

Regional and Country-level AnalysisThe Industrial Robotics in Heavy Industries market is analysed and market size information is provided by regions (countries).The key regions covered in the Industrial Robotics in Heavy Industries 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, U.A.E, 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 Industrial Robotics in Heavy Industries Market Share Analysis

Industrial Robotics in Heavy Industries market competitive landscape provides details and data information by manufacturers. The report offers comprehensive analysis and accurate statistics on production capacity, price, revenue of Industrial Robotics in Heavy Industries 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 Industrial Robotics in Heavy Industries business, the date to enter into the Industrial Robotics in Heavy Industries market, Industrial Robotics in Heavy Industries product introduction, recent developments, etc.The major vendors covered:ABBKawasaki Heavy IndustriesYaskawa ElectricFanuc CorporationKukaMitsubishi ElectricDensoNachi-FujikoshiComauUniversal RobotsCMA Robotics

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The study objectives of Industrial Robotics in Heavy Industries Market Report are:

To analyze and research the Industrial Robotics in Heavy Industries market status and future forecast in United States, European Union and China, involving sales, value (revenue), growth rate (CAGR), market share, historical and forecast.

To present the Industrial Robotics in Heavy Industries manufacturers, presenting the sales, revenue, market share, and recent development for key players.

To split the breakdown data by regions, type, companies and applications

To analyze the global and key regions Industrial Robotics in Heavy Industries market potential and advantage, opportunity and challenge, restraints and risks.

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Industrial Robotics in Heavy Industries Market to Flourish with an Impressive Cagr During 2019-2026 - My Amazon Echo

We take a look at five start-ups developing IoT and robotics solutions to contribute to smart cities and improve connectivity.

Over the last few weeks, we have looked at some of the start-ups recognised as Technology Pioneers by the World Economic Forum (WEF) in 2020, includingblockchain businesses, healthcare innovators, leaders in AI and cybersecurity start-ups.

This week, the focus is on the robotics and IoT industries. We take a look at five companies highlighted by the WEF that are developing tech solutions from smart rings to an IoT intellectual property marketplace.

Founded in 2013 by Thomas Leurent, Phuong Huynh and David Knezevic, Akselos focuses on creating digital twin technology to help the worlds critical infrastructure with next-generation simulation tech.

The Swiss company is headquartered in Lausanne and has operations in the US, Italy, the UK, the Netherlands and Vietnam. Its flagship product, Digital Guardian, aims to revolutionise the management of large, complex assets by offering real-time condition-based monitoring and predictive analytics.

According to Akselos, its Digital Guardian is based on a newly developed algorithm that is up to 1,000 times faster than legacy technology changing the process of structural assessment to allow for real-time, continuous monitoring of large assets.

The start-ups goal is to accelerate the transition from fossil fuels to renewable energy and it believes that extreme engineering, along with real-time digital twins, can help accelerate this transition and make clean energy more affordable and accessible. Investors in the company include Innogy Ventures and Forticap.

Based in Dallas, Texas, Avanci is led by CEO and founder Kasim Alfalahi. The start-up has built an IoT marketplace that licenses intellectual property from a variety of patent holders in a single transaction.

The start-up promises predictable pricing to ensure that companies pay a fair licence rate for their IoT products, with prices based on the value the wireless technology brings to a product, rather than the sales price of the product.

The start-up aims to help companies contributing essential patents to get a fair return, and help companies using the technologies to obtain licenses at a fair price to accelerate the adoption of IoT and 5G connectivity.

Licensors in the Avanci marketplace include Asus, BT, Fujitsu, Hewlett Packard Enterprise, Nokia, Orange, Panasonic and Sony. Among the licensees using the platform are Audi, Bentley, BMW Group, Rolls-Royce and Volkswagen.

The goal of Oura Ringis to help people understand their own health information through a wearable device. The company was founded in 2013 in Finland by Kari Kivela, Markku Koskela and Petteri Lahtela, and is now led by CEO Harpreet Rai.

Its wearable ring device tracks all stages of the wearers sleep and activity to provide daily feedback and practical steps that are personalised with the aim of inspiring healthy lifestyles.

The tech is powered by infrared LEDs, NTC temperature sensors, an accelerometer and a gyroscope. The devices battery can last for seven days and can be fully charged within an hour.

Investors in the company, which received the Red Dot award for product design in 2018, include Googles Gradient Ventures, Forerunner Ventures, Bold Capital Partners, MSD Capital and Lifeline Ventures.

Israeli start-up Seebo has developed a predictive yield solution to help manufacturers predict the quality of products and prevent waste losses. The firm was founded by Lior Akavia and Liran Akavia in 2012.

The companys AI technology aims to look at the root causes of inefficiencies to provide an analysis of why they are occurring, while providing predictive recommendations on how to prevent process inefficiencies.

According to the start-up, its insights and recommendations can automatically adapt to changes in the manufacturing process and it can be scaled across multiple lines and multiple plants.

The IoT technology has been used by companies such as Nestl, Mondelez, PepsiCo, Lindt, koda and Danone. Some of Seebos investors include Ofek Venture Fund, TPY Capital, Viola Ventures and Autodesk.

Leb by CEO Wuyang Zhao, Chinese firm Sensoro is an IoT technology services provider that has partnered with Sony, Microsoft, Bosch, Nokia and more. The start-up has developed an end-to-end IoT product line consisting of chips, sensors, communication modules, communication base stations and cloud platforms to provide low-cost IoT solutions.

Sensoro says that its technology contributes to the creation of smart cities, while connecting the physical and digital worlds. The company has more than 100 employees, with around 70pc of those working in R&D.

The company was an early developer of Bluetooth low-energy smart sensors and transmission technology, and claims to have developed one of the worlds smallest dual-channel low-power wide-area network chips.

Some of Sensoros offerings are focused on helping customers and businesses reduce their carbon footprints and ensuring less energy is consumed, while other products aim to prevent fires.

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5 start-ups that are pioneering IoT and robotics technology - Siliconrepublic.com

The Global Military Robots and Unmanned Vehicles Market research report 2015-2025 provides detailed information about the industry based on the revenue (USD MN) and Volume (Units) for the forecast period 2020-2025. The Research Report provides the updated business information and industry future trends, that allow you to spot the products and end users driving Revenue growth and profit. Furthermore, the Military Robots and Unmanned Vehicles market report quantifies the market share held by the significant players of the industry and gives an in-depth view of the competitive landscape. This market is classified into different segments with a comprehensive analysis of each with respect to geography for the research period 2015-2020.

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For instance, a mixture of primary and secondary research has been used to define Military Robots and Unmanned Vehicles market estimates and forecasts. Sources used for secondary research contain (but not limited to) Paid Data Sources, Technology Journals of 2015-2020, SEC Filings Company Websites, Annual Reports, and various other Military Robots and Unmanned Vehicles industry publications. Specific details on the methodology used for Military Robots and Unmanned Vehicles market report can be provided on demand.

In addition, It highlights the ability to increase possibilities in the coming years by 2025, also reviewing the marketplace drivers, constraints and restraints, growth signs, challenges, market dynamics. Global Military Robots and Unmanned Vehicles Market gives a region-wise analysis like growth aspects, and revenue, Past, present and future forecast trends, Analysis of emerging market sectors and development opportunities in Military Robots and Unmanned Vehicles will forecast the market growth.

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Global Military Robots and Unmanned Vehicles Market 2020 Industry Analysis by Boston Dynamics, ECA Robotics, G-NIUS, ICOR Technology, IRobot, Kairos...

LONDON--(BUSINESS WIRE)--Technavio has been monitoring the educational robots market and it is poised to grow by 590.82 thousand units during 2020-2024, progressing at a CAGR of almost 28% during the forecast period. The report offers an up-to-date analysis regarding the current market scenario, latest trends and drivers, and the overall market environment.

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

Frequently Asked Questions-

The market is fragmented, and the degree of fragmentation will accelerate during the forecast period. BLUE FROG ROBOTICS & BUDDY, fischerwerke GmbH & Co. KG, Innovation First International Inc., LEGO System AS, Makeblock, Modular Robotics Incorporated, PAL Robotics, Pitsco Inc., ROBOTIS Co. Ltd., and SoftBank Group Corp. are some of the major market participants. The decline in the price of educational robots will offer immense growth opportunities. To make the most of the opportunities, market vendors should focus more on the growth prospects in fast-growing segments, while maintaining their position in the slow-growing segments.

Educational Robots Market 2020-2024: Segmentation

Educational Robots Market is segmented as below:

To learn more about the global trends impacting the future of market research, download a free sample: https://www.technavio.com/talk-to-us?report=IRTNTR40898

Educational Robots Market 2020-2024: Scope

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

This study identifies emergence of startups in global educational robot market as one of the prime reasons driving the educational robots market growth during the next few years.

Educational Robots Market 2020-2024: Vendor Analysis

We provide a detailed analysis of vendors operating in the educational robots market, including some of the vendors such as BLUE FROG ROBOTICS & BUDDY, fischerwerke GmbH & Co. KG, Innovation First International Inc., LEGO System AS, Makeblock, Modular Robotics Incorporated, PAL Robotics, Pitsco Inc., ROBOTIS Co. Ltd., and SoftBank Group Corp. Backed with competitive intelligence and benchmarking, our research reports on the educational robots market are designed to provide entry support, customer profile and M&As as well as go-to-market strategy support.

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Educational Robots Market 2020-2024: Key Highlights

Table of Contents:

Executive Summary

Market Landscape

Market Sizing

Five Forces Analysis

Market Segmentation by Product by Volume

Customer landscape

Geographic Landscape

Drivers, Challenges, and Trends

Vendor Landscape

Vendor Analysis

Appendix

About Us

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

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COVID-19 Impacts: Educational Robots Market Will Accelerate at a CAGR of Almost 28% through 2020-2024 | Decline in the Price of Educational Robots to...

At this point in time, most countries and defense industries that manufacture unmanned military systems are still on track to deliver them to their respective militaries. For example, in April 2020, US military was testing out a new tactical UAV that would replace an older, mass-produced drone. On May 8, in the midst of global pandemic quarantines, Russian defense-industrial establishment tested a breakthrough deep-water unmanned underwater vehicle (UUV), with possible transfer of this vehicle to the Russian Ministry of Defense. Another example of business as usual is Russias Rostec Corporations deal to manufacture tilt-rotor UAVs for the Artic. In other worlds, the industry pace is staying on course.

Should there be another COVID-like wave that could potentially limit the movement and deployment of military forces, the need for the "eyes, ears and sensors" would be even more acute. Since the military unmanned systems are becoming a key part of the C4ISR structures (command, control, communications, computers, intelligence, surveillance and reconnaissance), a force that could be limited in basic operations would rely on technology that could overcome such a limitation. This is where numerous unmanned systems are most useful. In armed forces with more advanced unmanned weapons development, that means greater pace of utilization of this capability for operating well beyond the horizon - from a few to a few hundred miles. Should human aircraft pilots, artillery complements or naval units be grounded due to health concerns, the unmanned systems could potentially step in their place to deliver key information or strike the adversary, while allowing the operators to work from remote and safe locations.

Moreover, todays military sometimes borrows from the civilian technologies and lessons learned in order to hone its own operations and TTPS. As the COVID-19 spread around the world, the frequency of discussions about using unmanned systems in place of humans in different industries has accelerated. For example, aerial drones and unmanned ground vehicles were used to monitor populations, deliver products and disinfect physical objects. For the law enforcement, security and interior ministry-type organizations, the UAVs in particular offered a cheap and capable solution for population oversight. Many nations may choose to incorporate the use of such unmanned systems in their daily CONOPS, as the threat of repeat pandemics is discussed. For the military, using unmanned systems for logistics and support was already a rapidly growing development area even before COVID-19 hit. There is no indication today that the development, testing and use of such technology would slow down in a post-COVID world, since the use of robotics safeguards human lives on the battlefield, and frees up human assets for other missions.

For the United States, one of the main leaders in unmanned military technology research, development, testing and evaluation, post-COVID budgetary pressures may require the government to identify cost-informed means to conduct its national security activities more affordably, as the severity of the crisis required the government to spend trillions to mitigate its financial impact and protect the economy. For Washington, engaging in the global competition during the pandemic requires maintaining deterrence that may be achieved more economically through indirect and asymmetric military means. Such requirements are not unique to the US alone, and invoke the need for cheaper technological solutions that can achieve potentially the same results as using more expensive alternate platforms. As an example, todays combat UAVs are slowly closing the capability gaps with manned aircraft, and are utilized across the world in place of, or as complementary units to manned aviation.

Todays unmanned/remotely controlled military systems are slowly maturing into more sophisticated designs that are starting to perform more independent tasks, in non-military and actual combat environments. The ongoing and future pandemics are unlikely to reverse this trend. Most importantly, conflict around the world - intra-state, cross-border, and even potentially inter-state - is unlikely to stop even in the midst of a severe pandemic. These conflicts are not hitting a pause button due to medical reasons, which in turn assures the constant need for new and improved weapons that can augment existing human capabilities. This is where military robotics come in, as more and more nations and their armed forces build on current experience with using and building machines to further their goals.

Read more here:

Robots in Action: How a Pandemic Affects the Future Face of the Armed Forces - Valdai Discussion Club

NMSU News Release by Cassie McClure

When new technology meets ancient and revered culinary traditions, even classic handmade foods can be improved upon and made more efficiently.

Minerva Robotics, with the help of New Mexico State Universitys Arrowhead Center, aims to use computer learning and fresh ingredients to bring gourmet tortillas to homes and businesses in the United States and Mexico.

Minerva has shown an impressive skill set to launch a startup, developing a prototype, connect with local resources, and fundraising, said Carlos Murguia, director of Arrowhead Centers Foster Innovation Exchange (FIX) program. In July, Arrowhead Centers FIX signed an agreement with Minerva Robotics to continue their journey.

Minerva will be creating the first-of-its-kind tortilla subscription service. Customers will be able to subscribe and receive freshly made tortillas delivered to their homes or businesses. With robotics, Minerva wants to tailor the use of raw materials, like New Mexico heirloom corn, to each customers specifications instead of the typically used, highly processed flours commonly used.

Minervas smart tortilla machine, the NixMix, will take high-quality corn in order to replicate the handmade process of tortilla production. It gets its name from nixtamalization, the process by which corn kernels are cooked in an alkaline solution, changing the corns chemical structure. It is a critical step that gives tortillas its flavor and texture.

Unfortunately, its a labor- and time-intensive method taking up to nine hours from milling the corn to the hot tortilla on the table. While there are machines pumping out regular store-bought tortillas, the heavily processed ingredients are not like what is made at a home a flavor and consistency that the NixMix tortilla matches.

Whats in use now are outdated machines, unchanged technology from 50 years ago with a lot of inefficiency, said J.R. Rosillo, CEO of Minerva Robotics, who has been launching startups for the past 3 years. We want to cater to a growing Hispanic market in the U.S. Its the largest minority, approximately 18 percent of the U.S. population. We have an initial target of 50,000 Mexican restaurants in the U.S. and over 80,000 tortilla shops in Mexico with our product.

Rosillo, along with Chief Marketing Officer Renata Salcedo, Chief Technology Officer Marco Moreno and Country Director Fernando Nuez, will merge their resources with those of Arrowhead Center to make the move into the Mexican and United States markets.

Arrowhead is able to offer a soft landing for Minerva to launch the startup in New Mexico and take full advantage of our network of advisors who can guide the way, said Kathryn Hansen, director of Arrowhead Center. Minerva already has had the support of NMSU faculty to discuss different types of New Mexico-grown corn that would be a selling point for not only the product, but also valuable for our states economic development abroad.

Minerva Robotics looks to hire students and recent graduates of NMSU and become advisers for those interested in engaging the Mexican market with the benefits of the home base in New Mexico.

New Mexico is a fertile territory where community, agricultural diversity, and collaboration will create a scenario of innovation and progress, said Rosillo. Salcedo added, For us, we want to share, through technology, our traditional tortilla-making methods with the world.

For more information about Minerva Robotics, visit:www.minervarobotics.com. To learn more about Arrowhead Centers FIX program, visithttps://arrowheadcenter.nmsu.edu/program/fix/.

Original post:

NMSU's Arrowhead Center signs agreement with Minerva Robotics to bring gourmet tortillas to the masses - Las Cruces Bulletin

According to Stratistics MRC, the Global Soft Robotics Market is accounted for $308.05 million in 2017 and is expected to reach $5,776.59 million by 2026 growing at a CAGR of 38.5% during the forecast period. Some of the key factors influencing the market growth include increasing usage of medical and health care industry and the need for human safety in manufacturing units. However, the high cost of installation is restricting market growth.

Soft Robotics is the exact subfield of robotics commerce with constructing robots from extremely acquiescent equipment, similar to those established in alive organisms. It draws heavily from the way in which living organisms move and adapt to their surroundings. Indifference to robots built from rigid equipment, soft robots allow for increased suppleness and adaptability for accomplishing tasks, as well as improved safety when working around humans.

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Among Robot Type, Wearables (Exoskeletons) segment is expected to grow at the significant market share during the forecast period. The exoskeletons have been commercialized and the market diffusion is comparatively better compared to the soft grippers and soft co-robots. This is due to the concentrated research in the medical devices sector owing to the need for human assistance.

By Geography, Asia Pacific was the leading market and is expected to grow at the considerable market share during the forecast period due to increasing demand for latest technology and equipment such as the use of treatment robots, including exoskeletons, in private and public hospitals are expected to impact the market growth.

Some of the key players profiled in the Soft Robotics Market include ABB, Bionik Laboratories, Cyberdyne, Ekso Bionics Holdings, Empire Robotics, FANUC America Corporation, KUKA AG, Otherlab Orthotics, Pneubotics, Inc., ReWalk Robotics, RightHand Robotics, Inc., Soft Robotics Inc, SynTouch LLC, and Yaskawa Electric.

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Robot Types Covered: Co-Robots Inflated Robots Soft Grippers Wearables (Exoskeletons)

Applications Covered: Human Motor Assistance R&D of Humanoids

End Users Covered: Automotive Food and Beverages Logistics Medical and Healthcare Other End Users

Regions Covered: North Americao USo Canadao Mexico Europeo Germanyo UKo Italyo Franceo Spaino Rest of Europe Asia Pacifico Japano Chinao Indiao Australiao New Zealando South Koreao Rest of Asia Pacific South Americao Argentinao Brazilo Chileo Rest of South America Middle East & Africao Saudi Arabiao UAEo Qataro South Africao Rest of Middle East & Africa

What our report offers: Market share assessments for the regional and country level segments Market share analysis of the top industry players Strategic recommendations for the new entrants Market forecasts for a minimum of 9 years of all the mentioned segments, sub-segments, and the regional markets Market Trends (Drivers, Constraints, Opportunities, Threats, Challenges, Investment Opportunities, and recommendations) Strategic recommendations in key business segments based on the market estimations Competitive landscaping mapping the key common trends Company profiling with detailed strategies, financials, and recent developments Supply chain trends mapping the latest technological advancements

Free Customization Offerings:All the customers of this report will be entitled to receive one of the following free customization options: Company Profilingo Comprehensive profiling of additional market players (up to 3)o SWOT Analysis of key players (up to 3) Regional Segmentationo Market estimations, Forecasts and CAGR of any prominent country as per the clients interest (Note: Depends on feasibility check) Competitive Benchmarkingo Benchmarking of key players based on product portfolio, geographical presence, and strategic alliances

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Soft Robotics Market to Witness a Healthy YoY Growth during 2017-2026 - Kentucky Journal 24

From recreational robots such as drones, to critical operational robots in the medical field, robotic technology is changing our daily lives. Here Stewart Goulding, managing director at precision drive system supplier Electro Mechanical Systems Ltd, explores some current trends in the industry.

Robots are everywhere from robotic wearables, hands, and arms, to companion robots, medical devices, and even biomorphic drones that model the behaviour of bees. Main developments in the industry include cobots, drones and medical robots.

Cobots in the workplace

Since arriving on the scene in the mid-2010s cobots, or collaborative robots, have taken the market by storm. Cobots offer a variety of opportunities for production lines, particularly to enable humans and robots to complement each other, all while working alongside one another safely. The new trend for these styles of robots is making them more accessible, with more cost-effective options now allowing for greater distribution and use.

However, this is not the only way in which robots are collaborating with workers on the production line. Exoskeletons are mechanical devices that assist workers with uniform movements, support workers when lifting heavy objects, as well as providing a portable seat, helping to prevent strain on the workers body.

These applications are both improving the strength of production lines while reducing the strain on human workers and as cobots, exoskeletons and future forms become commonplace, the benefits they will grant workers, production process and businesses will become even more apparent.

In fact, cobots can reduce the human input on production by up to 50 per cent. With the current skills gap having cost UK organisations billions, being able to integrate cobots and other robotic applications, has the potential to positively impact the economy.

Medical robots

In recent years, a significant focus has been placed on revolutionising non-invasive and minimally invasive surgery. As a result, a deluge of new surgical robots have become market-ready. For example, the i-Snake and Micro-IGES are both delicate robotic alternatives to traditional surgery.

Due to more accurate diagnosis methods, the amount of non-invasive and minimally invasive surgeries has skyrocketed. This is putting an increasing strain, both physically and organisationally, on surgeons that carry out these procedures. Robot alternatives, therefore, offer an advantage to the public health service.

As such, these robots must be as accurate and reliable as possible to ensure that they can help ease the strain on the medical system. For example, endoscopy, which is a minimally invasive surgery that allows doctors to inspect the inside of a patient, is one procedure that robots have been developed to support.

Endoscopy robots must be compact and consistently precise. For this reason, when French company EndoControl was developing its new endoscopy ViKY system, it chose a range of FAULHABER brushless DC-motors, which help to achieve the required precision and consistency.

With a complimentary gearhead fitted these motors have a broad selection of reduction ratios available ranging from approximately 3:1 to 1500:1, which gives extensive adjustment of the speed and torque of the device. In the ViKY systems up to 700 mNm of precise movement was achieved using FAULHABER drive systems.

These types of developments are crucial in ensuring medical facilities can cope with the rising number of surgeries, all while reducing fatigue, preserving surgeon wellbeing and avoiding burn out.

Robotics in agriculture

Its no wonder that more agricultural robotic applications are emerging, including biomorphic drones that model the behaviour of bees. Robots and drones could have a big effect on the effectiveness of farming. From drones that monitor and analyse crops, to automated tractors that can seed, fertilise and harvest, agricultural robot developments all mean that human labour can often now be devoted to more complex tasks.

These applications require precise actuation in order to raise the efficacy of the systems. Drone cameras need smooth tilt and panning motion to ensure that accurate and usable images are taken to help. FAULHABER ironless rotor DC motors are widely used in moving camera applications, including defence reconnaissance and movie or television filming, as they allow for accurate cogging free movements to capture vital information.

Therefore, cameras for agricultural drones and other agricultural monitoring systems is a natural extension for this style of motor. Though drones may be considered recreational toys, their ability to autonomously cover and observe large areas of land in small amounts of time, all while consuming less fuel, is immensely beneficial to reducing operational costs.

In fact, some rural farms in China are starting to use heavy-duty industrial drones to water crops in hard to reach areas. The method is proving to be more fuel-efficient than transporting workers and the computer-controlled sprayers waste fewer resources.

So, whether it's across production lines, in surgical theatres or across vast agricultural fields, robotic applications are helping to provide innovative and reliable methods of working for all involved.

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Trends in robotics: Cobots, agribots and medical robots - Robotics Tomorrow

The Coatings and Application Technologies for Robotics Market is an intrinsic study of the current status of this business vertical and encompasses a brief synopsis about its segmentation. The report is inclusive of a nearly accurate prediction of the market scenario over the forecast period market size with respect to valuation as sales volume. The study lends focus to the top magnates comprising the competitive landscape of Coatings and Application Technologies for Robotics market, as well as the geographical areas where the industry extends its horizons, in magnanimous detail.

The market report, titled Coatings and Application Technologies for Robotics Market Research Report 2019 By Manufacturers, Product Type, Applications, Region and Forecast to 2017 2027, recently added to the market research repository of details in-depth past and present analytical and statistical data about the global Coatings and Application Technologies for Robotics market. The report describes the Coatings and Application Technologies for Robotics market in detail in terms of the economic and regulatory factors that are currently shaping the markets growth trajectory, the regional segmentation of the global Coatings and Application Technologies for Robotics market, and an analysis of the markets downstream and upstream value and supply chains.

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In accordance with a competitive prospect, this Coatings and Application Technologies for Robotics report dispenses a broad array of features essential for measuring the current Coatings and Application Technologies for Robotics market performance along with technological advancements, business abstract, strengths and weaknesses of market position and hurdles crossed by the leading Coatings and Application Technologies for Robotics market players to gain leading position. Other aspects such as customer base, sales reach, local coverage, production price trends, and production cost layout are also analyzed to bestow accurate rivalry perspective.

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The Coatings and Application Technologies for Robotics market report covers extensive analysis of the market scope, structure, potential, fluctuations, and financial impacts. The report also enfolds the precise evaluation of market size, share, product & sales volume, revenue, and growth rate. It also includes authentic and trustworthy estimations considering these terms.

The Coatings and Application Technologies for Robotics market has been reporting substantial growth rates with considerable CAGR for the last couple of decades. According to the report, the market is expected to grow more vigorously during the forecast period and it can also influence the global economic structure with a higher revenue share. The market also holds the potential to impact its peers and parent market as the growth rate of the market is being accelerated by increasing disposable incomes, growing product demand, changing consumption technologies, innovative products, and raw material affluence.

The study objectives are Coatings and Application Technologies for Robotics Market Report:

In this study, the years considered to estimate the market size of Coatings and Application Technologies for Robotics Market:

History Year: 2014 2018

Base Year: 2018

Estimated Year: 2019

Forecast Year:2017 2027

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This report includes the estimation of market size for value (million USD) and volume (K Units). Both top-down and bottom-up approaches have been used to estimate and validate the market size of Coatings and Application Technologies for Robotics market, to estimate the size of various other dependent submarkets in the overall market. Key players in the market have been identified through secondary research, and their market shares have been determined through primary and secondary research. All percentage shares, splits, and breakdowns have been determined using secondary sources and verified primary sources.

For the data information by region, company, type and application, 2018 is considered as the base year. Whenever data information was unavailable for the base year, the prior year has been considered.

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COVID-19 Impact On Coatings and Application Technologies for Robotics Market to Garner Brimming Revenues by 2017 2027 - eRealty Express

Greenfield Robotics is on a mission to help farmers grow food with fewer chemicals. Rather than using the traditional method of applying herbicides and tilling the ground to control weeds, Greenfield uses a fleet of lightweight robots to take on the task.

I spoke with Clint Brauer, the CEO of Greenfield Robotics, by phone this week, and he said that the main purpose of Greenfields robots is to mow down aggressive broadleaf weeds, specifically the fast-growing pigweed. Greenfields robots currently operate in soybean fields, and the next crop will be milo (grain sorghum).

The robots from Greenfield Robotics weigh only 140lbs, and look like thin, upright vacuums. The perk of creating a small robot is that it is able to go out even in muddy conditions to mow weeds. Brauer said that even after fields received 3 inches of rain, Greenfields robots are able to go out and do their job, while a spray rig would easily get stuck in the mud.

These petite robots are also intelligent, and have the ability to sense depth and crop rows. They essentially function as miniature lawn mowers, eliminating weeds as they travel up and down crop rows. As Greenfield Robotics continues to grow, their goal is to use a fleet of 10 robots to knock out 100 acres in one day.

Greenfield Robotics is not the only company embracing robots as a solution to using fewer chemicals in agriculture. Farmwise builds self-driving robots equipped with computer vision and AI to identify and eliminate weeds. In the UK, the Small Robot Company uses a multi robot approach to map, identify and use electricity to zap weeds.

Greenfield Robotics has raised $885,000 in capital so far, and is currently raising an angel round. The company has signed up 10 farms in the U.S. to use its robots during the 2020 growing season.

Related

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Greenfield Robotics Uses Robots to Tackle Weeds - The Spoon

The tough job of healthcare workers has been monumentally more challenging with the coronavirus outbreak. Hospitals and medical institutions have faced the reality of a global health crisis alongside staff shortages, shortages of personal protective equipment, and the need for more frequent cleaning routines.

These demands have led some to explore the advantages of robotics, as a solution to reducing the burden on healthcare workers and facilities, and to reduce the risk of transmission.In the thick of the pandemic, robots and drones have been seen delivering foodand medicine, transportingmedical freight between facilities. There have also been multiple cases of hospitals, and other businesses, employingmicrobe-killing, floor cleaning robots that are able to patrol rooms and corridors performing deep cleans of surfaces with concentrated UV light.

But besides taking advantage of the fact that robots do not sneeze or cough, and drastically minimize physical contact between humans, robots might bear huge potential in social care as well.

In the UK, scientists at Heriot-Watt University have programmed robots, including Pepper (the worlds first humanoid), to address the issue of a surge in loneliness. The Scottish university aims to incorporate robots in social care as a potential solution to reach out to vulnerable groups affected by the social distancing measures that have resulted in decreased visits and restricted activities.

We are specifically interested in understanding the needs of the most vulnerable at this time and what technology could be used to make their lives better, Mauro Dragone, the projects lead scientist,toldAFP.

The experiment, named Ambient Assisted Living, saw robots such as Pepper perform basic household tasks. The project will see robots assisting care workers with stretched hours of work and responsibilities by taking over simple household chores. Meanwhile, in the US, researchers from Ohio State Universitys College of Nursing and Vanderbilt University received a US$3.13 million grant to develop socially-assistive robots aimed to promote social interaction among older adults. The humanoid and animal-like robots will be trialed next summer.

Its humans thats you want to have as your companion, Dr. Lorraine Mion, OSU College of Nursing facultysaid. The robot can be a great assistive technology to the nursing homes and the assisted living areas that can then be used to facilitate older adults to engage with one another.

In this sense, the number of robots enlisted in social care is likely to rise. For countries like Japan with anaging populationthat is straining its economy, care workers are in demand. Similarly, inthe US, the demand for caregivers is predicted to surge due to the shortage of people working in the sector and the slowing natural population growth in the US.

Robots are inherently designed to automate repetitive tasks with close to near-perfection or at least free from humanerror, but recently, artificial intelligence (AI) and machine learning (ML) has played a role in developing a new generation of more humane and sensitive robots, suited for social care.

The use of AI in providing companionship, or emotional engagement or analysis, has been explored for some time. IBM has used AI tools to monitor players emotions at Wimbledon to automatically create highlights packages for fans, while chatbots have been deployed as digital ears for users to discuss sensitive issues, such as bullying or depression, for some time.

Based on data and algorithms, AI may be limited in emotional aptitude, but it is certainly capable of serving as an emotional strut or prompt in certain scenarios.

Social care is one notable example of where these companion robots can make a difference. But the same approach has been adopted in other areas; in space exploration, robotics could prove crucial in exploring how machines can support humans practically and emotionally.

The Crew Interactive Mobile Companion 2 (CIMON 2) was a spherical droid equipped with microphones, cameras, and a slew of software to enable emotion recognition, which joined astronauts of the SpaceXs Falcon 9 rocket launched last year.

The overall goal is to really create a true companion, said Matthias Biniok, the Lead Architect for CIMON 2, told Reuters. Its trying to understand if the astronaut is sad, is he angry, joyful []

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Can robots find a role in providing emotional support? - TechHQ

New Jersey, United States,- The research report on Rehabilitation Training Robotics market comprises of insights in terms of pivotal parameters such as production as well as the consumption patterns alongside revenue estimations for the projected timeframe. Speaking of production aspects, the study offers an in-depth analysis regarding the manufacturing processes along with the gross revenue amassed by the leading producers operating in this business arena. The unit cost deployed by these producers in various regions during the estimated timeframe is also mentioned in the report.

Significant information pertaining to the product volume and consumption value is enlisted in the document. Additionally, the report contains details regarding the consumption graphs, Individual sale prices, and import & export activities. Additional information concerning the production and consumption patterns are presented in the report.

In market segmentation by manufacturers, the report covers the following companies-

Regions Covered in the Global Rehabilitation Training Robotics Market:

The Middle East and Africa (GCC Countries and Egypt)

North America (the United States, Mexico, and Canada)

South America (Brazil etc.)

Europe (Turkey, Germany, Russia UK, Italy, France, etc.)

Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)

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Rehabilitation Training Robotics Market | Global Industry Analysis, Segments, Top Key Players, Drivers and Trends to 2027 - Market Research...

German material handling giantKion GroupAG will collaborate with a Chinese robotics startup in a bid to expand Kions offering of mobile solutions including automated lift trucks, the company said today.

Frankfurt, Germany-based Kion unveiled a partnership with Quicktron, a Xiamen, China-based manufacturer of autonomous mobile robots (AMRs), and said it plans to eventually obtain a minority stake in the Chinese company totaling less than 10% ownership, Kion said.

Terms of the deal were not disclosed.

Under the agreement, Quicktron products are now being distributed via the global sales and service networks of Kions brandsLinde Material Handling, Still, and Dematicthus expanding its product offering of automated warehouse solutions. "We are delighted to be forming this strategic partnership with Quicktron. We can offer our customers an even more extensive product range in the automated truck segment," Kion CEO Gordon Riske said in a release.

The announcement follows last weeks news that a flurry of system integrators have struck deals with AMR vendors to address a spike in e-commerce orders that has emerged during the depths of the global coronavirus recession. Recent alliances include: Balloon One with Locus Robotics; Kuecker Logistics Group (KLG) with Geek+; and Advanced Handling Systems LLC (AHS) with Waypoint Robotics.

Quicktron was established in Shanghai in 2014 and employs around 400 individuals worldwide, offering intralogistics solutions using technology based on artificial intelligence (AI).

Kion predicts that both AMRs and automated guided vehicles (AGVs) will become increasingly common as the market for automated supply chain solutions grows rapidly, both in the Asia-Pacific region and around the world. The growth of e-commerce is a significant driver of demand for supply chain solutions, including warehouse automation and solutions for sorting and for automated goods transport, Kion said.

Strategic partnering in Shanghai: KION Group signs a distribution agreement and an MoU with Chinese autonomous mobile robotics (AMR) specialist Quicktron, with the aim of expanding its mobile automation solutions portfolio. Read more here: https://t.co/BaJkPQVawg pic.twitter.com/1d8f3A5lMu

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Kion invests in automated lift trucks through deal with Chinese robotics startup - DC Velocity

The market expects ReWalk Robotics (RWLK) to deliver a year-over-year increase in earnings on lower revenues when it reports results for the quarter ended June 2020. This widely-known consensus outlook is important in assessing the company's earnings picture, but a powerful factor that might influence its near-term stock price is how the actual results compare to these estimates.

The earnings report might help the stock move higher if these key numbers are better than expectations. On the other hand, if they miss, the stock may move lower.

While the sustainability of the immediate price change and future earnings expectations will mostly depend on management's discussion of business conditions on the earnings call, it's worth handicapping the probability of a positive EPS surprise.

Zacks Consensus Estimate

This maker of wearable robotic exoskeletons that help paralyzed patients walk is expected to post quarterly loss of $0.27 per share in its upcoming report, which represents a year-over-year change of +69.3%.

Revenues are expected to be $0.78 million, down 11.4% from the year-ago quarter.

Estimate Revisions Trend

The consensus EPS estimate for the quarter has remained unchanged over the last 30 days. This is essentially a reflection of how the covering analysts have collectively reassessed their initial estimates over this period.

Investors should keep in mind that the direction of estimate revisions by each of the covering analysts may not always get reflected in the aggregate change.

Price, Consensus and EPS Surprise

Earnings Whisper

Estimate revisions ahead of a company's earnings release offer clues to the business conditions for the period whose results are coming out. This insight is at the core of our proprietary surprise prediction model -- the Zacks Earnings ESP (Expected Surprise Prediction).

The Zacks Earnings ESP compares the Most Accurate Estimate to the Zacks Consensus Estimate for the quarter; the Most Accurate Estimate is a more recent version of the Zacks Consensus EPS estimate. The idea here is that analysts revising their estimates right before an earnings release have the latest information, which could potentially be more accurate than what they and others contributing to the consensus had predicted earlier.

Thus, a positive or negative Earnings ESP reading theoretically indicates the likely deviation of the actual earnings from the consensus estimate. However, the model's predictive power is significant for positive ESP readings only.

A positive Earnings ESP is a strong predictor of an earnings beat, particularly when combined with a Zacks Rank #1 (Strong Buy), 2 (Buy) or 3 (Hold). Our research shows that stocks with this combination produce a positive surprise nearly 70% of the time, and a solid Zacks Rank actually increases the predictive power of Earnings ESP.

Please note that a negative Earnings ESP reading is not indicative of an earnings miss. Our research shows that it is difficult to predict an earnings beat with any degree of confidence for stocks with negative Earnings ESP readings and/or Zacks Rank of 4 (Sell) or 5 (Strong Sell).

How Have the Numbers Shaped Up for ReWalk?

For ReWalk, the Most Accurate Estimate is the same as the Zacks Consensus Estimate, suggesting that there are no recent analyst views which differ from what have been considered to derive the consensus estimate. This has resulted in an Earnings ESP of 0%.

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On the other hand, the stock currently carries a Zacks Rank of #3.

So, this combination makes it difficult to conclusively predict that ReWalk will beat the consensus EPS estimate.

Does Earnings Surprise History Hold Any Clue?

While calculating estimates for a company's future earnings, analysts often consider to what extent it has been able to match past consensus estimates. So, it's worth taking a look at the surprise history for gauging its influence on the upcoming number.

For the last reported quarter, it was expected that ReWalk would post a loss of $0.26 per share when it actually produced a loss of $0.37, delivering a surprise of -42.31%.

The company has not been able to beat consensus EPS estimates in any of the last four quarters.

Bottom Line

An earnings beat or miss may not be the sole basis for a stock moving higher or lower. Many stocks end up losing ground despite an earnings beat due to other factors that disappoint investors. Similarly, unforeseen catalysts help a number of stocks gain despite an earnings miss.

That said, betting on stocks that are expected to beat earnings expectations does increase the odds of success. This is why it's worth checking a company's Earnings ESP and Zacks Rank ahead of its quarterly release. Make sure to utilize our Earnings ESP Filter to uncover the best stocks to buy or sell before they've reported.

ReWalk doesn't appear a compelling earnings-beat candidate. However, investors should pay attention to other factors too for betting on this stock or staying away from it ahead of its earnings release.

Want the latest recommendations from Zacks Investment Research? Today, you can download 7 Best Stocks for the Next 30 Days. Click to get this free reportReWalk Robotics Ltd (RWLK) : Free Stock Analysis ReportTo read this article on Zacks.com click here.Zacks Investment Research

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ReWalk Robotics (RWLK) May Report Negative Earnings: Know the Trend Ahead of Q2 Release - Yahoo Finance

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The Neo is a 4-foot-tall, 1,000-pound robot floor scrubber. The high-tech machine can cruise large commercial buildings on its own, with no human supervision required.

Since its introduction in 2016, Neos sales have roughly doubled each year, said Faizan Sheikh, the chief executive and a co-founder of Avidbots, the Canadian startup that created the robot. This year, however, demand has shot up 100% just since the pandemic-induced shutdown in March. Suddenly, the need for thorough, reliable and frequent cleaning is front and center.

Before, a top executive at a big company would not really have known how their facilities got cleaned, Sheikh said. They would have outsourced it to a facilities management company, who might outsource it out again.

Now, company leaders are showing more interest, asking questions about the cleaning process and schedule, as well as safety and effectiveness. That can lead to interest in automation, he said.

Indeed, cleaning robots are having a moment in commercial real estate. Their creators are promoting the machines as cost-effective solutions to the cleaning challenges posed by the pandemic. They can be put to frequent use without requiring more paid labor hours, they are always compliant, and some can even provide the data to prove that they have scoured every inch assigned.

The autonomous robots available now are primarily for cleaning floors and carpets, but companies are busy developing other cleaning applications. Boston Dynamics, a robotics design company in Waltham, Massachusetts, for example, is in a partnership to develop a disinfecting solution that can be mounted atop its 4-legged Spot robot, a company spokeswoman said.

Robotics are also being used to relieve humans of repetitive back-office tasks like accounting, according to a 2018 report from Deloitte. As more buildings incorporate smart technology, data collection and conversion will become increasingly important.

Somatic, a startup in New York, is working on a robot that can clean bathrooms using a spray technology, said Michael Levy, the chief executive. Removing a human cleaner from the bathroom makes the area safer because of the reduced risk of spreading germs, Levy said. And the robot will always do the job exactly as it is programmed to do.

You have to let the chemicals set to do their job, but compliance is tough in the industry, Levy said. If you tell a robot to leave the chemicals for 36 seconds, they leave the chemicals for 36 seconds every single time.

The idea of robotic cleaning is not new. The first attempts were in the 1970s, Sheikh said, but the technology was not up to the task, and the machines were extremely cost prohibitive.

The Neo is sophisticated enough to create its own maps of a facility after being walked through it a single time, he said. The customer then works with Avidbots to develop cleaning plans, which may vary depending on the day of the week.

After a human selects a cleaning plan, you press start and walk away, Sheikh said. The robot figures out its own path.

Designed for facilities of at least 80,000 square feet, Neos sell for $50,000, plus $300 a month for software that tracks cleaning performance. At that price, the break-even point for the buyer is 12 to 18 months, Sheikh said.

They can also be rented for $2,500 a month, including maintenance and software, on a minimum three-year contract.

Cincinnati/Northern Kentucky International Airport deploys its Neo three or four times a day to clean the hundreds of thousands of square feet of tiled floor, said Brian Cobb, the airports chief innovation officer.

Neo has the artificial intelligence capability where, as its moving along its original path, if it sees something in its way, it will go around it, Cobb said. If the obstacle is there the next day, Neo will incorporate it into its map.

Before Neos activation in January, the airport had three workers cleaning floors every night, amounting to an average 24 labor hours per day, Cobb said. The Neo has taken over a portion of that, though workers are still needed to do heavier floor maintenance, like burnishing and recoating. It also frees cleaning staff to focus on making sure that high-touch areas of the airport are cleaned more frequently during the pandemic, he said.

SoftBank, the Japanese multinational conglomerate, introduced the Whiz autonomous carpet cleaner through its robotics unit in November, said Kass Dawson, the vice president of brand strategy and brand communications at SoftBank Robotics. Already, more than 10,000 compact Whiz robots have been deployed around the globe

They caught the attention of Jeff Tingley, the president of Sparkle Services, a cleaning company in Enfield, Connecticut, that works in large commercial facilities throughout Connecticut, New Jersey and New York. He said he had long been interested in robotic cleaning but had not found the technology to be advanced enough or cost effective.

Vacuuming is one of the most time-consuming processes in cleaning. With Whiz, you can essentially wipe out 90% of the vac time required, Tingley said. You still need humans with backpack vacs for under desks and chairs, but weve gained a lot of hours.

The Whiz leases for $500 to $550 a month, which includes maintenance and data collection that provides clients with the confirmed clean, Dawson said.

The robots software was developed by Brain Corp, a San Diego company that teams up with outside manufacturers mainly in cleaning and warehousing industries. Brain Corps autonomous technology, BrainOS, is also in robots made by Tennant, Minuteman, Krcher and others.

In the second quarter this year, retailers use of BrainOS-powered robots climbed 24% from a year earlier, said Chris Wright, Brain Corps vice president of sales. Median daily use rose 20%, to 2.58 hours from 2.15, he said.

He noted that much of the increase was during daytime hours, signaling a major shift in cleaning schedules.

Cleaning is now coming to the first shift because its becoming important to companies image, Wright said. Everyones a little tentative when they walk into buildings now. One of the things that will immediately put people at ease is when they see cleaning happening.

Tingley has seen it when the Whiz is moving around an office floor. Its a friendly machine that stops if you walk in front of it and uses a blinker to signal when its turning, and people seem to like it, he said.

During this fearful period, the folks in buildings have blank looks or even unhappy frowns, he said. When the Whiz passes by, it brings a smile to their face. Its almost like a pet everybody wants to name it.

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For cleaning robots, it's a time to shine - Finance and Commerce

It can be a constant helper in the barns, says Jack Kilian, who designed the robot. I dont think it would ever replace a person because a farmer can do things a robot never could, but it will definitely be able to help them keep an extra eye on their flock.

Kilian is an electrical engineer who recently completed his graduate studies at the University of Minnesota. His business partner, Jack Buendorf, is a maths and economics student still at university at St Olaf College, also in Minnesota. He handles the business end of things both are in their twenties.

While still in its developmental phase, the sturdy four-wheeled robot that stands a little more than 60cm tall will be able to turn bedding, detect poultry disease and mortality through video and audio devices and alert the farmer to any problems it comes across remotely and automatically. Eventually, they plan to add a mechanism for moving mortalities to an area selected by the farmer for disposal. Currently, operators can remotely log into the robot and drive it from anywhere that internet is available. The system can determine where it is in the barn and has video capabilities, and the tiller is being tested, says Buendorf.

In January, Kilian competed against more than 50 other entries to win $12,500 (10,267) in the Ag Tech Challenge put on by Red Wing Ignite. The non-profit organisation fuels economic development by working with key sectors of the community to spur innovation by supporting entrepreneurs, businesses and students, according to the organisations website. This provided seed money for the prototype.

Kilian was joined by Buendorf in the spring. The pair were brought together by Adam Gettings, a serial entrepreneur who co-founded Rover Robotics, the company that designs the robotic platform on which the Poultry Patrol robot is built. Kilian used the Rover's chassis and built a new computer hardware system on to it. The project spun off from a robot called The Wild Goose Chaser that did exactly that: chased geese off lawns. It was a project from Digi Labs, a tech incubator, where Kilian works.

Now, Poultry Patrol is among 21 finalists in a worldwide competition by the Foundation for Food and Agriculture Research and the McDonalds Corporation to automate farms and improve animal welfare. Kilian and Buendorf will find out in November if Poultry Patrol is one of the four projects selected to receive a $500,000 (410,680) grant. The competition is aimed at the broiler chicken industry and is focused on gait scores.

Were going to be using computer-vision techniques to track the gait of the bird, says Kilian. With the robotic platform well have more opportunities to look at the birds compared to something like a stationary camera, and since the robot could do all these other things it seems like it would be an easy sell.

It can also be used to detect disease and mortalities through thermal imaging, says Kilian. If a broiler chickens legs are hot, it could indicate a bacterial infection. If the birds temperature is particularly low, its a mortality. And this could all be done while the rover is going about its business tilling the bedding, or doing other activities, he says.

The fact that the robot gets the birds moving is also a plus since the only way to evaluate a birds health is to get it to move, says Buendorf, and their robot can autonomously measure that movement and tell you if its a healthy bird. The robot is a good size for poultry barns because it can easily manoeuvre along the feed lines without issues, but is large enough to get the birds moving.

The robot could also detect disease through other methods like feather discoloration, missing feathers, burns on their breasts and even respiratory issues via audio recording. If a bird is coughing due to a respiratory issue all of a sudden you have a robot that can immediately say theres a biohazard in the barn, says Buendorf.

While there are a few other companies working in the robotics space that are focused on the poultry industry Octopus Robots, Metabolic Robots and Tibot Technologies Kilian and Buendorf believe Poultry Patrol will differentiate itself because of it ruggedness, maximised utility and affordability. Multitasking is a key. We plan to have our robot conduct multiple tasks all at once, says Buendorf. Octopus is focused on sanitation and tilling, TIBOT is focused on movement and Metabolic is focused on FCR improvement. We hope our robot can do all these tasks and more, such as mortality removal and computer vision welfare reporting.

Additionally, by building onto the extremely rugged Rover Robotics chassis they were able to skip years of mechanical and electrical engineering development, which will translate to a lower price point, according to Buendorf. We have no idea what our pricing model will be, but we can be sure it will be lower than our competition, he says.

Their prototype is currently being tested at the turkey farm of John Zimmerman, outside of Northfield, Minnesota. I like to be open to trying out different things, says Zimmerman on a phone call. I like to experiment. I like technology. I offered my barns and assistance if they wanted to test things out, so we ended up with a robot in the barn.

There were concerns early on about how the turkeys would react to having a robot driving around the barn, but the birds seemed unphased. The turkeys arent bothered by it at all, says Zimmerman. We thought it would take some getting used to but theyre not scared of it in any way shape or form. They move out of its way and dont scatter or pile.

Zimmerman sees the robot first and foremost as a management tool. As we move towards antibiotic-free production our management has to be stepped up, he says. Having another set of eyes and ears through sensors in the barn at all times would be incredibly valuable in detecting diseases or other issues earlier than before because you dont have the luxury of time any more. We have to catch things incredibly quickly if were going to treat [the birds] with something other than antibiotics.

Zimmerman is also interested in the potential for physical actions tilling, moving mortalities believing thats where there would be a measurable return on investment. I think theyre going to get there, he says. Its just a matter of how and when and what the price point is going to be. Im very interested in it.

Buendorf and Kilian get that theyre newbies to the poultry industry, which has given them a sense of responsibility to produce their technology correctly, which means relying on the expert guidance of seasoned industry professionals to develop a product that is going to maximise their utility and efficiency, according to Buendorf.

That is where our team feels responsibility: to deliver reliable technology that has the ability to make production more efficient, safe and enjoyable for all parties involved, especially the birds, says Buendorf.

He believes Poultry Patrol can expand across the entire poultry industry from measuring angular limb deformities for breeders to automatically collecting eggs for the egg industry. We want to solve as many problems as we can, he says. Kilian sees the potential across agriculture.

Being from the Midwest and being from the technical side I think there are a lot of opportunities [for things] that could be improved through robotics, says Kilian. We really like the idea of robotics in ag in general. We just want to keep finding other applications.

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Autonomous robotics for the poultry shed - The Poultry Site

Medical staff use a 5G intelligent medical robot for diagnosis procedures at Shanghai General Hospital in June. [Photo by Yin Liqin/For China Daily]

Industry experts, scholars and medical specialists voiced their optimism toward employing artificial intelligence within a broader range of medical-use scenarios during the just-concluded World Artificial Intelligence Conference 2020.

The third of its kind in Shanghai, where AI medicine constituted a key pillar of discussions, witnessed the inauguration of a medical AI committee under China's AI Industrial Alliance, the unveiling of global medical AI research platform Med-Net as well as the publication of a white paper on worldwide AI medical development.

Wu Jinglei, director of the Shanghai Health Commission, said the 114 medical AI companies in the country have helped form industrial clusters in Beijing, the Yangtze River Delta region and Guangzhou, Guangdong province.

"Despite their relatively late start, the companies have made strides in screening and prediction of diseases, medical imaging, case and literature analysis, new drug discovery and other functions," Wu said.

The development plan for the new generation of AI issued by the State Council has set a target of having core industries reach a market value of 150 billion yuan ($21.5 billion) by 2020. The medical sector is estimated to account for one-fifth of that amount.

In light of the COVID-19 pandemic, experts are training their sights on how AI can help improve the public health system through enhanced epidemic research, genetic testing and drug development.

Ge Junbo, an academician at the Chinese Academy of Sciences and director of the cardiology department at Zhongshan Hospital affiliated to Fudan University, proposed that AI should lead the construction of medical scenarios, and that AI could help doctors achieve more accurate treatment in complex operations in the future.

"The diagnosis and treatment model of AI plus human experts will surpass our current traditional diagnosis and treatment model," he said. "Ultimately, it will help improve our understanding of diseases and change our current management model of disease cognition, diagnosis, treatment, follow-up and chronic diseases."

Zhang Wenhong, director of Huashan Hospital's department of infectious diseases, called for a speedier concentration of public health data currently scattered across all medical institutions.

"The combination of online and offline data (and not just medical data) should form a comprehensive system and create a warning mechanism that serves to determine the vulnerability of a city should a pandemic occur," he said.

Qiao Xin, co-founder and CEO of AI company Deepwise, said:"AI and 5G technologies have developed rapidly in recent years, and I believe that in five years' time, there will be more medical services that can reach the basic level of general practitioners and provide services to more patients via the cloud."

French pharmaceutical company Sanofi is piloting the use of AI in streamlining doctors' online consultation processes.

"By teaming up with Chinese AI company Emotibot, we have come up with a platform where doctors with auto-reply functions can turn spoken language into structured language for AI to understand in real time and give a response, which saves a lot of trouble for physicians," said Jerry Gao, an innovation manager for internet hospitals at Sanofi China.

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Robotics to play bigger role in healthcare - Chinadaily USA

More than 80 percent of restaurant jobs, including cooking, serving and prepping, could be potentially be taken over by automation, according to restaurant consulting firm Aaron Allen & Associates.

Pizza Magazine was first to report on this, writing:

Aaron Allen & Associates shared a graphic proposing that 82 percent of restaurant positions could be automated. The majority of them, or 51 percent, would be server positions. Fifty-seven percent of fast-food and counter workers (or 3.2 million) could be replaced, and the same goes for 38 percent of waiters and waitresses. Twenty-one percent of cooking and food prep positions also could be automated, the company asserts.

Factors that could drive this widespread adoption of automation include continued labor shortage issues for restaurants and the COVID-19 pandemic.

We write about food robots a lot here at The Spoon, and while that 82 percent number is certainly daunting, its not completely surprising. Prior to the pandemic, sufficient staffing was an issue for restaurants as many potential workers preferred driving for Uber or doing some other form of gig work that allowed them to set up their own hours.

Thanks to the pandemic, the U.S. is dealing with massive amounts of unemployment, so finding people to work may not be as big an issue in the short term (though there is a debate about workers making more money via the stimulus than at their job). But the bigger problem now is the number of restaurants closing down dine in operations or shuttering altogether, reducing the number of jobs in the industry overall.

COVID accelerated the push towards off-premises dining, which requires a different kind of staffing set up. You dont need servers if there are no customers sitting at tables to serve. And if a dining room is open, there will be fewer people eating in it to accommodate social distancing.

But even then, COVID has us re-thinking the amount of human-to-human contact as we get our food. We wont know what the lasting impact of the pandemic on our psyche will be, but there is a good chance we will be more wary of strangers and more cognizant of the number of people who touch our food.

This is another reason why we could see more robots in restaurants. Already, a number of companies like Bear Robotics, Keenon Robotics, and Pudu Technology make server robots that can autonomously shuttle food and empty dishes back and forth from the kitchen. Then there is Flippy from Miso Robotics, which can grill burgers and work the deep fryer. White Castle recently announced that it was piloting Flippy at one of its Chicago locations. Theres also Picnic robots, which can assemble 200 pizzas in an hour.

There have always been deep societal concerns around automation, especially within the restaurant industry, which in addition to be a career many people are passionate about, also serves as an accessible first job for lots of different people. Robots taking more than 80 percent of those jobs will have massive ramifications for the country, the labor force and our collective future.

Now the coronavirus is upending those conversations. There are still issues around equity and the ability for people to find work and training if a robot takes their job, but there is the added wrinkle of what is economical for restaurants to stay in business and what people are comfortable with in their dining experiences.

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Report: 80 Percent of Restaurant Jobs Could be Taken Over by Robots - The Spoon