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Japanese researchers reveal life-like humanoid robotics

Researchers in Japan have actually unveiled a set of humanoid robots that are declared to be the most innovative systems of their kind ever developed.

humanoid robots

< img src=https://s3-eu-central-1.amazonaws.com/centaur-wp/theengineer/prod/content/uploads/2017/12/22095938/Kenogoro-robot.jpg alt=" humanoid robotics" width=1439 height=1725 > Explained in a paper released in the journal Science Robotics, and developed at the University of Tokyo, the two robots– called Kenshiro and Kengoro– have been created to imitate people as closely as possible, in order to enable researchers to explore the behaviour of the body in methods not formerly possible.The most advanced of the 2 robotics, Kengoro, is declared to have six times the degree of freedom of other humanoids, and has the ability to move more of its parts in more human-like ways compared with other robots.Equipped with joints that carefully mimic the architecture of human joints

, and five-fingered hands and feet that enable it to stabilize and carry out complex manual tasks, the robot has the ability to bring out a range of tricks, such as standing on its toes, and even carrying out push-ups, pull-ups, and back bends.Intriguingly, the robot even uses a process comparable to sweating to avoid it from overheating, with water tubes threaded through its body collecting heat and dissipating it by venting steam through holes in its aluminium skeleton.The group declares that ultra-lifelike robots could be used to advance the research study of the human body, in particular as an advanced test dummy that might shed light on how the body responds to injuries such as cars and truck crashes.The post Japanese scientists reveal life-like humanoid robots appeared first on The Engineer.

Amazon house robotics might be coming

While the world waits with baited breath to learn which lucky city will be the site of Amazon’s 2nd headquarters, Bloomberg Fire tablet and the FireStick OTT gadget have actually had varying success.Home robots have actually long been a customer tech fascination. Both tech heavyweights(i.e. LG)and start-ups alike are hectic dealing with robotics for the house, however up until now the most useful of any of these developments is still most likely vacuuming bots like iRobot’s Roomba. An Amazon home robotic could end up being the first of its kind to go mainstream.And if there was any doubt about the marketplace’s expectations for Amazon’s entry into the robotic space, take a look at iRobot’s stock cost today. It plunged upon the news of Amazon’s Vesta job. Stay tuned.



Easy Robotics Carry Out Complicated Jobs With Environmental Adjustments

SMORES-EP is a robot from the University of Pennsylvania’s ModLab. It’s made up of an arbitrary number of independent wheeled cubes that can attach to one another magnetically in multiple setups to form a larger cooperative robotic that’s more capable than any single module alone. While robotics like these are usually consisted of identical modules, it’s not all that much of a stretch to think about methods which it might be useful to include other items into the system that might be actively or passively helpful.

For instance, modular robotics can have difficulty dealing with crossing spaces or going up stairs or ledges, since modular robotics do not scale well beyond a handful of specific modules. Rather than searching for a method for the robotic to deal with obstacles like these, the UPenn researchers decided to teach the robotic to customize its environment by giving it access to blocks and ramps that it could (autonomously) use to make challenges less obstacle-y.

This behavior is entirely self-governing: The system is offered a top-level job to achieve, and the ramps and blocks are put in the environment for it to utilize if it chooses that they ‘d can be found in convenient, however it does not have specific guidelines about what to do each time. The video above reveals some example tasks, but the system has no problem generalizing to other tasks in other environments that might need various environment augmentations.Ramps and blocks are just 2 examples of objects that robotics could utilize to enhance their environment. It’s easy to picture how a robotic system could bring augmentations with it (or the products to construct them), or perhaps even scavenge materials locally, constructing things like ramps out of dirt or rocks. Heterogeneous groups of robotics could include construction robotics that customize challenges so that scout robots can traverse them. And mobility is just one example of environmental augmentation: Understanding is a challenge for robots, however exactly what if you had a robotic with lots of elegant sensors check an environment, and after that place fiducials or RFID markers all over the location so that other robotics with far less expensive sensors could quickly navigate around and recognize items? Naturally, doing things like this may have an impact on any human beings in the environment also, which is something that the robotics will likely need to consider. There’s a great deal of capacity here, and we’re delighted to see what the scientists make from it.”Perception-Informed Autonomous Environment Augmentation With Modular Robots

,”by Tarik Tosun, Jonathan Daudelin, Gangyuan Jing, Hadas Kress-Gazit, Mark Campbell, and Mark Yim from the University of Pennsylvania and Cornell University, existed at ICRA 2018 in Brisbane, Australia.



Medical Robots Market Research Report 2018 to 2025

Global Medical Robots Market Research Report 2018 to 2025 presents an in-depth assessment of the Medical Robots Market including enabling technologies, key trends, market drivers, challenges, standardization, regulatory landscape, deployment models, operator case studies, opportunities, future roadmap, value chain, ecosystem player profiles and strategies. The report also presents forecasts for Medical Robots Market investments from 2018 till 2025.

Medical Robot can be controlled through computer program to assist surgery, rehabilitation process or care. A medical robot allows surgeons greater access to areas under operation using more precise and less invasive methods.
Global  Medical Robots Market Sales (K Units) and Revenue (Million USD) Market by Top Manufacturers 2018-2025 are Intuitive Surgical, Mazor Robotics, Stryker, Hansen Medical, Rewalk, Toyota, Accuray, Kirbylester, Ekso Bionics Holdings, Aesynt, Arxium.
The global Medical Robots Market will reach xxx Million USD in 2017 with CAGR xx% from 2018-2025. The objective of report is to define, segment, and project the market on the basis of product type, application, and region, and to describe the content about the factors influencing market dynamics, policy, economic, technology and market entry etc.

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The objectives of this study are:

  1. To define, describe, and analyze the Medical Robots Market on the basis of product type, application, and region
  2. To forecast and analyze the size of the Medical Robots Market (in terms of value) in six key regions, namely, Asia Pacific, Western Europe, Central & Eastern Europe, North America, the Middle East & Africa, and South America
  3. To forecast and analyze the Medical Robots Market at country-level in each region
  4. To strategically analyze each submarket with respect to individual growth trends and its contribution to the Medical Robots Market
  5. To analyze opportunities in the Medical Robots Market for stakeholders by identifying high-growth segments of the market

Global Medical Robots BROMIDE Market Sales (K Units) by Application (2017-2025) are Hospitals, Rehabilitation centers, Others.

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This independent 78 pages report guarantees you will remain better informed than your competition. With over 170 tables and figures examining the  Medical Robots Market, the report gives you a visual, one-stop breakdown of the leading products, submarkets and market leader’s market revenue forecasts as well as analysis to 2025.

Overall Market Analysis 2014-2018:

Table Global Capacity (K Units), Sales (K Units), Price (USD/Unit), Cost (USD/Unit), Sales Revenue (M USD) and Gross Margin of Medical Robots Market 2014-2018 and Future Predictions by 2018 to 2025.

Year 2014 2015 2016 2017 2018
Capacity (K Units) XX XX XX XX XX
Sales (K Units) XX XX XX XX XX
Price (USD/Unit) XX XX XX XX XX
Revenue (M USD) XX XX XX XX XX
Cost (USD/Unit) XX XX XX XX XX
Gross (USD/Unit) XX XX XX XX XX
Gross Margin XX XX XX XX XX

A report also makes sure to give updated information on major Mergers, Acquisition and Expansion happening around the globe.

Geographically, this report is segmented into several key Regions, with Sales, revenue, Market Share (%) and Growth Rate (%) of Medical Robots in these regions, from 2018 to 2025 (forecast), covering Asia-Pacific, North America, Europe, South America, Middle East & Africa.

The report provides a basic overview of the Medical Robots Market industry including definitions, classifications, applications and industry chain structure. And development policies and plans are discussed as well as manufacturing processes and cost structures.

The study was conducted using an objective combination of primary and secondary information including inputs from key participants in the industry. The report contains a comprehensive market and vendor landscape in addition to a SWOT analysis of the key vendors.

There are 15 chapters to deeply display the global Medical Robots Market.

Chapter 1, to describe  Medical Robots Market Introduction, product scope, market overview, market opportunities, market risk, market driving force;

Chapter 2, to analyze the top manufacturers of Medical Robots Market, with sales, revenue, and price of Medical Robots Market, in 2017 and 2018;

Chapter 3, to display the competitive situation among the top manufacturers, with sales, revenue and market share in 2017 and 2018;

Chapter 4, to show the global market by regions, with sales, revenue and market share of  Medical Robots Market, for each region, from 2014 to 2018;

Chapter 5, 6, 7, 8 and 9, to analyze the key regions, with sales, revenue and market share by key countries in these regions;

Chapter 10 and 11, to show the market by type and application, with sales market share and growth rate by type, application, from 2014 to 2018;

Chapter 12, Medical Robots Market forecast, by regions, type and application, with sales and revenue, from 2018 to 2025;

Chapter 13, 14 and 15, to describe Medical Robots Market sales channel, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source.

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  • It provides a forward looking perspective on different factors driving or restraining market growth
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  • It provides a seven-year forecast assessed on the basis of how the market is predicted to grow.

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Stop worrying and learn to love robots

Even as unemployment falls throughout the United States, many people fear that their jobs will soon vanish. An October 2017 poll from Pew Research, for example, found that seven out of ten Americans were worried about a future where robots do more jobs. Broader measures of financial insecurity also remain high for a country with low unemployment and a booming stock market.

As voice-recognition technology that mimics human communication becomes ubiquitous on phones, in homes and in cars, modern life increasingly resembles robot-heavy science fiction. As such, impressions suggest the “robots” are coming. But impressions are wrong: There’s no evidence that robots will take over the job market anytime soon or are even having a huge influence on today’s work. And, contrary to popular sentiment, that’s not a good thing.

For all the talk about robots, no concrete definition of what constitutes a “robot” exists. Dictionary definitions of “robot” instead talk about computer-controlled machines that can carry complex tasks without extensive human oversight. But, by this definition, many modern cars and even microwave ovens are “robots.” The devices that dominate current imagination are more of the same: automated, limited-purpose devices like self-driving trucks and highly-automated factory equipment. Nobody has either the ability, or a practicable plan, to build truly human-like robots in the model of Star Wars’ C-3PO.

The “robots” we’re likely to see in our lifetimes, in other words, are really just the latest type of productivity-enhancing machinery. The same way that water power, steam power and the internal combustion engine powered successive industrial revolutions in the 19th and 20th centuries, and the internet brought an increased standard of living in the 1990s and early 2000s, the latest inventions — robots — offer the promise of a new increase in productivity per-worker.

This technology-fueled worker-productivity increase is important because widely-shared increases in the standard of living require increases in per-worker productivity. If each worker cannot produce more over time, then gains for one person or group must come at the expense of someone else. And this doesn’t make anybody happy.

Productivity can rise, however, when people either work more hours or work smarter. The first approach has helped raise economic growth recently as unemployment has declined. But right now, Americans already work more hours per week than their peers in similarly-rich countries and are about half as likely than those in Europe to be unemployed. Even if individuals did increase their work weeks further, in any case, an aging population and lengthening retirement periods mean that fewer people will be in the labor force. In the long run, it will be impossible to maintain current social benefit systems, much less the overall standard of living, without making each worker more productive. And this requires more efficiency-improving devices — in other words, more robots.

And the big problem facing the economy isn’t too many robots, in other words, but too few. Consider, in 2016, even as unemployment fell and plenty of Star Trek-esque technology made its way into the mainstream, per-worker productivity actually fell in the United States. According to the Bureau of Labor Statistics, productivity growth between 2007 to 2016 was the slowest of any ten-year period since the end of World War II. The throughout history, it has been very difficult to raise living standards without increasing productivity.

New machinery — which we will likely call “robots”— will, of course, displace some workers, just as people making horse-drawn buggies, writing computer code in Fortran and running video-rental stores have lost their jobs at various points in time. But just as these people were supplanted by autoworkers, Python programmers and people running video-streaming services, new jobs will replace those lost. This doesn’t mean, of course, that every individual will be better off. But such “creative destruction” is the best way to increase living standards. And the next phase of big economic growth is going to require more robots.

Eli Lehrer (@EliLehrerDC) is president of the nonprofit R Street Institute (@RSI), an organization that supports limited government in Washington, D.C.