Monthly Archives: June 2021

Amazon Expands in Alberta with the Province’s First Amazon Robotics Fulfillment Center, Creates More Than 1,000 New Full- and Part-Time Jobs – Yahoo…

Posted: June 28, 2021 at 10:03 pm

Amazon partners with The LEGO Group to donate 200 robotics kits to local Parkland County area community groups to encourage STEM learning

SEATTLE, June 28, 2021 /CNW/ - (NASDAQ: AMZN) Amazon today announced plans to open its first Amazon robotics fulfillment center in Parkland County, Alberta creating more than 1,000 full- and part-time jobs starting at $16 an hour with comprehensive benefits and opportunities to work alongside Amazon Robotics in an industry-leading workplace. The new robotics fulfillment center, set to launch in 2022, is more than 600,000 square feet and will be used to pick, pack and ship small items to customers such as books, electronics, and toys.

To celebrate, Amazon will be donating more than 200 build-your-own robot kits to community groups in the Parkland County area with the goal of providing the resources necessary to introduce local youth to the world of robotics, unlock their imagination and explore a new challenge.

"We're excited to expand our operations and create great, safe careers of the future for talented Albertans starting on Day One," said Vibhore Arora, Regional Director, Amazon Canada. "Robotics and advanced technologies make our fulfillment centres safer and more collaborative, which is a big part of our mission to become Earth's Safest Place to Work."

"This is exciting news for Alberta. It is a vote of confidence in our economy, and will create over a thousand jobs for Albertans, right when we need them most. As we continue to recover from the COVID-19 pandemic, high-tech investments like this will continue to get people back to work as we diversify and look towards the future," said Alberta Premier Jason Kenney. "Thank you to Amazon as well for the generosity you've shown to community groups in Parkland County with the donation of 200 robotics kits to support STEM learning."

"Amazon's vote of confidence in Alberta with their new robotics fulfillment centre shows the momentum our province has in the technology space while enhancing their customer experience and creating a thousand jobs," said Doug Schweitzer, Minister of Jobs, Economy and Innovation.

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"Council is tremendously excited to welcome Amazon to Parkland County," said Mayor Rod Shaigec. "The facility is a major investment and will create a significant number of jobs in the region."

"I'm excited for our young people, a top five global business leader focused on technology and commerce innovation is setting up operations across the street in Parkland County," said William Morin, Chief of the Enoch Cree Nation 135. "This means our young people have a real example of the future global economy they can be a part of."

Working with robots at AmazonOver the past two decades, Amazon has introduced many innovations and different elements of technology to help deliver products quickly and reliably to meet ever-growing customer needs and expectations - Amazon Robotics is one of these innovations.

Since the launch of Amazon Robotics at fulfillment centers in 2012, Amazon has created around 300,000 jobs worldwide. The smart systems support employees in their tasks, and the company continues to invest in new logistics centers, jobs and workplace safety measures.

As Alberta's first Amazon robotics facility, it is also an important investment in the province's growing technology sector and results in increased job growth and upskilling opportunities for Amazon employees.

"Collaborative jobs between robots and humans as full-fledged teammates have the potential to not just increase quality, make jobs safer and faster but to enable humans to be more creative, and innovative, and to cooperatively solve many of humanity's greatest challenges," said Dr. Alex Ramirez-Serrano, Professor of the Department of Mechanical and Manufacturing Engineering at the University of Calgary.

Interested parties can learn more about Amazon Robotics and the growth opportunities it brings to Alberta at an upcoming webinar hosted by Inventures, one of Western Canada's most prominent tech startup conferences. Registration link coming soon.

Job creation, career growth and economic benefitAll operational employees receive hours of safety training and ongoing career coaching. Employees at the Parkland County facility will have access to continuing education opportunities through Amazon's upskilling programs like Career Choice, where the company pre-pays up to 95 per cent of tuition for courses related to in-demand fields. Full-time employees will also receive competitive benefits including hourly wages starting at $16 in the province, medical, vision and dental coverage, a group RRSP plan, stock awards, and performance-based bonuses starting on day one.

Amazon employs more than 3,600 employees full- and part-time operations employees in the Prairie provinces and has invested more than $600M in Alberta, Saskatchewan and Manitoba. To learn more about the economic benefits Amazon Canada is creating, read the company's Economic Report.

Engaging the Alberta community in the world of roboticsTo celebrate, Amazon and the LEGO Group will donate 200 robotics kits to local community groups in the Parkland County area where the new robotics fulfillment centre will be located. Over the next month, groups such as Boys and Girls Club, Alberta Parenting for the Future Association, Parkland Village School and Stoney Plain Public Library will receive a shipment of build-your-own kits and their program participants can begin building, coding, and learning about robotics. Amazon wants to inspire the local Parkland County community to engage in the world of robotics and gain access to a new and exciting pastime to mark the occasion.

For more information about current job openings in Alberta, visit http://www.amazondelivers.jobs.

About AmazonAmazon is guided by four principles: customer obsession rather than competitor focus, passion for invention, commitment to operational excellence, and long-term thinking. Amazon strives to be Earth's Most Customer-Centric Company, Earth's Best Employer, and Earth's Safest Place to Work. Customer reviews, 1-Click shopping, personalized recommendations, Prime, Fulfillment by Amazon, AWS, Kindle Direct Publishing, Kindle, Career Choice, Fire tablets, Fire TV, Amazon Echo, Alexa, Just Walk Out technology, Amazon Studios, and The Climate Pledge are some of the things pioneered by Amazon. For more information, visit amazon.com/about and follow @AmazonNews.

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Amazon Expands in Alberta with the Province's First Amazon Robotics Fulfillment Center, Creates More Than 1,000 New Full- and Part-Time Jobs - Yahoo...

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COVID-19 In Maryland: More Than 74% Of Adults Have Received At Least One Vaccine Dose – CBS Baltimore

Posted: at 10:03 pm

ANNAPOLIS, Md. (WJZ) Maryland reported 37 new COVID-19 cases and two deaths Monday as hospitalizations increased slightly, according to state health department data.

More than 3.33 million Maryland adults are fully vaccinated. State officials also reported that the state positivity remained flat at 0.57%.

Hospitalizations went up by three cases to 115 people hospitalized for the virus. Of those hospitalized, 84 remain in acute care and 31 remain in the ICU.

Since the pandemic began, there were 462,181 total confirmed cases and 9,522 deaths.

There are 3,373,446 Marylanders fully vaccinated. The state has administered 6,827,163 doses. Of those, 3,453,717 are first doses with 3,787 administered in the past 24 hours. They have given out 3,114,145 second doses, 6,683 in the last day.

The state began to administer the Johnson & Johnson vaccine again in April, after the CDC and FDA lifted their pause on the vaccine due to a rare blood clot found in some women.

A total of 259,301 Marylanders have received the Johnson & Johnson vaccine, 318 in the last day.

The state reported 74.4% of all adults in Maryland have received at least one dose of the vaccine.

CORONAVIRUS RESOURCES:

Heres a breakdown of the numbers:

By County

By Age Range and Gender

By Race and Ethnicity

For the latest information on coronavirus go to the Maryland Health Departments website or call 211. You can find all of WJZs coverage on coronavirus in Maryland here.

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Asteroids named after UH astronomers | University of Hawaii System News – UH System Current News

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Institute for Astronomy

Naming asteroids is serious business. In the latest batch of officially named asteroids, five have been given names honoring astronomers at the University of Hawaii Institute for Astronomy (IfA).

The International Astronomical Union Committee for Small Body Nomenclature is responsible for designating and naming minor planets. If an object has been observed for at least two nights and is proven to be a newly-identified object, it is assigned an initial provisional designation. If enough observations are obtained to calculate an orbit, the object is assigned a sequential numerical designation. The asteroids discoverer can then propose a formal name.

Newly designated asteroids

These five new designations join a cornucopia of at least 40 asteroids named after current and former IfA astronomers, students, staff and other individuals.

For a full list, please go to the IfA website.

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COVID-19 outbreaks dip further in Michigans June 28 report – MLive.com

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Michigans total active COVID-19 outbreaks being tracked by health officials has dropped to 123, including 11 new clusters reported within the last week.

The total has declined 37% since the prior weekly report, and 75% over the last three weeks. Its a trend that has followed the decline in new coronavirus infections, hospitalizations and deaths, as well as the increase in COVID-19 vaccinations.

New outbreaks were reported from seven different settings, including a pair from manufacturing/construction sites, office settings, social gatherings and agricultural/food processing settings. The June 28 report marked the first time in months that there were no new outbreaks reported in school settings.

In addition to the new outbreaks, the state is tracking 112 ongoing active outbreaks that were noted in previous weekly reports. The Department of Health and Human Services updates its outbreaks report each Monday, with data as recent as the prior Thursday.

An outbreak is generally defined as an instance in which two or more cases are linked by a place and time, indicating a shared exposure outside of a household.

K-12 schools and colleges accounted for 22 ongoing clusters. Once the top setting for outbreaks, school clusters have dipped significantly as the calendar has flipped to summer vacation for many.

A total of 1,200 students and staff remain effected from the 22 school outbreaks, including 930 linked to outbreaks at Western Michigan University in Kalamazoo. The next largest clusters involved 67 students and staff at Lapeer High School, and 41 students and staff at Bay City Central High School.

Below is an online database that allows readers to search outbreak data by school name or by city or county. The number of those infected is a cumulative total since the original outbreak. (Note: Washtenaw County only reports cumulative totals for the past 28 days.)

Below is an interactive map showing both new and ongoing outbreaks listed in the Monday, June 18, report. It shows outbreaks reported as of Thursday, June 24. You can put your cursor over a dot to see the underlying data.

Outside of K-12 schools and colleges, MDHHS is not identifying specific locations or the number of coronavirus cases. However, it is listing the information by the states eight health district regions. (Note those regions have different numbers than the MI Safe Start Plan.)

By region, the breakdown of the clusters:

By category, the outbreaks totaled:

Outbreaks will be removed from the database if there are no additional cases through a 14-day period, state MDHHS officials have said.

State officials note that the chart does not provide a complete picture of outbreaks in Michigan, and an absence of identified outbreak in a particular setting is not evidence that the setting is not having outbreaks.

Many factors, including the lack of ability to conduct effective contact tracing in certain settings, may result in significant under-reporting of outbreaks, the states website reads.

For more statewide data, visit MLives coronavirus data page, here. To find a testing site near you, check out the states online test finder, here, send an email to COVID19@michigan.gov, or call 888-535-6136 between 8 a.m. and 5 p.m. on weekdays.

Read more on MLive:

Delta variant symptoms in children: What are they? Are they different from other COVID strains?

Final numbers on Michigans spring COVID-19 surge: 4,000 dead, 30,000 hospitalized

Benefits of COVID-19 vaccines outweigh risk of rare reactions in adolescents, doctors say

Why northern Michigan has both highest vaccinated counties and big pockets of vaccine hesitancy

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Scythe Robotics delivers robotic solution to the industry labor crisis – Total Landscape Care

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The Green Industrys labor crisis is driving an increased need for autonomous robotic solutions. Scythe Roboticsis answering that demand with the introduction of an all-electric, fully autonomous mower for commercial grade use.

This new technology also meets the call for more sustainable solutions which will empower the commercial landscape industry to further curtail the release of fossil fuel and noise emissions.

To date, commercial landscape contractors havent had a technology partner who enables them to keep up with demand and to operate emissions-free.We are that partner, said Jack Morrison, co-founder and CEO of Scythe, in a company press release.

Our autonomous mower gives them the ability to grow their business, while staying green. Its designed from the ground up to be an order of magnitude more reliable, more productive, and safer than any existing machine by incorporating state of the art autonomy with a rugged, all-electric design, Morrison added.

According to Fred Haskett, veteran landscape consultant with The Harvest Group and Scythe advisor, this will be a gamechanger for the industry.

Mowing sits at the center of a green industry labor crisis, he says. In full-service landscape management companies, mowing operations account for up to 40 percent of labor utilization.

Green Industry veteran Fred Haskett is an advisor for Scythe.Scythe Robotics

The Scythe autonomous mower features eight HDR cameras and a suite of other sensors which will enable it to operate safely and respond to the presence of humans, animals, and other potential obstacles in its path. The machine also captures valuable property and mower performance data which will help landscape contractors to improve workflow, identify upsell opportunities, schedule more efficiently, and manage labor costs.

Haskett says that the fact that this mower is not a retrofit, but rather built from the ground, up, as a commercial mower is a differentiator. Haskett was brought on as an advisor three years ago and says that the robotics company has been listening closely that entire time as to what the industry needs.

Scythe saw a need but came from outside of our industry, Haskett explains. I came on board to connect them to landscape professionals so that they could better understand their wants and needs. They were robotics experts but needed to better understand pattern cutting, quality of cut, deck size, how robust to build the deck, and many other industry specifics that would allow them to build a mower that met landscapers demands.

Haskett says that Scythe has connected with all of the members of his peer groupswhich are made up of landscaping companies from 2 to 50 million. And theyve sat with them and listened.

Its been a very detailed process, he says. But the end result is a mower that is going to fulfill industry needs.

Scythe also announced its $13.8M in Series A funding, led by Inspired Capital with participation from existing investors True Ventures, Zigg Capital, and Lemnos, brining the companys total funding to $18.6M. According to the company, the new investment will be used to grow their existing operations in Texas, Florida, and Colorado, expand with new customers, and accelerate development of future products that they expect to continue to impact efficiency and productivity, despite labor challenges.

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How COVID-19 Could Lead to a Golden Age of Innovation – The Atlantic

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On June 14, 1940, the day the German army invaded and occupied Paris, a small group of scientists marched to the White House with grave news for President Franklin D. Roosevelt. U.S. military technology, they said, was utterly unprepared to take on the Axis powers. They urged the president to create a new agencya dream team of techies and scientiststo help win the war.

In response, Roosevelt assembled an agency that became known as the Office of Scientific Research and Development, or OSRD. Led by Vannevar Bush, the former dean of the MIT School of Engineering, the office ultimately employed more than 1,500 people and directed thousands of projects around the country. By the end of the war, it had spawned military inventions such as the proximity fuse, radar, andafter one of its programs spun off to become the Manhattan Projectthe atomic bomb.

OSRDs breakthroughs went far beyond missiles and bombs. It supported the first-ever mass production of penicillin in part by contracting with the chemical manufacturer Pfizer (yep, that one) to produce key antibiotic materials. The agency invested in malaria treatments and developed an early influenza vaccine. It invested in microwave communications and built the foundations for early computing. Not many people today have ever heard of OSRDwhich was dissolved in 1947 and whose peacetime responsibilities were strewn across a range of government agenciesbut its fingerprints are all over some of the most important breakthroughs of the 20th century.

And then, 80 years later, a new crisis struck.

Read: How science beat the virus

COVID-19 posed another global challenge for which the United States was utterly unprepared. This time, too, the countrys initial response was staggered and delayed, but when the U.S. finally trained its scientific ingenuity toward a clear problemthe development of COVID-19 vaccinesAmericans did extraordinary things with breathtaking speed. Once more, the U.S. government contracted with U.S. companieshello again, Pfizerto save American lives. And with the darkness of this global crisis fading (at least in the U.S.), some commentators predict a new era of optimism in science and technology.

Maybe. To understand how the United States can turn a crisis into a golden age of science and discovery, compare and contrast the countrys responses to World War II and COVID-19. Fortunately, a new paper, by Daniel Gross at Duke University and Bhaven Sampat at Columbia University, does just that. Why are crises so fertile for innovation? is a question Ive been asking throughout my research, Gross told me. And I think were starting to get a clearer idea.

During the war, the Office of Scientific Research and Development did for defense research what a point guard does on a basketball court: controlling the pace of the game, setting up plays, and deciding which other player is best positioned to shoot a basket. The OSRDs priorities came directly from military leaders needs. Then the agency farmed out contracts to universities (for research, mostly) and companies (for manufacturing production, mostly). Finally, it reported its progress directly to the White House. The agency nurtured new ideas throughout their entire life cyclefrom the research lab to the factory to the battlefront.

Compared with OSRD, the U.S. strategy during COVID-19 was somewhere between diffused and nonexistent. Operation Warp Speed was probably the closest parallel, and it clearly accelerated the development of several vaccines. But beyond that, the U.S. government set few priorities for COVID-19 medicine and research. It never identified the key questions that researchers should be trying to answer. (For instance, whats the best way for an indoor business, such as a restaurant, to stay open while protecting customers?) The government made little effort to organize or synthesize research. The main exception was the tragically inept CDC, whose guidance was often misleading, or months late.

Overall, our scientific response to COVID-19 was the opposite of OSRDs response to World War II: not a centralized mobilization of applied research, but the decentralized emergence of basic research. Thats an important distinction. Since the pandemic began, more than 130,000 academic articles on the disease have been published online, and many different researchers have helped figure out how the coronavirus works. But the U.S. lacked an OSRD-like agency to determine which new technologies should be sent to the front lines to help health-care workers and sick patients stop an advancing enemy. Outside of Operation Warp Speed, Gross told me, the federal government seems to have abdicated a lot of responsibility. Goals were never clearly articulated.

Why was our response to COVID-19 so different from our response to World War II? One simple answer is: focus.

During the war, people within the U.S. government broadly agreed that the Nazis existed; that they posed a real threat; and that Americans could trust military leadership to articulate useful goals for beating the enemy. As a result, clear lines of communication developed among the military, OSRD, and the White House. So when the military said it needed better navigating technology, OSRD delivered huge breakthroughs in sonar and radar.

During the pandemic, however, no similar top-down consensus existed about the threat that the novel coronavirus posed. Clear lines of communication didnt exist within the government. Worse yet, the Trump administration went out of its way to scramble the wires, lie about the pandemic, sow confusion throughout the public-health establishment, and publicly attest that the whole thing might just go away imminently. Instead, the most important breakthroughs came from the bottom up: Thousands of scientists clamored to understand the nature of the virus; hundreds of hospital networks gradually learned how to help severely ill patients; a ragtag team built the COVID Tracking Project; and a start-up Fast Grants program accelerated the funding of overlooked projects.

Anne Applebaum: What Americas vaccine campaign proves to the world

Ironically, the more diffuse nature of American innovation today might be the direct legacy of OSRD and its impresario, Vannevar Bush. After the war, Bush published an influential report, Science: The Endless Frontier, which encouraged the U.S. to expand its investment in basic science under the theory that all human progress is a tree that blossoms from the seeds of scientific research. Skeptical of industrial policythat is, of the government actively working to advance its favorite technologies and industriesBushs thesis pushed for the government to expand basic-science funding and leave the rest to the private sector.

Bushs vision is our 21st-century reality. Since the end of World War II, Americas inflation-adjusted spending on science and technology has increased by a factor of 50. Federal support for basic science has dramatically expanded, and major universities have shifted their focus from teaching to research. OSRDs components are currently scattered among an alphabet soup of research agencies. The National Institutes of Health is the world leader in funding scientific research. But its strategy is very, well, Bushian. Unlike OSRDs focused medical research, the NIH leaves priority-setting to many thousands of individual researchers. (Disease advocates and Congress have at times questioned the wisdom of this, Gross and Sampat write, especially in the context of health crises such as cancer and AIDS.)

Focus can be a double-edged sword. Having clear priorities is no good if those priorities are also terrible. A national mask ban would have been a very focused and very bad idea in 2020. A national declaration that COVID-19 is less dangerous than a typical influenza virus would have been a bold national policyand a deadly one. Meanwhile, the triumph of mRNA technology was a beautiful story of how basic research can languish for 40 years before revealing its own worth. It was precisely the nonfocused research on mRNA over the last few decades that allowed us to get these vaccines, Sampat told me.

Yet OSRDs work during World War II teaches important lessons about how to launch a new golden age of progress. Gross and Sampat told me that perhaps the most important takeaway from their paper might be the overlooked value of applied researchthat forgotten middle child of technological progress, where nascent ideas begin to be deployed to solve real-world problems. OSRD was unique in its support for new technologies all the way through their life cycle. In the past few decades, funding for basic science has ballooned, but in many cases that research never reaches the next stage in the assembly line.

Consider, for example, the history of solar energy. In the 1950s, American researchers invented silicon solar cells. Through the 1980s, the U.S. spent more on research and development than any other country. But then it ceded that technological advantage, as my colleague Robinson Meyer has written, when Japan and other countries urged their firms to invest in solar technology, incorporate solar into an array of products, and bring down costs. The U.S., for its part, had no national plan to cross the valley of death from neat new idea to mass-produced product.

Uri Friedman: The pandemic is revealing a new form of national power

OSRD taught a lesson that was too soon forgotten: You get more from the seeds of new ideas if youre willing to invest a bit in the planting stage. NSF and NIH are really focused on supporting basic scientific investigation, but they dont really fund, for example, early manufacturing capacity, or efforts to reduce drug costs, Gross said. Thats a market failure. There might be a productive role in government funding of clinical trials and manufacturing capacity.

There is an interesting irony here. World War IIs highly focused innovation policy led to a postwar innovation system that is almost proudly unfocused.

I came away from my conversation with Gross and Sampat with a question I had never quite thought of before: What would an NIH for applied research look like? In other words, what if, in addition to using NIH to give grants to scientists who set their own priorities for basic researchstage one on the assembly lineAmericans put the weight of government funding behind solving high-priority problems? We could do this by investing in the translation of basic research into practical technology, as Japan seems to have done, effectively, with solar power. A National Institute of Applied Science wouldnt bring the U.S. all the way back to wartime industrial policy. But it might be the sort of institution that could kick-start a new golden age of innovationby drawing on the last one.

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Here’s Why Tokyo Is Hosting the Summer Olympics Despite COVID-19 – Council on Foreign Relations

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Why is Japan going ahead with the Summer Olympics?

Japans Olympics bid was about so much more than hosting the summer games. For Prime Minister Shinzo Abe, the 2020 Summer Olympics were to be a demonstration of renewal, one more statement to the world that Japan is back! Echoing the 1964 Tokyo Olympics, the themes were to be Japans technological prowess, its ability to recover from difficulty, and its hospitality. Though the games were postponed in 2020 and Abe stepped down last year due to health reasons, Prime Minister Yoshihide Suga has insisted that the Olympics proceed.

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A substantial financial investment has been made. Officially, Japan has spent $15.4 billion on the Olympic and Paralympic Games. Government audits put the bill much higher, however. Private companies have also invested a considerable sum, which the Mainichi Shimbun estimates to be an additional $3 billion.

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The International Olympic Committee (IOC) also had a hand in the decision to proceed. On May 21, the committees vice president confirmed that the games would go on despite the growing disgruntlement of the Japanese public.

By May, the publics concerns seemed to peak; polling by the Asahi Shimbun revealed that 83 percent of Japanese were against the governments plan to go ahead with the games this summer. About 40 percent wanted them postponed, while 43 percent wanted the Olympics canceled altogether. A citizen-led petition asking Suga to cancel the games garnered over 430,000 signatures. Even Olympics Minister Seiko Hashimoto complained that Japans hand was being forced by decision-makers outside the country.

Japans continuing struggle with the pandemic was the root cause of concern. Vaccinations were slow, in part due to negotiations with suppliers and the governments inability to adapt its own regulatory approach. Once begun, the rollout suffered from confusion and a lack of information about accessibility for the 28 percent of Japanese who are over the age of sixty-five. With the caseload rising, medical facilities were hard-pressed to ensure adequate treatment.

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Some business leaders also challenged the governments assurances that it could manage this risk. Masayoshi Son, president of SoftBank, tweeted, Does the IOC have the power to decide that the games will go ahead? Theres talk about huge penalties [if the games are canceled] but if one hundred thousand people from two hundred countries descend on vaccine-laggard Japan and the mutant variant spreads, I think we could lose a lot more. Hiroshi Mikitani of Rakuten, the largest online retailer in Japan, joined Son in criticizing the decision to hold the games. Even Japanese companies sponsoring the Olympics privately called for the games to be postponed to the fall.

However, by June, public resistance towardhosting the games this summer had softened somewhat.

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For starters, there is the health risk. The high case numbers in Tokyo and Osaka this spring raised concerns about the countrys medical infrastructure, and the coronaviruss Delta variant, discovered first in India, has epidemiologists around the world worried.

Suga has promised that vaccinations will be made available quickly, pledging that all Japanese who want to be vaccinated will have access by the end of October. The Prime Minister also vowed in early May that the country would be vaccinating at the rate of one million shots per day by the end of June.According to Bloombergs analysis, Japan reached that goal last week.

On June 22, Tokyo Olympics organizers announced that spectators will be allowed into the games. Hashimoto told NBC News the next day that a spectator ban is still possible if COVID-19 cases surge.

There could be political consequences as well. In October, Japan will hold its first Lower House election since Abe stepped down, and it will be a tough election for the Liberal Democratic Party of Japan (LDP) and its coalition partner, Komeito. The opposition Constitutional Democratic Party of Japan seems unlikely to take power, but it could damage the supermajority that the governing coalition has enjoyed in the Lower House since 2012. Sugas public approval rating plummeted to a low of 33 percent coming into the summer, and the next few months will be difficult. Both an accelerated vaccination schedule and a safe Olympics are necessary to boost his political standing.

Asias geopolitics will undoubtedly be on the minds of many in Tokyo. Coming up after Japans summer games are Beijings 2022 winter games. Japan will not want to be overshadowed by China.

South Koreas winter games in 2018 became the stage for President Moon Jae-ins high-stakes diplomatic gamble to embrace diplomacy with North Korea, and Abe attended at Moons request in a show of support for peace on the peninsula. Although there is little reason to expect that inter-Korean diplomacy will be on view in Tokyo this summer, Japan and South Korea could use the occasion to improve their relationship.

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Google Made a Come Back in The World of Robotics – Analytics Insight

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In 2013, Google started a pioneering and ostentatious effort to manufacture robots. With time, its target has become self-effacing but with time the technology is also subtly more advanced. Since 2013, the internet company has depleted tens of millions of dollars in buying six robotics start-ups in Japan and in the United States. The project consisted of two teams that are majoring in machines that moved and looked like humans. Andy Rubin, the Vice President of engineering who was behind the effort of creating such projects named it Replicant in a nod to Googles great ambition. Also, the name was used in a science-fiction movie called Blade Runner.

However, with the passing time over the next few years, Google sold off the companies that have been acquired by it or shut them down. The Japanese conglomerate SoftBank bought the best-known project named Boston Dynamics from Google.

In recent years, with the advancement of modern technology, Google accumulated and reassessed its target on the mechanics of complex robots. For the last few years, Google has been remodeling its program focusing on robots that are much more manageable and simpler than human-shaped machines.

Vincent Vanhoucke, who previously helped Google in building Google Brain that researches artificial intelligence is now leading the new robotics at Google. This new effort is called robotics at Google. It includes many of the engineers and researchers who worked under Mr. Rubin. Its new model will be able to learn skills independently using machine learning without human intervention, like traversing in a warehouse that is filled with unexpected objects. The machines may not impressive or attractive as the earlier humanoid robots but this more advanced technology incorporated inside them gives them more perspective in the real world.

In the warehouse and on factory floors, Robots are already in use but they can only operate certain specific tasks only like turning screws or picking up objects. Taking the help of machine learning Google wants the machines with which it is working to learn on their own.

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A new piece of the quantum computing puzzle – Washington University in St. Louis Newsroom

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Research from the McKelvey School of Engineering at Washington University in St. Louis has found a missing piece in the puzzle of optical quantum computing.

Jung-Tsung Shen, associate professor in the Department of Electrical & Systems Engineering, has developed a deterministic, high-fidelity two-bit quantum logic gate that takes advantage of a new form of light. This new logic gate is orders of magnitude more efficient than the current technology.

In the ideal case, the fidelity can be as high as 97%, Shen said.

His research was published in May 2021 in the journal Physical Review A.

The potential of quantum computers is bound to the unusual properties of superposition the ability of a quantum system to contain many distinct properties, or states, at the same time and entanglement two particles acting as if they are correlated in a non-classical manner, despite being physically removed from each other.

Where voltage determines the value of a bit (a 1 or a 0) in a classical computer, researchers often use individual electrons as qubits, the quantum equivalent. Electrons have several traits that suit them well to the task: they are easily manipulated by an electric or magnetic field and they interact with each other. Interaction is a benefit when you need two bits to be entangled letting the wilderness of quantum mechanics manifest.

But their propensity to interact is also a problem. Everything from stray magnetic fields to power lines can influence electrons, making them hard to truly control.

For the past two decades, however, some scientists have been trying to use photons as qubits instead of electrons. If computers are going to have a true impact, we need to look into creating the platform using light, Shen said.

Photons have no charge, which can lead to the opposite problems: they do not interact with the environment like electrons, but they also do not interact with each other. It has also been challenging to engineer and to create ad hoc (effective) inter-photon interactions. Or so traditional thinking went.

Less than a decade ago, scientists working on this problem discovered that, even if they werent entangled as they entered a logic gate, the act of measuring the two photons when they exited led them to behave as if they had been.The unique features of measurement are another wild manifestation of quantum mechanics.

Quantum mechanics is not difficult, but its full of surprises, Shen said.

The measurement discovery was groundbreaking, but not quite game-changing. Thats because for every 1,000,000 photons, only one pair became entangled. Researchers have since been more successful, but, Shen said, Its still not good enough for a computer, which has to carry out millions to billions of operations per second.

Shen was able to build a two-bit quantum logic gate with such efficiency because of the discovery of a new class of quantum photonic states photonic dimers, photons entangled in both space and frequency. His prediction of their existence was experimentally validated in 2013, and he has since been finding applications for this new form of light.

When a single photon enters a logic gate, nothing notable happens it goes in and comes out. But when there are two photons, Thats when we predicted the two can make a new state, photonic dimers. It turns out this new state is crucial.

Mathematically, there are many ways to design a logic gate for two-bit operations. These different designs are called equivalent. The specific logic gate that Shen and his research group designed is the controlled-phase gate (or controlled-Z gate). The principal function of the controlled-phase gate is that the two photons that come out are in the negative state of the two photons that went in.

In classical circuits, there is no minus sign, Shen said. But in quantum computing, it turns out the minus sign exists and is crucial.

Quantum mechanics is not difficult, but its full of surprises.

When two independent photons (representing two optical qubits) enter the logic gate, The design of the logic gate is such that the two photons can form a photonic dimer, Shen said. It turns out the new quantum photonic state is crucial as it enables the output state to have the correct sign that is essential to the optical logic operations.

Shen has been working with the University of Michigan to test his design, which is a solid-state logic gate one that can operate under moderate conditions. So far, he says, results seem positive.

Shen says this result, while baffling to most, is clear as day to those in the know.

Its like a puzzle, he said. It may be complicated to do, but once its done, just by glancing at it, you will know its correct.

The McKelvey School of Engineering at Washington University in St. Louis promotes independent inquiry and education with an emphasis on scientific excellence, innovation and collaboration without boundaries. McKelvey Engineering has top-ranked research and graduate programs across departments, particularly in biomedical engineering, environmental engineering and computing, and has one of the most selective undergraduate programs in the country. With 140 full-time faculty, 1,387 undergraduate students, 1,448 graduate students and 21,000 living alumni, we are working to solve some of societys greatest challenges; to prepare students to become leaders and innovate throughout their careers; and to be a catalyst of economic development for the St. Louis region and beyond.

This research was supported by the National Science Foundation, ECCS grants nos. 1608049 and 1838996. It was also supported by the 2018 NSF Quantum Leap (RAISE) Award.

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5G, Quantum Computing and Artificial Intelligence (AI) Technology Development Trends Report 2021 – Yahoo Finance

Posted: at 10:02 pm

Dublin, June 28, 2021 (GLOBE NEWSWIRE) -- The "Technology Themes 2021 - Tracking Development of 3 Key Trends, 5G, Quantum Computing and Artificial Intelligence (AI)" report has been added to ResearchAndMarkets.com's offering.

5G, Quantum Computing and AI have been discussed at length for a number of years and the hype that surrounds them can lessen the understanding of real world impacts these themes are already having. This report aims to track their present position, explain their potential benefits and see where any issues have arisen. 2021 promises to be a significant year for all three industries.

Key Highlights

5G consists of the fifth generation of cellular technology and is built to enable faster mobile data speeds than previous 4G LTE and earlier technologies, providing the potential for revenue growth and lower customer churn. 5G will allow networks to be virtually sliced to provide a range of different service characteristics for different use cases. For example, ultra-reliable and low-latency communications (URLLC) will support use cases including virtual reality (VR) and augmented reality (AR), automated and remotely operated robotics, and many others. Meanwhile, massive machine-type communications (mMTC) will eventually support millions, and eventually billions, of sensors and meters that can provide value through data analytics and automation in use cases such as agriculture, healthcare, and public safety.

While widespread enterprise use remains years away, the hype around quantum computing (QC) continued to build in 2020, and with good reason. More people than ever are getting to grips with QC, with many companies now offering quantum cloud experiences for beginners and developers alike. Two separate organizations, Google and the University of Science and Technology of China (USTC), have claimed the quantum advantage, but practical use cases need to be proven in 2021 for the field to continue to attract investment.

AI is ubiquitous today. It can be found everywhere, from wearable tech to automated home devices, smart cities, cars, offices, and more. The technology is embedded in a range of systems, making it challenging to identify revenue explicitly generated by AI. GlobalData forecasts that the market for AI platforms will reach $52bn in 2024, up from $29bn in 2019. AI is one of the most hyped technologies, with reality often falling short of vendors' world-altering promises.

Scope

Story continues

Learn how AI is developing

See how quantum computing is becoming more mainstream

See how 5G is now ubiquitious

Understand what the major technology themes are and how they are developing

Reasons to Buy

What are the major themes developing in the technology sector?

How developed is the 5G network now?

Is quantum computing having a major impact?

What sectors has AI now developed into?

Key Topics Covered:

Executive Summary

5G is the fifth generation of cellular technology

Mobile network operator deployments are patchy

Mobile 5G subscription evolution

Mobile 5G revenue evolution

5G capabilities and use cases

Ultra-reliable and low latency communications (URLLC)

Massive machine-type communications (mMTC)

Quantum Computing

Artificial Intelligence

Appendix

For more information about this report visit https://www.researchandmarkets.com/r/7qp3yw

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