Category Archives: Technology

How the new RNA technology is used to create the COVID-19 vaccines

The COVID-19 vaccine is using new technology that has never been used before in traditional vaccines. Here's how an mRNA vaccine works.

Just the FAQs, USA TODAY

Combining technologies that proved hugely successful against cancer and in COVID-19 vaccines, researchers at the University of Pennsylvania have shown they can effectively treat a leading cause of heart disease.

For now, the success has only been achieved in mice, but the milestone offers hope for millions of people whose heart muscle is damaged by scar tissue.

There is no effective treatment for this fibrosis, whichleads to heart disease,the leading cause of death in the United States, said Dr. Jonathan Epstein, a Penn professor of cardiovascular researchwho helped lead the new work, published last month in the journal Science.

In his new research, Epstein reversed fibrosis by re-engineering cells, as has been done with a successful blood cancer treatment called CAR-T,which stands for chimeric antigen receptor T cells. In this case, however, the treatment took placeinside the body rather than in a lab dish.

The team delivered the treatmentusingmRNA technology, which hasbeen proven over the last year with hundreds of millions of people receiving mRNA-based COVID vaccines.

"Ifit works (in people), it really could have enormous impact," Epstein said."Almost every type of heart disease is accompanied by fibrosis."

About 50% of heart failure is directly caused by this scar tissue, whichprevents the heart from relaxing and pumping effectively. Fibrosis also is involved in leading causes of lung and kidney disease.

In the decade-oldCAR-T approach to fighting blood cancers, developed at Penn by study co-author Carl June,immune cells from the patient are taken out of the body and genetically altered to identify tumor cells. Then, they're reinserted so they can destroy the cancer.

More:mRNA technology in COVID vaccines could one day lower your cholesterol, prevent cancer

CAR-Thas been hugely expensive because it's personalized for every patient. By working inside the body, the new approach would allow treatment with the samegeneric approach for everyone.

"It is now scalable. That makes it to me really more exciting," Epstein said.

Unlike cancer therapy, where every last cancer cell has to be killed to prevent recurrence, in fibrosis, almost any significant reduction will improve someone's quality of life, he said.

Though still a long way from helping people, the method shows the potential ofmRNA technology, wellbeyond COVID vaccines.

"It's really cool," said Dr. Crystal Mackall a Stanford University cancer researcherwho uses CAR-Tto treat cancer and was not involved in this work. "I think we all knew when the COVID vaccine was so successful and so well tolerated in so many people… those of us who are scientists immediately began thinking, 'Wow, what else can Ido with this?'"

In the COVID vaccine, mRNA spurs cells to make a protein normally found on the surface of the coronavirus. That way, when the immune system sees the actual virus, it will recognize the protein and attack the virus before it can do serious damage.

In the new application, the mRNA trains the cells to produce a protein found on the surface of fibrotic cells, so immune cells will destroy them.

In previous studies, engineered T cells were delivered in a way that allowed themto persist over a long time, risking thatthe immune system would attackother fibrotic cells, including those involved inwound healing. By delivering the protein with mRNA, whichonly sticks around for a few days, the researchers think they can avoid this problem.

"The window for potential trouble is relatively small," Epstein said.

This short-term durability is a major advantage, he and others said.

"The idea that you could do this over a period of days is actually pretty exciting," said Dr. Stanley Riddell, a professor and immunology expert at the Fred Hutchinson Cancer Research Center in Seattle. "It's a very nice application of cutting-edge synthetic biology."

Still, unexpected problems could crop up, and the Penn team remains a long way from safely treating people with fibrotic heart disease, Epsteinsaid.

Next, they plan to test their approach in larger mammals, before moving on topeople, hopefully in about two years.They still have to work out the most appropriate dose and how many times the treatment might need to be delivered to be most effective, he said.

The research team has started a company to help advance the technology.

One advantage, Epstein said, is that imaging technology cannow "see" fibrotic tissue, allowing doctors to evaluate a patient's disease and response to therapy. "There are tools that already exist to bring this forward," he said.

More:Hilliard man celebrating a new year with a new heart and lungs

Like many great scientific advances, the idea behind thenew treatment approachstarted with a chance meeting in an elevator.

One of Epstein's graduate students had wondered aloud about the possibility of using CAR-Ts to treat cardiac fibrosis. A few days later, Epstein ran into Carl June in an elevator and posed the same question.

Graduate students led the effort, because "they have the energy to go back and forth between labs," Epstein said, "and they're smart enough to learn different disciplines."

The teamshad been collaborating for several years when Dr. Drew Weissman,a Penn scientist whose research underlies mRNA vaccines,approached them to suggest delivering the treatment viamRNA.

"I just walked into Jon's office and said, 'We can do this,'" Weissman said.

Weissman, not surprisingly, is a big believer in mRNA technology, whichis already being tried inother vaccines to preventthe flu, shingles and respiratorysyncytial virus, as well as cancer. The new study shows it has much broader potential, he said.

Fibrosis is a part of many diseases, not just heart disease. Duchenne Muscular Dystrophy, pulmonary fibrosis, scleroderma and COVID lung are all caused by a hardening of vital tissues, noted Weissman, who is now using mRNA as the basis for an experimental HIV vaccine.People are also experimenting with using mRNAto treat autoimmune disease and to deliver gene therapies.

"The potential for it really is enormous," Weissman said. "It's the beginning of the RNA world."

More:Fast-acting 'chain of survival' saves man from sudden cardiac death at Worthington Community Center

Light running could help save your life

Runners are less likely to die of cancer or heart disease. Buzz60s Sean Dowling has more.

Buzz60

Contact Karen Weintraub at kweintraub@usatoday.com.

Health and patient safety coverage at USA TODAY is made possible in part by a grant from the Masimo Foundation for Ethics, Innovation and Competition in Healthcare. The Masimo Foundation does not provide editorial input.

Continued here:

Technology used in mRNA COVID vaccines offers hope for millions with heart disease, study suggests - The Columbus Dispatch

How can you ensure renewable power technology is resilient enough? The answer, perhaps, is to deploy it in the Arctic, one of the worlds harshest environments, and that is exactly what a team of Russian researchers has done. The $27m Snowflake facility is a proving ground for renewable power generation, and could prove crucial in the worlds ongoing efforts to cut its carbon footprint, by demonstrating that industry, administration and workers can all function in the most extreme of environments.

Elsewhere, we look into recent power supply struggles in the UK and the US, and ask if widespread freezes or soaring energy prices are the result of temporary hardships, or signs of deeper issues within their respective power industries. With both countries eager to position themselves as leaders in the worlds fight against climate change, they face serious questions about fixing their own domestic energy supplies, before going on to tackle global challenges. We also ask what more decision-makers in the electric vehicle sector can do to spread clean cars to the US, and consider the potential, and challenges, associated with concentrated solar power.

Whether you are on a desktop, tablet or smartphone, you canread the magazinefor free online, and join the conversation onTwitter.

Arctic exploration: developing green energy technology in an extreme environment

A $27m clean energy-powered Russian research facility is being built in the Arctic to bring carbon-free technologies to the remote and climatically harsh region. Heidi Vella speaks to the projects lead Yury Vasiliev at the Moscow Institute of Physics and Technology to find out more.

Read more.

Fixing the UKs broken energy market

Regulations meant to ensure low energy prices have trapped utilities in a death spiral. Matthew Farmer investigates the challenges facing the UK energy market.

Read more.

High-power potential: the future of concentrated solar power

As photovoltaic solar production grows around the world, concentrated solar power has historically been left behind. JP Casey speaks to John King of Hyperlight Energy, to learn how the latters efficient and flexible characteristics could aid in the worlds clean energy transition.

Read more.

Keeping the lights on in the USs stormy century

As extreme weather events become fiercer and more frequent, what steps are operators taking to keep maintenance manageable? Matthew Farmer investigates current US power infrastructure.

Read more.

The US electric vehicle market needs to shift a gear

With the US lagging behind Europe and China in the transition to electric vehicles, an ING report says more needs to be done to promote the technology. Andrew Tunnicliffe talks with co-author Rico Luman about what the countrys ambitions are and how they might be met.

Read more.

The lynchpin of the worlds decarbonisation efforts, or an unsafe practice always a step away from a humanitarian disaster? The truth surrounding nuclear power is likely somewhere in the middle, and questions remain as to whether its undoubted power potential can be realised amid safety concerns and financing challenges for such large-scale projects. In our next issue, well profile some of the worlds newest nuclear plants, and assess whether they could be the future of power.

Read more:

Extreme green: the new issue of Future Power Technology is out now - Power Technology

While most middle schoolers were learning about history and grammar, young climate activist Ryan Honary was putting his passion for STEM to work. Living in California, he witnessed the devastating 2018 Camp Fire, which killed 85 people and destroyed over 18,000 structures. It led Honary to develop a fire-detection technology to help avoid wildfire disasters in the future.

Continue reading below

Our Featured Videos

His invention earned the Grand Prize at the 2019 Ignite Innovation Student Challenge. It also established the Early Wildfire Detection Network, for which he was named the 2020 American Red Cross Disaster Services Hero for Orange County.

Related: He transformed a school bus into an eco-friendly tiny home

Now 14, Honary has achieved more in the way of business development, award-winning ideas and climate action than most people on the planet. His invention caught the attention of the Irvine Ranch Conservancy, a non-profit, non-advocacy organization created in 2005 to help preserve and support the Irvine Ranch Natural Landmarks. The organization aims to encourage citizens to connect with the land and facilitates stewardship through landowners in the area.

Thank you!

Keep an eye out for our weekly newsletter.

Join Our Newsletter

Receive the latest in global news and designs building a better future.

SIGN UP

SIGN UP

In alignment with these goals, the Irvine Ranch Conservancy invited Honary to conduct a pilot project with its support. The goal is to evaluate the potential for the proprietary AI-driven sensor network technology.

The system will be put to work, testing its ability to prevent fire through detection, measurement, notification and prediction of a variety of environmental threats. For example, the technology monitors air and water pollution and soil moisture levels. It will be deployed in early 2022, with research continuing throughout the year.

We were impressed with Ryans research, and we are excited about its potential to improve our ability to detect threats and monitor our natural resources, which are essential to our adaptive management approach, said Dr. Nathan Gregory, vice president and chief programs officer of the Irvine Ranch Conservancy.

The emergency detection and response system relies on remote sensors and AI to identify fire outbreaks and predict spread patterns. The low-cost mesh network is easy to deploy and can be placed in remote locations that are otherwise unmonitored. The onboard technology allows communication via an app, to alert scientists and emergency responders.

In addition to his work with the Irvine Ranch Conservancy,Honary won the prestigious Office of Naval Research Naval Science Award. The award came in the form of a grant, which led to the formation of Honarys company Sensory AI. Since the initial win in early 2020, the organization has issued several rounds of funding to further develop the technology.

Honary was also recognized as a top 30 finalist at the Broadcom Masters. The program, founded and produced by the Society for Science and the Public and the Broadcom Foundation, is the nations premier STEM competition for middle schoolers.

While headlines rage about the costs and loss associated with wildfires, Honary is working to encourage other students to pursue any interests in STEM fields of study.

I believe that environmental engineering will be one of the most important fields of my generation, and my hope is that students will be encouraged to pursue it and have the resources to do so, said Honary. I am really excited about the opportunity to demonstrate my solution in a larger context, in collaboration with Dr. Gregory and his team, and expect the outcomes to be instrumental in future conservation efforts.

In addition to addressing issues of climate change, he hopes to stand as an inspiration for other youths who may not have considered STEM opportunities.

The Bureau of Labor Statistics estimates that by 2030 STEM occupations will increase by 10.5% compared to a 7.5% growth in non-STEM occupations. That opens the door for innumerable careers for candidates with a strong foundation in science, technology, engineering and math (STEM).

Yet a White House study found that only 20% of high school graduates are prepared for college level coursework in a STEM major. It also found that less than 20% of undergraduates who declare plans to major in a STEM field actually graduate with a related degree. Its a field of study thats flooded with potential but short on applicants. And the problem starts early in the educational process.

The Skyhook Foundation reports only 33% of eighth graders are interested in STEM majors. That might come from a lack of inspiration even earlier in elementary school. Research supports the idea that if STEM topics arent engaging, the vast majority of students lose interest by fifth grade. This data highlights the need for access and emphasis on STEM-based education starting early on.

Fortunately for the wildlife and human population, Honary is one of the few who are passionate and inspired about STEM from a young age. When hes not actively working to save the planet, Honary reports he enjoys tennis and teaches the sport to autistic youth. He also enjoys singing and playing the guitar, as well as surfing the waves in his hometown of Newport Beach, CA.

+ Ryan Honary

Images via Ryan Honary

See the rest here:

Meet the 14 year old who develops fire prevention technology - Inhabitat

Insiders and analysts have made their predictions on the 3D printing trends to watch out for. Find out more in our series focused on thefuture of 3D printing.

UK-based engineering firm Renishaw (RSW) has revealed that the revenue generated by its Manufacturing Technologies division rose by 30% during the second half of 2021.

Renishaws H1 2022 financials, which it reports from June 30 2021 to December 31 2021, show that its manufacturing arm brought in 309 million, 30% more than the 237 million it reported in H1 2021. Over the period, the division benefited from an impressive recovery in demand from its semiconductor and electronics clientele, while its 3D printing sales also saw strong repeat business from key accounts.

In anticipation of the companys results, investors drove its share price up by 15% in the lead up to their publication, and having met expectations with its financial performance, it now projects that its FY 2022 pre-tax profit could rise to 181 million.

There was growth for all product lines within our Manufacturing Technologies segment, most notably for the encoder and gauging lines, explained Sir David McMurtry, Executive Chairman of Renishaw. The strong demand for our encoder product lines continues to be driven by increased investments in industrial automation and the semiconductor and electronics capital equipment markets.

Renishaws H1 2022 financials

While Renishaw used to report its revenue across Metrology and Healthcare segments, it now does so in the form of Manufacturing Technologies and Analytical Instruments and Healthcare divisions, making it difficult to compare its H1 2022 figures against those it achieved in the periods prior to this reorganization.

What we do know is that the former, which includes the firms industrial metrology, precision measurement and 3D printing offerings, was the driving force behind its H1 2022 revenue growth. During the period, Renishaw says that a spike in demand for consumer electronics and EVs led to increased interest in its gauging, magnetic and optical encoder product lines, with its measuring offering also seeing growth.

As a result, the companys Manufacturing Technologies division was able to achieve an adjusted operating profit of 81 million over the course of H1 2022, a 98% increase on the 41 million it reported in H1 2021. Although Renishaws financials make little reference to how its 3D printing business helped contribute to this, its Chief Executive William Lee did tell analysts on its earnings call, that its wider strategy of targeting key repeat customers is currently working well in this area.

Revenue generated by the firms Analytical Instruments and Healthcare segment, on the other hand, fell from 18.3 million to 16.5 million between H1 2021 and H1 2022, due mainly to delays in shipping its spectroscopy lines to China.

Despite this though, the company was still able to bring in an overall revenue of 325 million in H1 2022, 27% more than the 255 million it reported during H1 2021, and as a result, it has not only been able to increase its cash balance from 215 million to 222 million during this period, but offer a shareholders a 16p per share interim dividend.

Renishaws profitable H1 2022

During Renishaws H1 2022 earnings call, Lee stressed that its ambition in the 3D printing space is still to be the best hardware supplier to its clientele. To achieve this, Lee said the firm is actively working with customers in the early stages of adopting the technology, making initial parts and sometimes even hosting machines for them, until theyre ready to install them at their own facilities.

In terms of new clients, the company revealed that one of its 3D printers had been deployed by Optimus3D during the quarter, to manufacture optimized titanium chainstay brackets for Angel Cycle Works bicycles. Using a RenAM 500S system, the company is said to have been able to automate the parts production process, while achieving a high level of consistency and improved quantities.

Renishaw also introduced its new RenAM 500 Flex 3D printers at Formnext in H1 2022, complete with simplified powder handling systems, designed to enable users to more easily change materials. Although the machines were launched too late into the period to have had a meaningful impact on the companys financials, their sales performance is likely to be vital to its 3D printing divisions future success.

More broadly, when it comes to the reasons behind its impressive H1 revenue figures, its worth noting how Renishaw moved to insulate its business from the impact of Brexit as well. In February 2021, the firm opted to expand its facilities and stock levels at its EU offices, while making some of them independent subsidiaries, enabling it to avoid some of the supply chain disruption seen elsewhere in the UK.

3D printing ready for take-off?

Renishaw has made some bold predictions ahead of H2, forecasting revenue for the 2022 financial year of 650-690 million, and a pre-tax profit of 157-181 million. If realized, these figures would represent annual rises of 22% and 4% respectively.

In a statement issued issued alongside its figures, the firm said that it remains confident in its long-term prospects due to its strong financial position, product pipeline and high-value manufacturing relevance, while McMurtry added on its earnings call, that 3D printing remains an important part of achieving its goals moving forwards, particularly in the world of small-batch production.

The future is the price per part and when it comes down, the potential for additive manufacturing is enormous, added McMurtry. Theres no tool that needs to be sharpened. There are a lot of advantages, and when the price per part comes down really rapidly, it will really take off in the future, in my view.

To stay up to date with the latest 3D printing news, dont forget to subscribe to the 3D Printing Industry newsletter or follow us on Twitter or liking our page on Facebook.

For a deeper dive into additive manufacturing, you can now subscribe to our Youtube channel, featuring discussion, debriefs, and shots of 3D printing in-action.

Are you looking for a job in the additive manufacturing industry? Visit 3D Printing Jobs for a selection of roles in the industry.

Featured image shows a row of Renishaws new 500Q Flex 3D printers. Photo via Renishaw.

View post:

Renishaw projects FY 2022 profit of up to 181M as manufacturing technology demand rises 30% - 3D Printing Industry

Father Eric J. Banecker

By Father Eric J. Banecker Posted February 4, 2022

As we enter the third year of the pandemic, there is an odd disconnect. Some are debating the when and how of moving out of the emergency phase. Others, irresponsibly, never entered the emergency phase at all. Most of us, of course, are somewhere in between, trying to make sense of a flurry of recommendations, variants and information.

In the process, we have reached a fascinating point in the way this pandemic has affected our relationship with technology. For the first year of the pandemic, science and technology represented all that was right with the world: nurses working past exhaustion to care for COVID patients; wise old figures explaining steps we could take to keep ourselves and others healthy; front-line heroes making sure masks, gloves and tests were properly manufactured and distributed.

It also represented major social change (Zoom means we can all work from home forever!), salvation from loneliness (Zoom happy hour!), a new way of fulfilling religious obligations (livestream Mass!), and then, finally, escape from the pandemic itself (mRNA vaccines!).

But something happened on the way to this bright, promising future promised by technology. It turns out that some jobs just cannot be done from our home offices, and it also turns out that many of those jobs are lower-wage jobs.

Suddenly, those wise old figures became experts we were either told were trying to rob our freedom or whom we had to follow with extreme scrupulosity. Some of the front-line heroes were fired from their jobs for not getting a vaccine. Others watched loved ones die because they didnt get a vaccine.

Zoom lost its charm, Twitter became snarkier and angrier, and Facebook already under fire became Meta and tried to convince us that our lives would be lived online from now on.

This disenchantment must be behind the many articles from very different kinds of publications which have recently lamented various ways technology (and the corporations which sell it to us) has negatively affected our society.

Dear friends, we must live in the real. We are not avatars, and the internet is not a home, office, nation, or church. As we enter year three of the pandemic, we must recognize the inherent limits of science and technology. Acknowledging limits, of course, doesnt mean denying reality. Indeed, the human mind has come to understand many aspects of reality precisely because reality is intelligible. And when that knowledge is applied in a way that helps to sustain and promote life, that is a great thing.

So yes, mRNA vaccines are a very good thing. The digitization of certain aspects of life and work can open up possibilities of interaction and collaboration heretofore impossible. Just as things we dont even think of as technology the printing press, advances in agriculture and animal husbandry transformed previous eras but are considered analog today, so many aspects of life we consider revolutionary will probably be considered ancient in a few hundred years.

The essential criterion for any kind of technology chemical, biological, electronic is simply this: does this promote the flourishing of the human person and the human community or not? The answer for most forms of technology will be well, it depends.

Smartphones can help us listen to the Bible in a Year podcast, or they can be devices for the easy access and distribution of pornography. (In fact, they are both at the same time.) Social media can be a tool to share ideas and meet people, or it can be a fantasyland of arguments designed to make us addicted and depressed at the same time. From major research laboratories can come advances in the treatment and prevention of COVID-19 and also experiments with human chimeras and cloning.

The choice about whether or not to adopt a certain technology cannot be left to those in board rooms or even, sadly, in many ethics committee meetings. It must be left to the actual real communities which make up our lives families, legislatures, voluntary organizations and the church through the magisterium to discern advances in technology and determine whether they truly respond to our needs or simply create new ones.

The truly bright, promising future is one which respects the world as created by God. In such a world, with God at the center, the human person is lifted up by scientific advances rather than brought down. The choice lies not in the atoms and semi-conductors; rather, it lies in the hearts of mothers and fathers, priests and politicians, doctors, nurses, lawyers and scientists.

Catholics have a unique opportunity to extol the wonders of science while also warning of its limitations. We can use the means of digital communication to proclaim the Gospel, while also directing people to real, live experiences of worship and communal life.

May we be guided by faith and reason in fulfilling Christs commission to be the salt of the earth and the light of the world for our day.

Originally posted here:

Year three of COVID reveals technology's limits - CatholicPhilly.com

Eric Harkleroad/KHN (Images: Getty Images/Unsplash)

Eric Harkleroad/KHN (Images: Getty Images/Unsplash)

In October, when Jamie Taylor's household monthly income fit within new state income limits after Missouri's 2021 expansion of Medicaid, she applied for health coverage. She received a rejection letter within days, stating that her earnings exceeded the acceptable limit.

It was the latest blow in Taylor's ongoing campaign to get assistance from Missouri's safety net. Taylor, 41, has spent hours on the phone, enduring four-hour hold times and dropped calls. Time-sensitive documents were mailed to her home in Sikeston but by the time they arrived she had little time to act.

Her latest rejection she would later find out resulted from a preprogrammed glitch in her application that a technician enrolling her failed to catch.

Taylor's struggles to get a benefit she was in fact qualified for are not uncommon in Missouri or nationally. They stem from extremely outdated technology used by a humongous web of government agencies, from local public health to state-run benefits programs. Matt Salo, the National Association of State Medicaid Directors executive director, calls the need for technology upgrades "the next great challenge that government has to solve."

The COVID crisis exposed just how antiquated and ill-equipped many systems are to handle the unprecedented demand. While private-sector businesses beefed up the ability to stream TV shows, created apps for food deliveries, and moved offices online, some public health officials tracked COVID outbreaks by fax machine.

Jamie Taylor dealt with four-hour hold times and dropped calls while trying to secure public benefits in Missouri. Others have encountered similar problems across the nation as the pandemic has highlighted the pitfalls of dated government technology. Krissy Pruiett hide caption

Jamie Taylor dealt with four-hour hold times and dropped calls while trying to secure public benefits in Missouri. Others have encountered similar problems across the nation as the pandemic has highlighted the pitfalls of dated government technology.

But momentum is finally building for government tech updates. With once-in-a-generation pools of money available from pandemic relief funding and higher than expected tax revenues, some efforts are underway. President Joe Biden issued an executive order in December calling on benefits enrollment to be streamlined. State lawmakers are urging the use of unspent COVID relief money to address the issue.

That's critical because outdated information systems can trigger ripple effects throughout the public benefits system, according to Jessica Kahn, who is a partner at the McKinsey & Co. consulting firm and previously led data and systems for Medicaid at the Centers for Medicare & Medicaid Services. One example: Hard-to-navigate online benefits applications can push more applicants to call phone help lines. That can strain call centers that, like many industries, are having difficulty meeting staffing needs.

Some states are already eyeing improvements:

In Wisconsin, Democratic Gov. Tony Evers has directed up to $80 million to replace the state's old unemployment infrastructure.

Kansas is among the first states working with the U.S. Department of Labor's newly created Office of Unemployment Insurance Modernization set to manage $2 billion in funds appropriated by the American Rescue Plan Act last year.

In Missouri, a bipartisan state Senate committee recommended using surplus COVID relief funds for the Department of Social Services to update the benefit computer systems. The department also has proposed using federal pandemic money on artificial intelligence to process some 50,000 documents per week. That work is currently done manually at an average of two minutes per document.

Underfunding is nothing new to public health and safety-net programs. Public officials have been reluctant to allocate the money necessary to overhaul dated computer systems projects that can cost tens of millions of dollars. But even when the money is there, recent history suggests these improvements may be easier said than done.

More than 10 years ago, the Obama administration invested $36 billion to develop and mandate the national use of electronic health records for patients. Despite the billions invested, the digitizing of patients' records has been plagued with problems. Indeed, to benefit from the new Biden administration requirement that insurers reimburse them for rapid tests, patients have to fax or mail in claims and receipts.

The Affordable Care Act also offered a chance to improve state technology infrastructure. From 2011 through 2018, the federal government offered to cover up to 90% of the funds necessary to replace or update old Medicaid IT systems, many of which were programmed in COBOL, a computer programming language dating to 1959. Those updates could have benefited other parts of the government safety net as well, since state-administered assistance programs frequently share technology and personnel.

But, Salo says, the ACA required these new Medicaid computer systems to communicate directly with the health care exchanges created under the law. States faced varying degrees of trouble. Tennessee applications got lost, leading to a class-action lawsuit. Many states never fully overhauled their benefit systems.

During the pandemic, tech issues became impossible to ignore. Amid the early lockdowns, hundreds of thousands of people waited months for unemployment help as states such as New Jersey, Kansas, and Wisconsin struggled to program newly created benefits into existing software. Local and state vaccine registration sites were plagued with so many problems they were inaccessible to many, including blind people, a violation of federal disability laws.

In Missouri, where Jamie Taylor lives, a 2019 McKinsey assessment of the state's Medicaid program noted the system was made up of about 70 components, partially developed within a mainframe from 1979, that was "not positioned to meet both current and future needs."

In a 2020 report for the state, Department of Social Services staffers called the benefits enrollment process "siloed" and "built on workarounds," while participants called it "dehumanizing."

Taylor experienced that first-hand. Eight years ago, a mysterious medical condition forced her out of the workforce, causing her to lose her job-based health insurance. At various times, she's been diagnosed with ulcerative colitis, Crohn's disease, gastritis, inflammatory bowel disease, and gastroparesis, but lacking insurance and unable to qualify for Medicaid, she was forced to seek treatment in emergency rooms. She has been hospitalized repeatedly over the years. She estimated her medical debt tops $100,000.

At the behest of hospital social workers, Taylor applied for Medicaid, the federal-state public health insurance program for people with low incomes, six times beginning in 2019, although she didn't meet the state's income requirements that were among the lowest in the nation before voters approved expanding the program. Her first two rejection letters began, "Good news," a mistake state officials blame on a programming error.

The October rejection was the most heartbreaking because that time she knew she qualified under the state's new guidelines.

At a loss, Taylor reached out to state Rep. Sarah Unsicker. The Democratic lawmaker represents a district 145 miles away in St. Louis, but Taylor had seen her championing Medicaid expansion on Twitter. After Unsicker queried the department, she learned that a default answer in her application that a technician enrolling her missed is what had disqualified Taylor from getting Medicaid. It incorrectly listed her as receiving Medicare the public insurance designed for older Americans that Taylor does not qualify for.

"Within 24 hours, I had a message back from Sarah saying that another letter was on the way and I should be much happier with the answer," Taylor recalls.

Finally enrolled in Medicaid, Taylor is now struggling to get nutrition assistance, called SNAP, which in Missouri is processed through a separate eligibility system. Medicaid and SNAP applications are combined in 31 states, according to a 2019 analysis from the Code for America advocacy group. But not in hers. The programs have similar income requirements, but Taylor was not able to verify her income over the phone for SNAP as she could for Medicaid.

Instead, she received a letter on Nov. 26 requesting her tax returns by Nov. 29. By the time she was able to locate and email those documents on Dec. 1, she had been denied. Every call to sort out the issue has been met with hold times upward of four hours or queues so full that her call gets dropped, she said.

"It just doesn't make sense to me why Medicaid can verify my tax income over the phone, but SNAP needs me to send them a copy of the whole thing," Taylor says.

Eventually, she gave up and started the whole process over. She's still waiting.

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. KHN is an editorially independent operation program of KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

View original post here:

To get health care, many must navigate glitchy government technology : Shots - Health News - NPR

BOSTON--(BUSINESS WIRE)--GTY Technology Holdings Inc. (Nasdaq: GTYH) (GTY), a leading vertical SaaS/Cloud solution provider for the public sector, will hold its fourth quarter 2021 earnings call at 4:30 pm ET on Thursday, February 17th, 2022.

The live conference call can be accessed by registering here. After registering, instructions will be shared on how to join the call.

The call will also be available via live webcast here. The archived webcast will be available shortly after the call on the Company website, http://www.gtytechnology.com.

About GTY Technology Holdings Inc.

GTY Technology Holdings Inc. (NASDAQ: GTYH) (GTY) brings leading public sector technology companies together to achieve a new standard in stakeholder engagement and resource management. Through its six business units, GTY offers an intuitive cloud-based suite of solutions for state and local governments, education institutions, and healthcare organizations spanning functions in procurement, payments, grant management, budgeting, and permitting: Bonfire provides strategic sourcing and procurement software to enable confident and compliant spending decisions; CityBase provides government payment solutions to connect constituents with utilities and government agencies; eCivis offers a grant management system to maximize grant revenues and track performance; Open Counter provides user-friendly software to guide applicants through complex permitting and licensing procedures; Questica offers budget preparation and management software to deliver on financial and non-financial strategic objectives; Sherpa provides public-sector budgeting software and consulting services.

Originally posted here:

GTY Technology Holdings to Announce Fourth Quarter and Full Year 2021 Financial Results on February 17th, 2022 - Business Wire

Atmofizer has published a video of the test results HERE.

"We entered this partnership because we understand the Atmofizer technology and the impact it can have on the industry by greatly reducing the cost of filters and energy while delivering 99.99% performance. We are very excited to see the results and begin commercialization," said Bjrn Kemper, CEO of Kemper GmbH.

"We are excited to demonstrate our technology in an industrial application because it is an extreme case. The test results are amazing and visually show the impact. Kemper is an amazing partner and we look forward to building the relationship and bringing solutions to market with them," said Olivier Centner, CEO of Atmofizer.

"The air purification industry has largely focused on developing new filters that catch smaller particles. The challenge is that the tighter the filters the more energy is required to push air through and the most performant filters, HEPA are not recyclable or reusable so they end up in the landfills, said Centner. "Atmofizer's technology works by using ultrasonic waves to agglomerate the smallest particles into larger clusters to more effectively filter and neutralize harmful particles using ultraviolet light. The mission of Atmofizer is to bring clean air and water to the world."

About Atmofizer Technologies Inc.

Atmofizer's consumer and industrial solutions are based on its patent-protected and patent pending technology for ultrafine particle agglomeration and neutralization. This capability creates a revolutionary and more efficient method for addressing the wide range of dangerous nano-scale particles, viruses and bacteria that are too small to be effectively managed by conventional HEPA filters and ultraviolet lights. Atmofizer plans to disrupt the air treatment industry by improving air safety and purification efficiency while lowering customers' operational costs.

Atmofizing air refers to the process of using ultrasonic acoustic waves to agglomerate (cluster together) small particles into a larger target that is then radiated by ultraviolet light to neutralize their harmful properties, making the air you breathe less hazardous to your health. Using units that atmofize air in tandem with HEPA filters can make the HEPA filters work more efficiently, enable the use of a less-powerful filter and result in a cleaner and longer-lasting filter that reduces operating costs and is less of a health hazard to clean or replace.

Atmofizer is patent-pending and patent-protected sole source of technology to atmofize air and is applying its proprietary technology in consumer and industrial air purification products currently manufactured under the Atmofizer brand, as well as in retail and commercial devices produced by other companies that integrate Atmofizer technology into their own products under license. Atmofizer's owned and licensed product lines include wearable, portable and mobile use for personal air treatment, as well as larger systems to handle higher air volumes for commercial, industrial, institutional and residential applications.

About Kemper GmbH

Kemper, the family business established in 1977, is a pioneer and technology leader in the field of welding fume extraction. The family owned Company Kemper is managed by the second generation: Bjrn Kemper, Michael Schiller and Frederic Lanz. Kemper employs 400 employees and is exporting to 88 countries. Kemper is the technology leader in the field of extraction and filtration technology in the metal working industry and their main objective is to supply the best possible quality and to fulfil the demands of our customers. Current customers include Bayer, Daimler, Airbus, Lufthansa, VW and Ford. For more information please visit; https://www.kemper.eu/en/company.

Forward-Looking Information

This press release contains "forward-looking information" within the meaning of applicable securities laws. All statements contained herein that are not clearly historical in nature may constitute forward-looking information. In some cases, forward-looking information can be identified by words or phrases such as "may", "will", "expect", "likely", "should", "would", "plan", "anticipate", "intend", "potential", "proposed", "estimate", "believe" or the negative of these terms, or other similar words, expressions and grammatical variations thereof, or statements that certain events or conditions "may" or "will" happen, or by discussions of strategy. The forward-looking information contained herein includes, without limitation, the testing collaboration with Kemper, the utilization of Atmofizer's technology industrial fume extraction devices and the business and strategic plans of the Company.

By their nature, forward-looking information is subject to inherent risks and uncertainties that may be general or specific and which give rise to the possibility that expectations, forecasts, predictions, projections or conclusions will not prove to be accurate, that assumptions may not be correct and that objectives, strategic goals and priorities will not be achieved. A variety of factors, including known and unknown risks, many of which are beyond our control, could cause actual results to differ materially from the forward-looking information in this press release including, without limitation: the Company's ability to comply with all applicable governmental regulations including all applicable laws and regulations; impacts to the business and operations of the Company due to the COVID-19 pandemic; a limited operating history, the ability of the Company to access capital to meet future financing needs; the Company's reliance on management and key personnel; competition; changes in consumer trends; foreign currency fluctuations; and general economic, market or business conditions.

Additional risk factors can also be found in the Company's continuous disclosure documents which have been filed on SEDAR and can be accessed at http://www.sedar.com. Readers are cautioned to consider these and other factors, uncertainties and potential events carefully and not to put undue reliance on forward-looking information. The forward-looking information contained herein is made as of the date of this press release and is based on the beliefs, estimates, expectations and opinions of management on the date such forward-looking information is made. The Company undertakes no obligation to update or revise any forward-looking information, whether as a result of new information, estimates or opinions, future events or results or otherwise or to explain any material difference between subsequent actual events and such forward-looking information, except as required by applicable law.

SOURCE Atmofizer Technologies Inc.

View post:

/REPEAT -- Kemper Confirms Successful Test of Atmofizer Technology Improving Industrial Fume Extraction/ - PRNewswire

Microsoft is looking for UK startups that are tackling environmental challenges to join its new accelerator programme, which has been launched in partnership with The Met Office and Social Tech Trust.

The AI for Environmental Sustainability Accelerator will help companies that have a product or solution idea that uses artificial intelligence to have a positive impact in one of six areas: Carbon, water, waste, ecosystems, climate equity and green skilling.

The startups that are chosen to join the four-month programme will receive Microsoft Azure cloud credits, advice from experts on AI, technology, commercial development and social impact, workshops, coaching from Microsoft, The Met Office and Social Tech Trust, networking opportunities and funding support to grow their business and help the planet.

There is no cost for startups taking part in the Accelerator; and Microsoft, The Met Office and Social Tech Trust will not take any equity in the businesses. The startups also retain all intellectual property rights. After the cohort ends, all the companies will remain part of the Microsoft for Startups/Global Social Entrepreneurship Programme community for a further eight months to continue their technical and sales enablement development. The alumni will also join Social Tech Trusts portfolio, where they will receive ongoing support from the team and have access to a network of social tech alumni.

Edith Szendrodi, Head of Programmes for AI for Environmental Sustainability at Microsoft UK, said: The AI for Environmental Sustainability Accelerator offers support, guidance and tools at the right time for small business owners so they can grow their companies and take their solutions to the next level.

Partnerships involving technology will play a vital role in tackling the environmental challenges facing the planet, and Microsoft has launched tools such as the Emissions Impact Dashboard and Cloud for Sustainability to help others start their sustainability journeys. This new accelerator will ensure we are able to share our learnings and tools directly with some of the most exciting and impactful UK startups operating in the sustainability sector.

Previous environmentally-focused startups that have been helped by Microsoft include ThermaFY, which develops real-time thermal analysis solutions; recycling business Recycleye, which has raised more than 4 million in funding and operates across Europe; and community engagement company Hello Lamp Post, which has grown from an eight-week project in Bristol to a platform deployed in cities on multiple continents.

Peter Hedley, Chief Technology Officer at Recycleye, said joining Microsofts accelerator was one of the best things we did as young founders with a small company.

During the cohort we grew from two people to 25, he added. It helped us as founders to discuss problems, gain advice and join a growing startup community of passionate and driven people in the sustainability space. The Microsoft team has always been there to support us.

Tiernan Mines, Chief Executive of Hello Lamp Post, said: Theres no downside to the accelerator. Its an opportunity to build a relationship with Microsoft, not just for a few weeks but for the long term. Weve been constantly amazed by how supportive, friendly and approachable Microsoft have been whenever weve had ideas or opportunities to explore.

Microsofts AI for Environmental Sustainability Accelerator will start in mid-March and run until June. To apply, click here. The deadline for applications is Sunday, February 13.

Tags: Azure, microsoft, startup, sustainability

Read the original here:

Microsoft unveils accelerator for startups that use technology to help the planet - Microsoft

Abstract: Global Voice and Speech Recognition Technology Market to Reach US$20. 9 Billion by the Year 2026 . Voice and speech recognition technology is emerging as the basis of advanced voice services in various applications including voice-based commerce, customer service applications, clinical documentation for healthcare industry, and virtual digital assistants for automobiles.

New York, Jan. 17, 2022 (GLOBE NEWSWIRE) -- Reportlinker.com announces the release of the report "Global Voice and Speech Recognition Technology Industry" - https://www.reportlinker.com/p04246017/?utm_source=GNW Growth in the global market is being driven by the expanding applications of voice and speech recognition technologies, with customer care, healthcare, and financial institutions emerging as major end-use markets for the technology. Rising demand for speech-based biometric systems for carrying out multifactor authentication is another major factor driving growth in the market. Increasing focus on combating fraud in major end-use verticals including enterprise, banking and healthcare sectors and the growing adoption of mobile banking services by banking institutions and e-commerce retailers are enhancing the need for more secure verification process, thereby driving implementations of voice recognition/authentication technologies. Sustained innovations in computing power and the growing adoption of cloud-based services are also boosting market prospects. Automatic speech recognition (ASR), text-to-speech (TTS) and speaker verification (SV) are few applications driving growth in the speech technology marketplace.

Amid the COVID-19 crisis, the global market for Voice and Speech Recognition Technology estimated at US$7.7 Billion in the year 2020, is projected to reach a revised size of US$20.9 Billion by 2026, growing at a CAGR of 18.1% over the analysis period. Speech, one of the segments analyzed in the report, is projected to grow at a 16.1% CAGR to reach US$15.9 Billion by the end of the analysis period. After a thorough analysis of the business implications of the pandemic and its induced economic crisis, growth in the Voice segment is readjusted to a revised 22.6% CAGR for the next 7-year period. This segment currently accounts for a 27.8% share of the global Voice and Speech Recognition Technology market. Speech recognition technology has been developed as an approach to allow individuals to interact easily with smartphones and its applications. Growth of the speech recognition market is being driven by the extensive adoption of mobile computing technology and increasing proliferation of smartphones. Voice recognition technology is capable of analyzing speaker`s identity, by studying behavioral patterns of people, such as accent, voice pitch, speaking style, among others. Advancements in machine learning and speech technology, constantly reducing costs, and growth in processing power are all driving growth in the voice recognition market.

The U.S. Market is Estimated at $2.9 Billion in 2021, While China is Forecast to Reach $2.3 Billion by 2026

The Voice and Speech Recognition Technology market in the U.S. is estimated at US$2.9 Billion in the year 2021. The country currently accounts for a 33.2% share in the global market. China, the world`s second largest economy, is forecast to reach an estimated market size of US$2.3 Billion in the year 2026 trailing a CAGR of 21.6% through the analysis period. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at 16% and 16.4% respectively over the analysis period. Within Europe, Germany is forecast to grow at approximately 17% CAGR while Rest of European market (as defined in the study) will reach US$2.8 Billion by the end of the analysis period. In developed markets, speech technology has become the mainstay in enterprise call centers and telecommunication devices. Further, there is a growing adoption of speech technology in automobiles and in-car systems with both the US-based and European automobile manufacturers exhibiting high level of interest in the technology. Also driving market growth is the increasing adoption of speech recognition solutions in BFSI and healthcare sectors for purposes such as time and attendance monitoring. The increasing awareness about speech and voice recognition technology and the reducing cost of biometric devices are fueling market growth in Asia-Pacific region, especially in countries such as China and India.

Select Competitors (Total 192 Featured)

Story continues

[24]7.ai, Inc.

3M Company

Acapela Group

Advanced Voice Recognition Systems, Inc.

Apple, Inc.

Genesta

Genesys Telecommunications Laboratories, Inc.

Google, Inc.

Honeywell International, Inc.

IBM Corporation

LumenVox LLC

Microsoft Corporation

Nuance Communications, Inc.

Open Text Corporation

Sensory, Inc.

Sestek

Voxware, Inc.

Wizzard Speech LLC

Read the full report: https://www.reportlinker.com/p04246017/?utm_source=GNW

I. METHODOLOGY

II. EXECUTIVE SUMMARY

1. MARKET OVERVIEW Impact of COVID-19 Pandemic and Looming Global Recession 2020 Marked as a Year of Disruption & Transformation As the Race between the Virus & Vaccines Intensifies, Where is the World Economy Headed in 2021 EXHIBIT 1: World Economic Growth Projections (Real GDP, Annual % Change) for 2020 through 2022 Pandemic-Driven Need for Touchless Interactions Spurs Demand for Voice-based Technologies Amidst the Pandemic, Voice & Speech Technologies Hold Promise for Healthcare Sector MIT Researchers Use Speech Recordings to Detect Change in Voice Quality Lincoln Laboratory Conducts Research on Vocal Biomarkers Touchless.ai: A Remarkable Innovation in Touchless Space An Introduction to Voice and Speech Recognition Technology Speech Recognition Technology History of Speech Technology Types of Speech Technology Voice Recognition Technology Voice and Speech Recognition Technology: Enabling Man-to- Machine Communication Global Market Prospects & Outlook Consumer Market to Drive Gains in the Global Market Speech Recognition Leads the Voice and Speech Recognition Technology Market Voice Recognition: Poised to Witness High Growth Developed Markets Lead, Developing Regions to Spearhead Future Growth Factors Restraining Market Growth Competition EXHIBIT 2: Global Speech Recognition Software Market Breakdown of Revenues (in %) by Leading Competitors: 2020 World Brands Recent Market Activity

2. FOCUS ON SELECT PLAYERS

3. MARKET TRENDS & DRIVERS Proliferation of Multifunctional Mobile Devices & Smart Speakers Drives Market Prospects EXHIBIT 3: Smartphone Penetration Rate as Share of Total Population: 2016-2021 EXHIBIT 4: Global Market for Smartphones (in Billion) for 2016 - 2021 EXHIBIT 5: Global Smart Speakers Market Size (in $ Billion) for the Years 2019, 2021, 2023 and 2025 Growing Potential for Voice & Speech Recognition in Healthcare Sector Medicare Care Networks Embrace Voice Recognition Software Role of Voice Assistants in Healthcare Industry Key Benefits of Voice Technology for Medical Services Major Applications & Use Cases of Speech Recognition Technology for Healthcare Sector An Overview of Major Speech Recognition Applications for Various Healthcare Services and Special Needs Assistance EXHIBIT 6: Number of People with Disabling Hearing Loss (in Million) for 2019, 2030, 2040 and 2050 Closed Captioning: Providing Hearing-Impaired Access to Information Automatic Captioning Systems Come to the Aid of Hearing Impaired Intelligent Conversational Systems for Self-Care Voice Technology for Command and Control Increasing Adoption of Speech Technology in Radiology Key Challenges Confronting Adoption of Voice & Speech Technology in Healthcare Banking and Financial Services Industry Embraces Voice and Speech Recognition Technology Risk Averse Financial Institutions Turn to Voice & Speech Technology Use Cases of Voice and Speech Recognition Technology in Financial Services and Banking Sector Methodical Approach to Implement Voice Technology: An Important Consideration Voice Bots: Enabling Natural Language Recognition COVID-19 Pandemic Accelerates Shift towards Digital Banking, Presenting Growth Opportunities Banking Regulations Stress on Security Issues in Voice Technology Voice Biometrics Continues to Gain Growth in BFSI Sector Mobile Banking Applications Give Rise to Increased Demand for Voice-based Authentication EXHIBIT 7: Global Online Banking Market Size (in US$ Billion) for the Years 2019, 2021, 2023 and 2025 Virtual Assistants: Enabling a Range of Financial Services Mobile Biometrics Emerge as a Critical Solution to Address Security Challenges Rising Importance of AI Technology for Enhancing Accuracy of Voice & Speech Recognition Technology Promising Future Ahead for AI-Enabled Voice Technology AI-Driven Speech Recognition Offers Numerous Advantages for Businesses Speech-based Biometric Systems Finds Increasing Importance for Multifactor Authentication EXHIBIT 8: Financial Losses in the US Due to Internet Crime in US$ Million: 2012-2020 Potential Role in Developing Voice & Speech Recognition Software in Micro-Linguistics & Local Languages Efforts to Create Multilingual Communication Platforms Gain Momentum in India Growth of Service Robotics Boosts Use of Speech & Voice Recognition Technology EXHIBIT 9: Global Service Robotics Market: Sales in US$ Million by Geographic Region/Country for the Years 2020 and 2027 Technology Holds Prominence in Education for Disabled Students Voiced-Enabled Technologies for Speech Impaired Individuals AI-Powered Technologies for Universal Speech Recognition for the Disabled Advantages of Voice Assistants for People with Upper Limb Disabilities Growing Role of Speech & Voice Recognition Technology in Cars Rising Relevance of Digital Voice Assistants in In-Vehicle Control Systems Key features of Voice Assistance Systems for Automobiles A Glance at Select In-Car Speech Recognition Systems Auto Production Trends to Influence Market Outlook EXHIBIT 10: World Automobile Production in Million Units: 2008 - 2022 With Autonomous Cars Concept Gaining Strength, Role of Speech & Voice Recognition to Find Increased Acceptance Growing Role of Voice & Speech Recognition Technology in Retail Sector Voice Recognition-Supported Shopping to Make Strong Gains Robust Growth of e-Commerce Industry: A Potential Market Opportunity EXHIBIT 11: Global E-Commerce Market as a % of Retail Sales for the Period 2017, 2019, 2021 & 2023 Military Systems Look Towards Voice Recognition Technology for Improved Access Control U.S. Army?s ARL Develops JUDI Consumer Electronics Emerges as a Key Market for Voice Recognition Technology EXHIBIT 12: Global Opportunity for Consumer Electronics (In US$ Million) for Years 2020, 2022, 2024, 2026 and 2028 Rising Popularity of Voice-Activated Speakers Home Automation Trend Bodes Well for Voice & Speech Technology Adoption in Consumer Electronics EXHIBIT 13: Global Smart Home Penetration Rate (%): 2017-2025 EXHIBIT 14: Smart Home Penetration Rate (%) by Region/Country: 2020 Pre-Configured Voice Skill Sets for Home Automation Voice Assistants Poised for High Growth Amidst the Home Automation Trend Data Security Concerns in Voice Activation Technology Voice Assistant Technology for Enterprise: Promising Growth Ahead Use Cases of Voice Technology in Enterprises Integrating Voice Assistant into a Single System for Staff Management Constraints of Voice Assistants in an Enterprise Key Voice & Speech Recognition Products for Businesses & Enterprises Globalization & Workforce Decentralization Spur Demand in the Enterprise Sector EXHIBIT 15: Global Workforce Population: Percentage Share Breakdown of Employees by Nature of Work for 2009, 2017 & 2024 Legal Offices Look to Deploy Speech & Voice Recognition Market Speech Recognition Applications in Legal Profession Use of Dictation Machines and Beyond Need for Legal Analytics: Historical Background and Present Scenario Use of Speech Recognition Technology by Law Enforcement Agencies Automated Speech Recognition (ASR): The Widely Used Speech Recognition Technology Text-to-Speech Emerges as a Realistic, Natural Conversation Tool Rising Importance of Speech Technology in the IoT Era EXHIBIT 16: Global Number of IoT Connected Devices (In Billion Units) for the Years 2016, 2018, 2020, 2022 & 2025 Cloud-ba1sed Speech Technology Continues to Make Strong Progress Speech Recognition and the Gaming Industry Technology Trends Poised to Transform Voice Recognition Market Notable Speech Recognition Technology Trends in 2021 & Beyond Innovations & Advancements in Voice and Speech Recognition Technology Market Application of AI and Signal Processing in Diagnosing COVID-19 symptoms Usage of Vocal Biomarkers in Diagnosis of a Disease Usage of AI Based Asymptomatic Screening Tools Determining the Spread of COVID-19 using AI Technology Speech Recognition for COVID-19 Diagnosis Not Completely Reliable Technological Advancements Enhance Accuracy Advancements in Voice User Interface (VUI) Technology Voice Assistants Usage in R&D Laboratories Major Challenges Facing Market Growth Limitations of Voice Assistant Technologies Challenges Facing Speech Recognition Market

4. GLOBAL MARKET PERSPECTIVE Table 1: World Current & Future Analysis for Voice and Speech Recognition Technology by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 2: World Historic Review for Voice and Speech Recognition Technology by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 3: World 11-Year Perspective for Voice and Speech Recognition Technology by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets for Years 2016, 2021 & 2027

Table 4: World Current & Future Analysis for Speech by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 5: World Historic Review for Speech by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 6: World 11-Year Perspective for Speech by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 7: World Current & Future Analysis for Voice by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 8: World Historic Review for Voice by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 9: World 11-Year Perspective for Voice by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 10: World Current & Future Analysis for Cloud by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 11: World Historic Review for Cloud by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 12: World 11-Year Perspective for Cloud by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 13: World Current & Future Analysis for On-Premise by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 14: World Historic Review for On-Premise by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 15: World 11-Year Perspective for On-Premise by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 16: World Current & Future Analysis for Consumer by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 17: World Historic Review for Consumer by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 18: World 11-Year Perspective for Consumer by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 19: World Current & Future Analysis for Healthcare by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 20: World Historic Review for Healthcare by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 21: World 11-Year Perspective for Healthcare by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 22: World Current & Future Analysis for Automotive by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 23: World Historic Review for Automotive by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 24: World 11-Year Perspective for Automotive by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 25: World Current & Future Analysis for Retail by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 26: World Historic Review for Retail by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 27: World 11-Year Perspective for Retail by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 28: World Current & Future Analysis for BFSI by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 29: World Historic Review for BFSI by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 30: World 11-Year Perspective for BFSI by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 31: World Current & Future Analysis for Military by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 32: World Historic Review for Military by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 33: World 11-Year Perspective for Military by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 34: World Current & Future Analysis for Legal by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 35: World Historic Review for Legal by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 36: World 11-Year Perspective for Legal by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

Table 37: World Current & Future Analysis for Other End-Uses by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2020 through 2027 and % CAGR

Table 38: World Historic Review for Other End-Uses by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 39: World 11-Year Perspective for Other End-Uses by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America, Middle East and Africa for Years 2016, 2021 & 2027

III. MARKET ANALYSIS

UNITED STATES Speech Technology Market Remains Firm Voice Recognition Market for Smartphones Speech Recognition Technology: A Prominent Role in Healthcare Sector Growing Adoption of Speech Recognition Systems among Physicians Advancements in Speech Recognition Technology Augur Well for Healthcare Industry Enterprise-Wide Deployment: Key to Success of Speech Recognition Technology in Healthcare Sector Nuance Leads Radiology Speech Recognition Market Amid Growing Risks, Financial Sector Embraces Voice Biometrics Rising Demand for Speech Analytics Technology in Insurance Industry Automotive Industry Looks to Voice Recognition Technology for Improving Driver Safety Speech Recognition Technology Making Way into Air Traffic Control Market Analytics Table 40: USA Current & Future Analysis for Voice and Speech Recognition Technology by Technology - Speech and Voice - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2020 through 2027 and % CAGR

Table 41: USA Historic Review for Voice and Speech Recognition Technology by Technology - Speech and Voice Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 42: USA 11-Year Perspective for Voice and Speech Recognition Technology by Technology - Percentage Breakdown of Value Revenues for Speech and Voice for the Years 2016, 2021 & 2027

Table 43: USA Current & Future Analysis for Voice and Speech Recognition Technology by Deployment - Cloud and On-Premise - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2020 through 2027 and % CAGR

Table 44: USA Historic Review for Voice and Speech Recognition Technology by Deployment - Cloud and On-Premise Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 45: USA 11-Year Perspective for Voice and Speech Recognition Technology by Deployment - Percentage Breakdown of Value Revenues for Cloud and On-Premise for the Years 2016, 2021 & 2027

Table 46: USA Current & Future Analysis for Voice and Speech Recognition Technology by End-Use - Consumer, Healthcare, Automotive, Retail, BFSI, Military, Legal and Other End-Uses - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2020 through 2027 and % CAGR

Table 47: USA Historic Review for Voice and Speech Recognition Technology by End-Use - Consumer, Healthcare, Automotive, Retail, BFSI, Military, Legal and Other End-Uses Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 48: USA 11-Year Perspective for Voice and Speech Recognition Technology by End-Use - Percentage Breakdown of Value Revenues for Consumer, Healthcare, Automotive, Retail, BFSI, Military, Legal and Other End-Uses for the Years 2016, 2021 & 2027

CANADA Market Overview Market Analytics Table 49: Canada Current & Future Analysis for Voice and Speech Recognition Technology by Technology - Speech and Voice - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2020 through 2027 and % CAGR

Table 50: Canada Historic Review for Voice and Speech Recognition Technology by Technology - Speech and Voice Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 51: Canada 11-Year Perspective for Voice and Speech Recognition Technology by Technology - Percentage Breakdown of Value Revenues for Speech and Voice for the Years 2016, 2021 & 2027

Table 52: Canada Current & Future Analysis for Voice and Speech Recognition Technology by Deployment - Cloud and On-Premise - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2020 through 2027 and % CAGR

Table 53: Canada Historic Review for Voice and Speech Recognition Technology by Deployment - Cloud and On-Premise Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 54: Canada 11-Year Perspective for Voice and Speech Recognition Technology by Deployment - Percentage Breakdown of Value Revenues for Cloud and On-Premise for the Years 2016, 2021 & 2027

Table 55: Canada Current & Future Analysis for Voice and Speech Recognition Technology by End-Use - Consumer, Healthcare, Automotive, Retail, BFSI, Military, Legal and Other End-Uses - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2020 through 2027 and % CAGR

Table 56: Canada Historic Review for Voice and Speech Recognition Technology by End-Use - Consumer, Healthcare, Automotive, Retail, BFSI, Military, Legal and Other End-Uses Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 57: Canada 11-Year Perspective for Voice and Speech Recognition Technology by End-Use - Percentage Breakdown of Value Revenues for Consumer, Healthcare, Automotive, Retail, BFSI, Military, Legal and Other End-Uses for the Years 2016, 2021 & 2027

JAPAN Table 58: Japan Current & Future Analysis for Voice and Speech Recognition Technology by Technology - Speech and Voice - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2020 through 2027 and % CAGR

Table 59: Japan Historic Review for Voice and Speech Recognition Technology by Technology - Speech and Voice Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 60: Japan 11-Year Perspective for Voice and Speech Recognition Technology by Technology - Percentage Breakdown of Value Revenues for Speech and Voice for the Years 2016, 2021 & 2027

Table 61: Japan Current & Future Analysis for Voice and Speech Recognition Technology by Deployment - Cloud and On-Premise - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2020 through 2027 and % CAGR

Table 62: Japan Historic Review for Voice and Speech Recognition Technology by Deployment - Cloud and On-Premise Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 63: Japan 11-Year Perspective for Voice and Speech Recognition Technology by Deployment - Percentage Breakdown of Value Revenues for Cloud and On-Premise for the Years 2016, 2021 & 2027

Table 64: Japan Current & Future Analysis for Voice and Speech Recognition Technology by End-Use - Consumer, Healthcare, Automotive, Retail, BFSI, Military, Legal and Other End-Uses - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2020 through 2027 and % CAGR

Table 65: Japan Historic Review for Voice and Speech Recognition Technology by End-Use - Consumer, Healthcare, Automotive, Retail, BFSI, Military, Legal and Other End-Uses Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

Table 66: Japan 11-Year Perspective for Voice and Speech Recognition Technology by End-Use - Percentage Breakdown of Value Revenues for Consumer, Healthcare, Automotive, Retail, BFSI, Military, Legal and Other End-Uses for the Years 2016, 2021 & 2027

CHINA China: Lucrative Market for Voice Technologies iFlytek Strives to Solidify its Leadership in Voice Recognition Market Competition EXHIBIT : Leading Players in the Chinese Speech Recognition Market (2020): Percentage Breakdown of Revenues for Apple, Baidu, iFlytek, Nuance and Others Market Analytics Table 67: China Current & Future Analysis for Voice and Speech Recognition Technology by Technology - Speech and Voice - Independent Analysis of Annual Revenues in US$ Thousand for the Years 2020 through 2027 and % CAGR

Table 68: China Historic Review for Voice and Speech Recognition Technology by Technology - Speech and Voice Markets - Independent Analysis of Annual Revenues in US$ Thousand for Years 2016 through 2019 and % CAGR

See the original post:

Global Voice and Speech Recognition Technology Market to Reach US$20.9 Billion by the Year 2026 - Yahoo Finance