New diagnostic tools leverage the power of Artificial Intelligence. Too Much Data to Process By 2030 all Baby Boomers will be over 65, which means that health-related issues become more and more top-of-mind for this aging population. Regular cancer screenings are one of these concerns. The sheer volume of such screenings already taxes existing healthcare systems. However, laboratories, diagnostic technicians, and healthcare providers are using powerful new technological tools to aid them in the work of helping patients live happier & healthier lives. One such tool is Artificial Intelligence, commonly referred to as AI. Unlike its counterparts depicted in the movies as sentient neural networks whose sole purpose is to destroy humanity, real AI has been a computing and data processing resource staple for decades. AI is as quotidian as the electric power grid and supermarkets. Everything from predictive weather modeling to aid meteorologists to CAD-based generative design for engineers, AI has proven to be a powerful tool for many industries in an everyday capacity. In the case of healthcare, data modeling and data processing have become synonymous with AI-driven environments capable of handling such massive volumes. Take for example liquid biopsies to better predict infant cancers. The data associated with these tests are referred to as high-throughput data. Making connections is essential between high-throughput data on orders of magnitude within a smaller outcome sample space of patient responses. The results of these AI-driven computations expedite determinations on whether or not they have cancer. Statistical models are useful for summarizing and describing variations to predictive models, and machine learning AI leverages these summaries that can make for more useful predictions, as seen above. Imaging for Data Collection and AI Processing From X-Rays, to CT (CAT) Scans, to MRIs, in vivo imaging technology has been one of the most powerful medical...
technology
-
-
Blockchain described in one sentence: A blockchain is really a kind of database that’s shared across loads of different computers that are each running the same software; each bit of data is secured using some complicated bits of cryptography that means that only people that are meant to be adding to or editing the data can do that job. WIRED Magazine, 2018 Recently, I had a job interview with a company that builds their business model on providing add-on services for their customers’ databases built upon the open source centralized DB platform known as PostgreSQL. Probably the reason why I was considered to do digital copywriting for them is my previous experience writing for tech companies like PTC, Satcon, and L-1 to name a few. For PTC, I did a ton of writing for their PLM Product Marketing Group. PLM (i.e. product lifecycle management) is a massive technology platform and manufacturing methodology that relies heavily on data-driven digital thread content, product data management, and databases to name a few. So as you can see, I know a thing or two about databases. Also, I have written about Blockchain Technology (or BlockTech as I will be using this portmanteau from now on) in the past; therefore, I am well aware of the hot new trends for this distributed cutting-edge decentralized data-repository/processing platform. During the interview, I asked a simple question: How is your approach to utilizing a centralized DB value-add over the hot new decentralized DB technology trend known as Blockchain? Digital Batman’s Alter Ego, Nick, 2021 Needless to say, the developer that I was interviewing with did not really like the question all that much. His answer was more defensive rather than enlightening: “…centralized DBs are not going away anytime soon, so people need to understand that Blockchain is more like a curiosity right...
-
If you’re like many of the millions of American parents who have been directly affected by the Global COVID-19 Pandemic beginning in the United States around early 2020, then you understand the challenges and frustrations that have invariably come with remote learning for your kids. Virtually, in the blink of an eye, parents went from breadwinners and caregivers to homeschoolers and the resident IT help desk. The latter being no easy chore even for actual IT professionals! When the pandemic first hit here in The Bay State, schools immediately closed. In my family’s town, it was on Friday, March 13th. How apropos! First, there was two weeks off for kids as the school system attempted to figure out how to go forward with a remote learning model that had not existed in any appreciable form before for the grade schoolers. Needless to say, it was a bit of an expected technical challenge. Most of the work assigned to our kids were in the form of review material with no appreciable new materials being taught. Couple that with technological challenges almost equal to the quest of how to lockdown that states, test, trace, and develop a vaccine all to fight COVID-19. As well as, Congress figuring out a way to help small businesses and individuals alike with some form of comprehensive COVID relief package. So many things were happening at once. And providing some kind of technology equity for lower-income students to have both Internet bandwidth along with a working Internet-capable computer (most likely a Chromebook laptop) was also part of that challenge. This was because it quickly became evident that students were going to be staying home and learning remotely—to the end of 2020, and most likely hybrid (remote and in-person combo) until the end of the 2021 school year...
-
February 15, 2021In honor of Super Bowl LV and the Tampa Bay Buccaneers’ win over the Kansas City Chiefs (and former New England Patriots quarterback Tom Brady’s 7th Super Bowl ring as the QB for the Bucs), I thought it would make for an interesting post about how that magic 1st and 10 yellow line is created on our TV screens every February at “The Big Game!” And, during every game in the NFL among other sports broadcasts. The names of: James R. Gloudemans, Richard H. Cavallaro, Jerry N. Gepner, Stanley K. Honey, Walter Hsiao, Terance J. O’Brien, and Marvin S. White are the Men Behind the Yellow Line. That is, the yellow First Down Line you see on NFL broadcasts! What started out as project for Fox Sports to aid viewers watching NHL games over the airwaves blossomed into a new company called Sportvision, Inc. And in 1998 they debuted the First and 10 Line on ESPN. Using a combination of field cameras, 3D models of the field, powerful computers and algorithms, and the field itself as a kind of green screen, they are able to draw the line in virtual real‐time as the players move up and down the field; as well as, simultaneously remove parts of the line to make it appear that it is literally underneath the players. It’s truly digital magic! It was a such a huge success that Sportvision won an Emmy for its technology. “Winning our 10th Emmy Award is a great honor, and truly validates the impact our technology has had in the growth and popularity of a wide spectrum of sports. We are thrilled to share this Emmy with the America’s Cup Event Authority, who has been a wonderful and inspired partner throughout this effort.” Mike Jakob, President, Sportvision, Inc., 2012 They then...
-
June 14, 2020I’m sure that you’ve all seen those crazy videos on YouTube of dogs being left alone in their homes with a GoPro camera attached to them. They invariably end up getting into all kinds of mischief while their owners are away. And of course, the dog gives a, “I didn’t do it…” look that always melts their humans’ hearts. GoPro, Inc. themselves is one of those hugely successful companies that were borne out of a simple idea from a completely unrelated event. A guy by the name of Nick Woodman (hmm, Digital Batman’s alter ego’s name is Nick) back in 2002 was out surfing one day in Australia. He was hoping to capture some awesome action photos while riding the waves but was unable to because no amateur photographer had neither the affordable equipment nor the experience to get close enough for the really good shots. So was borne the idea of a high resolution, incredibly compact, and easy‐to‐use camera that could go anywhere and take any kind of action shot—and eventually action video. Not only have GoPro’s have been put on mischievous dogs but they’ve been everywhere from attached to flying drones getting impossible aerial shots (now used in motion picture productions), to spelunking and sky diving, and even into space—as one little girl did a few years ago onboard a Hello Kitty‐crewed rocket (see the Best of them All vid to the right)! This company has grown incredibly fast since 2002 and sports a huge line of products that have literally transformed the digital photography and videography landscapes! We’re building solutions that enable people to capture and share life experiences…and as a result GoPro is growing virally via content creation and sharing. ~ Nick Woodman, CEO of GoPro, inc. GoPro, Inc. received the Technology Emmy for 2013 from...
-
March 18, 2020Recently, Jim Heppelmann (President and CEO of PTC, the company I currently work for) was featured in an article in the Boston Globe talking about PTC’s exciting move to the Boston Seaport, A.K.A. The Innovation District. The article also featured the story of how Boston’s Mayor, Marty Walsh, came to PTC for a visit and spoke to the employees at one of our famous socials. He praised the company and the employees for making the move to Boston’s newest up and coming hub for business and cultural innovation! And the seaport is pretty much an amazing new innovation district at that—especially with all the incredible simultaneous construction projects going on down there. However, it might be interesting to take quick walk down memory lane to reminisce about Boston’s other innovation districts, of the past. Let’s go all the way back to Colonial times. Over by where North Street meets Moon Street is Paul Revere’s House. This historical landmark is located in Boston’s North End district, now synonymous with the Italian-American community. However, back in the late 17th Century, this area was well known for it’s silversmiths (like Paul Revere, an innovator of his time), blacksmiths, artisans, journeymen, and laborers. For a city that was founded in 1630, this part of Boston became its innovation district of that time. Fast forward through the Industrial Age which affected the entire world, Boston included, and you will see that another innovation district presented itself. This time on the Boston waterfront known as Boston Harbor—part of which is where today’s Boston Seaport Innovation District now resides. For over two hundred years, Boston Harbor, which compromises all the famous Boston wharves such as Long Wharf, Rowes Wharf, Fish Pier, Commonwealth Pier, and Union Wharf to name a few, were the gateways to shipping, railroads, international commerce, jobs, markets, construction, and of course innovation. Without the wharves of the 18th and 19th Centuries, Boston could not have grown...
-
January 1, 2020With the 34th anniversary of the Space Shuttle Challenger disaster this past Tuesday, I thought it would be fitting to pay tribute to Christa McAuliffe as the first teacher in space who perished on that fateful day back in 1986. And, I thought it would also be fitting to include Sally Ride, America’s first woman astronaut. Both are Progressive Pioneers who advanced space exploration for generations of future American female astronauts, young women everywhere. Here are their stories: Sharon Christa McAuliffe (A.K.A. Christa) is famously known for being chosen as America’s first teacher in space. Though, she never made it into space due to a tragic accident involving the Space Shuttle Challenger 73 seconds into liftoff on January 28, 1986. Despite the loss of McAuliffe and the other six crewmembers aboard the space craft, which is regarded as a national tragedy, McAuliffe’s life is celebrated and honored all across the country. Schools, scholarships, documentaries, and more have all been named in her honor. She has inspired whole generations of kids since that fateful day to reach for the stars and to achieve their dreams. McAuliffe was born in Boston on September 2, 1948. Her father, Edward Christopher Corrigan was an accountant of Irish descent, and her mother, Grace Mary Corrigan, was a teacher of Lebanese Maronite descent. McAuliffe received a bachelor’s degree in Education from Framingham State College and a master’s degree in Education (supervision & administration) from Bowie State University. She married Stephen J. McAuliffe in 1970, with whom she had two children, Scott and Caroline. She eventually took a teaching job Concord High School (Concord, NH), where she would eventually apply for President Ronald Reagan’s Teacher in Space Project for NASA. Out of 11,000+ applicants, she and teacher Barbara Morgan were the final two chosen in 1985, with McAuliffe earning the top spot. Both McAuliffe and Morgan took a year’s leave of absence to train for the space shuttle mission...