TechHub: Industry 4.0 and the C-suite, AI and Big Data in 2018 & More

The Problems Industry 4.0 is Solving for the C-suite

Industry 4.0 generates a lot of hype — making it easy to forget the essential purpose of implementing the technology; running and growing the business.

C-suite executives rarely interact directly with this smart tech, but that doesn’t make it any less vital for businesses, according to Forbes.

It improves customer service, achieves operational efficiencies, innovates for the future, reduces risk, meets standards and regulations while improving company management. Let’s not forget the most important challenge — meeting the expanding demand for increased agility, speed, predictability and quality.

The demand never ends, creating an arms race to serve the customer the way they want while maintaining cost-effective production.

“What used to take generations is happening at a very rapid pace now,” says Erik Nistad, director of ITS for Mondelez International, in Forbes.

As a consumer products company, Mondelez must produce different products in different packages to serve different customers throughout the globe – all with the same high quality, he says.

In China, for example, customers want green tea-flavored Oreos. In developed countries, the company sells big packages of cookies; in developing countries, it sells smaller packages to customers with less discretionary income.

Meeting that variation drives the need to do localization and customizations. What was previously a “black box” to the C-suite, the factory is now the core in a demand-driven supply chain. Plants are more predictable, reliable and responsive in order to meet the needs of a changing market.

New approaches to product development are now possible thanks to digital transformation, creating an intelligent infrastructure that seamlessly connects design, manufacturing, automation and the supply chain.

Learn more about Industry 4.0 and starting your digital transformation.

Penn State’s Smart University Transformation: Webinar News

Large universities in the U.S. are faced with the increasingly emergent problem of updating their building’s aging infrastructure, with many campuses housing buildings built in the 1800’s.

Digital JourneyAs the 10th largest university in the U.S., Pennsylvania State University is a highly competitive institution. When it came time to upgrade their dated infrastructure across their expansive campus, the stakes were high.

Resources were right and the project couldn’t wait, forcing the Penn State IT and Plant Services departments to put a plan in action — fast.

Join GrayMatter and Tempered Networks on January 11, 2:00 PM EST for a webinar that will take attendees through the project details.

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5 Ways Big Data & AI Will Impact 2018

Companies dominating the life sciences world have begun to embrace the opportunities of Big Data & AI, with predictions to really make a difference in 2018.

Notable progress in drug development and the quality of insights produced at the research stage are a result, however opportunities to utilize the data for larger gains continues to grow, according to Forbes.

Here’s five major ways Big Data and AI will impact life sciences in 2018:

industry 4.0

One

The environment in the US will be increasingly hostile to high drug prices. This will make it essential for life science firms to defend their research budgets and profit margins by utilizing robust data and clearly demonstrate the value of their products.

industry 4.0

Two

Life science firms have had a hard time improving the speed and quality of bi-directional learning between patients and the drug discovery process due to poor data access and quality issues. As new best practices in data strategy are created, the industry continues to move towards the value unlocked by such translational medicine to accelerate.

industry 4.0

Three

Risk and inefficiencies continue to be life science supply chains’ biggest challenge. The employment of new technologies, such as blockchain, offers the potential to radically improve levels of control and quality measurements. Overall costs for infrastructure dramatically reduce as a result.

industry 4.0

Four

New branches of science are deepening our knowledge of genomics — the study of structure, function and mapping of DNA/ genes — creating opportunities for utilizing AI to gain previously impenetrable insights. Although still at the research stage, it’s predicted these techniques will impact fields such as oncology.

industry 4.0

Five

With all of the different fields of study opening up, at the end of the day the most important is the economical impact. Accessing and analyzing the right data to deliver sustainable business value remains the central purpose for life science firms.

Whatever the coming year holds, one thing is beyond doubt: Exciting new ways to create value and improve patient care await those firms willing to exploit the data tools and techniques that are now emerging.

TechHub: Budweiser & SpaceX making beer for space, holographic 3D printing & manufacturing news

SpaceX and Budweiser making beer for space

When man reaches Mars, Budweiser wants to make sure there will be beer.

The Anheuser-Busch beer is backing a research project for SpaceX to send barley seeds — one of beer’s key ingredients — on a round trip mission to space.

3d printing

source: Anheuser-Busch

This marks the first step in research to aid their goal of creating beer on Mars.

There will be analysis of how the seeds react once exposed to a zero-to-low gravity environment, and whether they will germinate, according to the Washington Post.

The experiment will add insight on the production of barley and how to better grow crops back on Earth.

Mike Roberts, the deputy chief scientist at Cape Canaveral’s Air Force station, manages the station’s research lab and vets which cargo is worthy of making the risk and expensive voyage to space.

“With global warming and other things coming our way, there’s drastic changes for our access to nutrients,” he said to CNN Tech.

The barley seeds will stay at the space station for one month before being sent home for analysis.

Budweiser has several other logistical and physical challenges to overcome such as brewing a beer that’s 90% water on a planet that’s low on water and high in salt — resulting in a bitter product.

Another challenge is growing hops on the Red Planet, where sunlight isn’t as abundant. Also, the experience of drinking beer would differ than on Earth — altering taste.

The good news is NASA’s goal is to send humans to Mars by the 2030s, giving Budweiser more than a decade to figure it all out.

The launch is set for Friday, Dec. 15 at 7:35 AM PST / 9:35 CT / 10:35 EST.

View a live stream of the launch below:


Holographic 3D printing produces objects in seconds, not hours

3D printing has advanced manufacturing, medical research and countless other fields. Despite these breakthroughs, the tech has one prominent flaw: the time it takes to produce their designs.

Additive manufacturing works by creating an object in microscopic layers, one at a time, sometimes taking hours or days to complete.

A new holographic printing technique cuts this time into a fraction, creating the entire design in seconds, says TechCrunch.

3d printing

Weak beams of light work to intersect in a predetermined pattern in holographic 3D printing. Source: TechCrunch

Light-based 3D printing techniques typically use lasers to cause a layer of resin to harden in the shape of the desired design, but also layer by layer.

Instead, the newly innovated holographic 3D printing shines multiple weaker lasers through the resign, which aren’t powerful enough to cure unless they all intersect.

The technique carefully overlaps weak beams of light, sound or radiation to expose a chosen volume to a critical amount while leaving other areas largely untouched, according to the article.

The advantages to this are being able to produce structures with other structures moving inside of them, like gears in a gearbox. It also allows for the printing of multiple objects simultaneously — like a bunch of dice.

Commercial applications for this technology are still a ways away, but it’s a big step in the right direction for 3D printing.

Manufacturing boom soaring into 2018

2017 was a great year for manufacturing, and according to experts 2018 will continue to drive even more growth, capital spending and hiring for the industry.

The Tempe-based Institute for Supply Chain Management, who surveys manufacturing and executives on sentiments towards the economy, said their latest survey data shows expectation of growth next year, according to the Phoenix Business Journal.

“Manufacturing purchasing and supply executives expect to see growth in 2018. They are optimistic about their overall business prospects for the first half of 2018, with business continuing to expand through the second half of 2018,” said Timothy Fiore, chair of the ISM Manufacturing Business Survey Committee.

This momentum would extend the current economic expansion that began in mid-2009 after the last recession and real estate crash.

Economic sentiment has helped stock markets a series of record highs this year. The Dow Jones Industrial Average and S&P 500 both closed up Monday hitting all-time highs of 24,386.03 and 2,659.99, respectively, according to CNBC.

TechHub: World’s largest battery built from a bet, the future landscape of innovation & bitcoin news

Tesla builds world’s largest battery, thanks to a bet

Elon Musk bet the people of Australia he could build a 100MW battery in 100 days or it would be free, according to CNET. Tesla not only accomplished it, but had about 40 days to spare. The South Australian government announced last week the completion of the world’s largest lithium-ion battery just outside of Jamestown, with plans to be energized within days.

The battery was a result of a bet via Twitter in March between Tesla CEO Elon Musk and fellow billionaire Mike Cannon-Brookes after a series of major power outages across South Australia, including a state-wide blackout that affected an area the size of France at the end of 2016.

Musk made good on his promise, flying to Australia and signing a contract at the end of September 2017.

The 100MW lithium-ion battery is made up of Tesla Powerpacks, connected to a nearby wind farm.

The battery will undergo a testing phase within the next couple weeks to ensure it meets regulations, but things are looking good for Australians.

The future landscape of innovation

The 20th century brought us a continuous stream of co-innovation — a culture of robust research and development that resulted in a cornucopia of products with real longevity. From vacuum cleaners and ballpoint pens to jet engines and nuclear power reactors, it was topped off with the powerful computing technology that culminated from the creation of the internet, according to the Manufacturer.

Now looking at present time in the 21st century, the pace of change is arguably faster than at any time in history, ultimately because of digitization.

It’s no longer the norm to develop a product behind a locked door in secrecy, but rather in a diverse ecosystem including many parties in order to master product development. Now more than ever the need to collaborate and join forces for survival is clear — and here’s why.

Disparate data

A per-requisite for innovation in the digital age is the availability of data, and the ability to transform it into insight. It’s dependent on being able to reliably collect and analyze data on a continual basis, growing more important every day. Many companies can’t maintain this on their own, so the necessity to co-innovate solutions by working together is pertinent.

Ideate to accumulate

Encouraging employees to act more like entrepreneurs can establish a culture of innovation and co-creation within a company itself. By bringing together employees from across functions and engaging with them, it creates an internal innovation program, helping unleash the full potential and talent of employees.

Disruption waits for no-one

The digital age has already caused several market disruptions, causing manufacturers to start seeking to disrupt themselves before somebody does it for them. A desire to create game-changing solutions rather than incremental improvements has been ignited in many boardrooms rather than conversations of cost-cutting. Yet, driving digitization into supply chains is nearly impossible to achieve without collaboration.

The journey

The path towards successful co-innovation isn’t always a straightforward one. Oftentimes, it’s more about the journey than the final destination. It involves a combination of trust, contractual agreements, information security policing and common sense to make it work. Rapid prototyping cycles are reliant on constant and near-immediate feedback, with all parties integral to the process.

Co-innovation, when done right, has rewards that are worth the effort. With the rise of consumer expectations and macro-environmental factors continuing to challenge manufacturers, it’s becoming increasingly obvious that safety and inspiration comes in numbers. Interested in co-innovating with GrayMatter? Let’s talk.

One bitcoin is now worth over $11,000

The value of cryptocurrencies has skyrocketed 2,174% throughout 2017, with bitcoin representing over half of the total market cap. A new milestone was hit as the value of bitcoin has shot up from $8k to $10k in just eight days, taking the internet by storm.

Just 24 hours after this was announced, its value has shot up to over $11k, said the Coin Telegraph. No asset has ever risen in such a short amount of time, according to TechCrunch. This is leading to speculations of the beginning of a trillion dollar industry, and the biggest thing to happen in technology since the internet was invented.

Source: Coin Telegraph

Yet, despite not being able to open Twitter or turn on the news without hearing about bitcoin, it has a low number of adopters. Many are still clueless about what a bitcoin is, what it does or how to purchase one, including those on Wall Street. The future for bitcoin is still uncertain, being apart of a new and unexplored aspect of digital cryptocurrency.

It could eventually replace gold and all other monetary means, or it’ll crash to zero tomorrow; who knows?

TechHub: The Year of Cyber Disasters, Manufacturing Technology Orders Back on Track & More

Ending 2017 Strong: Manufacturing Technology Orders Back on Track

Manufacturing technology orders in September continued their upward trend, ending the third quarter on a strong note, according to Industry Week.

The rise in orders in September surprised some analysts, who had expected orders to remain weak until December.

“Manufacturers are concerned about Washington’s impact on economic growth and pace of technological change, as well as the general evolution in technology. It is necessary for companies to invest in current technologies to stay competitive, but they’re doing so at a moderate pace,” said Doug Woods, President of the Association for Manufacturing Technology.

Regionally, the North Central West, Southeast and Northeast regions as reported by USMTO benefited from strong activity in contract machining shops, forging and stamping, automotive, and consumer electronics. Notably, orders from the consumer electronics and computers sector were up 132% nationally.

The key leading indicators for manufacturing technology are positive, leading analysts to believe there will be an acceleration in orders at the close of 2017.

The Year of Cyber Security Disasters

2017 was the year of industrial cyber attacks.

Ransomware crippled hospitals in the U.K., hit U.S. pharmaceutical company Merck, infiltrated Russian oil giant Rosnoft, shut down Ukrainian power grids and more.

Special Agent Keith Mularski, Unit Chief of the FBI Cyber Initiative & Resource Fusion Unit, spoke at GrayMatter’s annual conference on industrial cyber security.

Operational technology is at a risk in the digital age now more than ever before.

According to Gartner, “the number one issue in vulnerability management is that organizations are not prioritizing their patching and mitigating controls, nor are they mitigating the exploitation of commonly targeted vulnerabilities.”

Companies are struggling to find the common ground between “what can I fix” and “what will make the biggest difference in the time and resources I have.”

The answer: a risk-based approach.

CyberX’s ICS Attack Vector Prediction technology combines a deep understanding of industrial protocols, devices and applications with:

  • ICS-specific asset discovery
  • Continuous real-time monitoring and incident forensics
  • Risk and vulnerability management
  • Threat intelligence

“It helps business leaders and OT personnel quickly understand the top threats to their most critical industrial assets, and how to most efficiently reduce their top risks.”

This unique approach reduces complexity by addressing all four requirements of Gartner’s Adaptive Security architecture — Prediction, Prevention, Detection and Response — in a single, holistic platform.

“Our customers are often concerned about what they don’t know. CyberX’s Attack Vector Prediction technology allows them to predict and visualize scenarios for real-time planning of operational cyber strategy,” said Jim Gillespie, CEO of GrayMatter.

Learn more about implementing a predictive cyber approach

About CyberX

CyberX provides the most widely-deployed industrial cybersecurity platform for continuously reducing ICS risk. Supporting all OT vendors and seamlessly integrating with existing IT security tools, CyberX’s platform combines a deep understanding of industrial protocols, devices, and applications with ICS-specific asset discovery, continuous real-time monitoring and incident forensics, risk and vulnerability management, and threat intelligence.

GrayMatter VP on OT Cyber Security at 2017 ARC Industry Forum

GrayMatter VP Kemell Kassim speaks to Sid Snitkin, VP of Enterprise Advisory Services of ARC Advisory Group, during the 2017 ARC Industry Forum in Orlando, FL.


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