By George Bradt – Most understand the need to follow up and monitor progress on a theoretical level. Yet there are few guidelines to how frequently you should do that. Let me suggest that varies by the nature of what you’re monitoring, ranging from daily or even more frequently for tasks to annually for strategic plans.
Ben Harkin discussed the value of monitoring and reporting in the Psychological Journal. His headline is “Frequently Monitoring Progress Toward Goals Increases Chance of Success” – especially if you make the results public. While he was more focused on personal habits and goals, the findings are applicable to organizational behavior as well.
Here’s my current best thinking on the right frequency of monitoring. The main discriminant is the nature of the work and level of people doing the work with tighter, more frequent monitoring of tactical efforts and looser, less frequent monitoring of more strategic efforts.
- Daily or more frequently – Tasks
- Weekly – Projects
- Monthly – Programs
- Quarterly – Business Reviews, adjustments
- Annually – Strategic/Organizational/Operational processes
Posted in Book review, Business, How to, Leadership, Product, Science, Technology
Tagged Business improvement, Leadership, monitoring, Organization, Productivity, Technology, Test & measurement
Industrial Medicine: Cell Therapy Scales Up
By Maggie Sieger – Cell therapy is a new way to treat serious diseases like cancer by extracting living cells from a donor or a patient, changing them so they can recognize and attack diseased cells or deliver treatment, and returning them to the patient’s body. But manufacturing the cells is a costly and time-consuming endeavor. A single dose can cost hundreds of thousands of dollars to make.
That’s because in the more than 900 ongoing regenerative medicine trials worldwide — a 19 percent jump since 2016 — researchers generally manufacture each patient’s dose of bio-engineered cells by hand. The individualized nature of cell therapy makes it not only prohibitively pricey, but also difficult to scale into commercial production.
That hasn’t been a problem while cell therapy was still confined to research labs. But as medical science advances and regulators approve a growing numbers of modified cell therapies for general use, handcrafting doses won’t be enough. “It’s relatively easy to do 15 or 20 doses by hand, but it’s nearly impossible to efficiently make thousands,” says GE Healthcare’s Aaron Dulgar-Tulloch, director of cell therapy research and development at the Centre for Advanced Therapeutic Cell Technologies (CATCT) in Toronto.
One way to speed the process is GE Healthcare’s FlexFactory for cell therapy. Cellular Biomedicine Group Inc. (CBMG) will be the first company to install this closed, semi-automated system for manufacturing bio-engineered cells in its Shanghai plant and use it to create cell therapies to treat various blood and solid tumor cancers. more>
Posted in Business, Economic development, Economy, Education, Healthcare, Nature, Science, Technology
Tagged Business improvement, Cancer, Cell therapy, GE, Health, Manufacturing
Making Waves: GE Unveils Plans To Build An Offshore Wind Turbine The Size Of A Skyscraper, The World’s Most Powerful
By Tomas Kellner – These turbines come with a 12-megawatt generator sitting 150 meters above the waves. Each will be capable of powering 16,000 homes and producing 67 gigawatt-hours per year, based on wind conditions on a typical German North Sea site — that’s 45 percent more energy than any other offshore wind turbine available today.
“We asked ourselves ‘What is the biggest rotor we would still feel comfortable with?’ and then we pushed ourselves some more,” Vincent Schellings recalls. “From a technology perspective, it seems like a stretch. But we know it’s doable. The beauty of the turbine is that it gives an edge over the competition. There’s nothing like this. Not even close.”
The size matters. The huge rotor allows the engineers to catch a lot more wind and ramp up what the industry calls “capacity factor.” This number describes the amount of power the turbine can produce per year at a given site, versus the energy it could have generated had it run full power all the time.
GE’s Haliade-X clocks in at 63 percent, “five to seven points higher than the competition,” Schellings says. “Basically, every point of capacity factor is worth $7 million per 100 megawatts for our customers. That’s a nice upside.” more>
Posted in Business, Economy, Energy, Nature, Science, Technology
Tagged Business improvement, Climate change, GE, Renewable energy, Technology, Turbine
Robot Monitors Chicken Houses and Retrieves Eggs
By John Toon – “Today’s challenge is to teach a robot how to move in environments that have dynamic, unpredictable obstacles, such as chickens,” said Colin Usher, a research scientist in GTRI’s Food Processing Technology Division.
“When busy farmers must spend time in chicken houses, they are losing money and opportunities elsewhere on the farm. In addition, there is a labor shortage when it comes to finding workers to carry out manual tasks such as picking up floor eggs and simply monitoring the flocks. If a robot could successfully operate autonomously in a chicken house 24 hours a day and seven days a week, it could then pick up floor eggs, monitor machinery, and check on birds, among other things. By assigning one robot to each chicken house, we could also greatly reduce the potential for introductions of disease or cross-contamination from one house to other houses.”
The autonomous robot is outfitted with an ultrasonic localization system similar to GPS but more suited to an indoor environment where GPS might not be available. This system uses low-cost, ultrasonic beacons indicating the robot’s orientation and its location in a chicken house. The robot also carries a commercially available time-of-flight camera, which provides three-dimensional (3D) depth data by emitting light signals and then measuring how long they take to return. The localization and 3D data together allow the robot’s software to devise navigation plans around chickens to perform tasks. more>
- Real-Time Captcha Technique Improves Biometric Authentication, John Toon
- Data Detectives Shift Suspicions in Alzheimer’s from Usual Suspect to Inside Villain, Ben Brumfield
- Why Bees Soared and Slime Flopped as Inspirations for Systems Engineering, Ben Brumfield
- Asteroid “Time Capsules” May Help Explain How Life Started on Earth, John Toon
- Georgia Tech Trio Selected to National Academy of Engineering, Jason Maderer/Kay Kinard
- Successful SpaceX Launch Clears Way for Historic Georgia Tech Spacecraft, Jason Maderer
- Hatchet Enzyme, Enabler of Sickness and of Health, Exposed by Neutron Beams, Ben Brumfield
- Neurons Get the Beat and Keep It Going in Drumrolls, Ben Brumfield
- Yeast Assay Helps Reveal Genesis of Amyloids and Prions, A. Maureen Rouhi
- Self-assembled “Hairy” Nanoparticles Could Give a Double Punch to Cancer, John Toon
- Manufacturing Disaster Assistance Program to help Georgia companies prepare for natural disasters, Ben Cheeks
- Disclosing Weaknesses Can Undermine Some Workplace Relationships, Josh Brown
- Maelstroms in the Heart Confirmed
- The Next Frontier in Mechanical Engineering, Georgia Parmelee
- Air Force Grant Enables Quantum Simulation Using Cold Atoms, A. Maureen Rouhi
Posted in EARTH WATCH, Education, Energy & emissions, Healthcare, Nature, Net, Science, SPACE WATCH, Technology
Tagged Broadband, Business improvement, Climate change, Earth, Health, Industrial economy, Physics, Productivity, Technology
By Andrew Rush – Just as the early railroads transformed the American West and spurred an economic boom across our then young nation, commercial activity in space is blossoming. Expansion of these activities, especially in-space manufacturing, will expand human activity outward and lead to new American economic booms. While the promise of commercial activities in space may be as vast as the promise of the American West, actions must be taken now in order to stay on the path of converting this promise to economic value.
Much of our current progress in space-based operations such as manufacturing can be credited to the multibillion dollar investment in the creation of International Space Station (ISS) and the designation of the U.S. segment of ISS as a National Lab for conducting space-based research for economic development in Low Earth Orbit (LEO).
With the direct U.S. support of the ISS proposed to end in the 2025 timeframe, there’s an industry imperative to scale up and accelerate planning for transition from ISS to commercial space stations or other Private-Public Partnership (PPP) models.
If action is not taken, investment in the ISS and the ISS National Lab, private investment in ISS-based activity, and budding space-based products and services will be wasted. more>
Posted in Broadband, CONGRESS WATCH, Economic development, Economy, Education, History, Science, SPACE WATCH, Technology, Transportation
Tagged Business improvement, Capital, Government, Industrial economy, International Space Station, Manufacturing, Technology, United States
Many doctoral curricula aim to produce narrowly focused researchers rather than critical thinkers. That can and must change.
By Gundula Bosch – Under pressure to turn out productive lab members quickly, many PhD programs in the biomedical sciences have shortened their courses, squeezing out opportunities for putting research into its wider context. Consequently, most PhD curricula are unlikely to nurture the big thinkers and creative problem-solvers that society needs.
That means students are taught every detail of a microbe’s life cycle but little about the life scientific. They need to be taught to recognize how errors can occur. Trainees should evaluate case studies derived from flawed real research, or use interdisciplinary detective games to find logical fallacies in the literature.
Above all, students must be shown the scientific process as it is — with its limitations and potential pitfalls as well as its fun side, such as serendipitous discoveries and hilarious blunders.
This is exactly the gap that I am trying to fill at Johns Hopkins University in Baltimore, Maryland, where a new graduate science program is entering its second year. more>
Posted in Book review, Business, Economic development, Economy, Education, Leadership, Media, Science, Technology
Tagged Business improvement, Capital, Debt, Jobs, Leadership, Organization, Technology, Thinking
Engine Czech: This University Partnership Is Set To Propel Turboprop Engineering To New Heights
By Tomas Kellner – GE has spent the last 100 years building GE Aviation into a leading force in the aerospace industry. Since it was founded in 1918, the business unit, which brought in $27 billion in revenue last year, has introduced key innovations: It built the first jet engine in the United States and the largest and most powerful jet engines in the world; supplied engine parts for the largest commercial jetliner; and pioneered new materials and technologies like composites and 3D printing.
But it’s been only in the last decade that its Business and General Aviation unit, which is building engines and other technology for private and business planes, decided to pay close attention to the multibillion-dollar turboprop market.
“The turboprop segment has been underserved for decades,” says Brad Mottier, who runs the GE Aviation division. “Airframe customers and operators alike complained about the lack of innovation.”
This week, Mottier and his business said they are inviting the sharpest young engineers in the Czech Republic to help them transform the way we power small aircraft. The company will partner with Prague’s Czech Technical University (CVUT) to help bring up a new generation of aerospace engineers.
Why Prague? The Czech capital is the place where GE decided to jump into the turboprop engine market in 2008, when it took a bet on a storied but struggling turboprop manufacturer, Walter Engines.
Just like the Wright brothers, founder Josef Walter started out fixing and building bicycles before venturing into aviation. Established in 1911, his company ran aviation factories in Italy, Spain, Poland and elsewhere in Europe that produced record-breaking engines for planes used by 13 sovereign air forces. more>
Posted in Business, Economic development, Education, History, Science, Technology, Transportation
Tagged Business improvement, GE, History, skill development, Technology, Turboprop