Dr. Joseph Piacenza, MSME 2012, PhD 2014, reports that he has joined the faculty at Cal State Fullerton. Dr Piacenza is an Assistant Professor of Mechanical Engineering in the College of Engineering & Computer Science.
Dr. Douglas L. Van Bossuyt – 2007 HBSME, HBAME (international degree program); MSME 2009; PHD ME 2012 – is entering his third year as an assistant professor at the Colorado School of Mines seated in the Mechanical Engineering Department and working with the Nuclear Science and Engineering Program and Center for Space Resources. He focuses primarily on early conceptual complex system design methodological development for the assessment of risk and reliability information and secondarily focuses on additive manufacturing process control with the eventual goal of producing a design tool to aid engineers in designing parts that behave as intended. Dr. Van Bossuyt received the Nuclear Regulatory Commission Faculty Development Grant in 2014 and has worked to develop a laboratory to support his research spanning the aerospace, nuclear, and robotics domains. Recently, Dr. Van Bossuyt and his research group authored five papers at the 2015 ASME IDETC/CIE conferences.
Dr. Sarah Oman, PhD ME 2012, is currently teaching Mechanical Engineering design courses at Northern Arizona University in Flagstaff, Arizona. Oman was hired on to develop a brand new course for sophomore design practices and to supervise senior Capstone Design projects.
Dr. Hoda Mehrpouyan, PhD ME 2014, has joined the Columbus State University, Computer Science faculty as an assistant professor. At Oregon State, Mehrpouyan’s PhD advisor was Prof. Irem Tumer, and her dissertation research addressed assessment and Improvement of the resilience of complex engineered systems during the early design process.
Mark Owen was an honor student and a hall of fame athlete in gymnastics as a high schooler in Portland, Oregon. After graduating from Oregon State, he joined Tektronix as a design engineer. The Portland-based company pioneered engineering tools like computer-aided design and finite element analysis, and Owen was one of the first engineers to apply these powerful tools.
In 1985, he and his wife Anne moved to Ireland, where he taught mechanical and production engineering at the University of Limerick while completing a master’s degree in advanced manufacturing technology.
Owen is an inventor at heart, and after a few years teaching he was “itching to get back to product development and solving industrial problems,” he said. For the next five years, he led a team at the Irish Department of Science and Technology, developing new programs that would allow industry to quickly adopt new manufacturing technologies.
Returning to the states, he joined Electro Scientific Industries, a world leader in laser production tools. “I was fortunate to arrive just as they were pioneering new ultraviolet lasers,” he said. He developed and patented several laser applications that led to the development of entirely new industry segments.
While at Tektronics and Electro Scientific Industries, Owen saw many intrapreneurial businesses succeed and fail. “I realized that what I really wanted was to be an entrepreneur starting new businesses based on my own inventions,” he said. “You know, your inventions don’t have a chance at life unless you take the next step.”
Over the next four years, he and a small group of engineers he had met in Ireland took a series of inline circuit and circuit assembly automated inspection systems to a $100 million acquisition by Agilent Technologies. At the time, it was the biggest technology deal in Ireland’s history.
Next, he formed Phoseon Technology, which pioneered the use of ultraviolet light-emitting diodes (LED) to dry or cure industrial adhesives, coatings, and inks. Phoseon continues to grow rapidly in Hillsboro, Oregon. Owen, however, still wasn’t content, so he founded another new company, Puralytics.
“With Puralytics, I wanted to solve one of the world’s great problems — the world water crisis — using advanced technology, and that led to the pioneering of UV LED activated nanotechnology for purifying water,” he said.
Either directly or through organizations like Engineers Without Borders, the Roddenberry Foundation, and faith-based groups, the company works with local communities in Africa and other regions to provide solutions for sustainable water purification. “We provide them with the tools they need to check their water, set up training for treating it, and provide water treatment devices,” said Owen.
Puralytics’ sunlight-activated personal water purifier, SolarBag, has shipped to 60 countries. The product received the Oregon Entrepreneur’s Network 2014 Game Changer award, having been voted as the product most likely to change the world. Puralytics products have won 17 industry awards and are deployed in disasters by organizations like the Red Cross and the Roddenberry Foundation.
Puralytics is also developing sunlight activated water treatment for ponds and stormwater. OregonBEST is funding a current research project to test new technologies in a rain garden facility at Oregon State.
Owen’s inventions and entrepreneurial efforts have yielded more than 50 patents on technologies that have been incorporated into products generating more than $1 billion in revenue, mostly for companies located in Oregon.
For Owen, the entrepreneurial itch may still be there — he keeps thinking of new ideas and new businesses. “My wife keeps saying, ‘This is the last one, right?’ There might be a point where I am a mentor to young entrepreneurs; I’m meeting with a few now. Maybe that and investing and coaching will become more of my hobby.”
With Puralytics, I wanted to solve one of the world’s great problems…
Even after Paul McKenney’s long and illustrious career as a software engineer, he continues to benefit from the emphasis during his graduate and undergraduate coursework on solving real-world problems. “The thing about Oregon State University then and now is a strong focus on practice and practical matters,” he said. After graduating, McKenney worked as a contract developer before signing on at SRI International as a systems programmer. In the very early days of the Internet, his job included researching ways of improving it. Later, he worked at Sequent, eventually purchased by IBM, on their parallel UNIX kernel. McKenney holds more than 100 patents. His contributions include the invention of high-speed fair-queueing mechanisms used in Internet congestion control, parallel memory-allocation algorithms, and, perhaps most notably, the Linux kernel’s read-copy update (RCU). RCU is a highly scalable method of coordinating work in a multicore system. As one of the Linux community’s experts on parallel computing, McKenney’s responsibilities at IBM include maintaining the RCU component of the Linux kernel. McKenney earned a Ph.D. in computer science and engineering in 2004 from the OGI School of Science and Engineering at Oregon Health & Science University while continuing to work full time. He has published one book and more than 200 other publications. He serves as chair of the program committee for the Linux Plumbers Conference and sits on the program committee for the Linux Kernel Summit. He is also a member of Oregon State’s School of Electrical Engineering and Computer Science Industrial Advisory Board.
The thing about Oregon State University then and now is a strong focus on practice and practical matters.
Hearing his story, Wes Snyder might just be the envy of any engineering student anywhere. It may seem as if he has lived a charmed life. But in his mind, it has been perseverance that has served him most. As a student participant in MECOP (Multiple Engineering Cooperative Program), Snyder completed a six-month internship at A-dec, one of the largest dental equipment manufacturers in the world. A-dec was obviously impressed with his work, because promptly after he graduated the company hired him as a manufacturing engineer. The perseverance, skills, knowledge, and ability to problem solve he developed as a student provided the foundation for his steady climb to a vice presidency within 18 years. Although Snyder sometimes misses the hands on work of an engineer, he is happy in his chosen path. “I wouldn’t have anticipated as a graduate that I would be interested in a leadership role,” said Snyder. “I’ve been blessed with great opportunities at a great company. I’ve found that whatever job I held in engineering, I was always able to recognize that I could be a positive influence on others, and that’s been really rewarding.” He said he is glad to be able to support the engineering team at A-dec. “I’m honored to be in a position that can help preserve our culture and continue our legacy of great product introductions,” he said. After establishing himself in his career, Snyder began giving back to MECOP as a mentor and board representative, helping engineering students gain real-world experience so they, too, can realize their dreams.
I wouldn’t have anticipated as a graduate that I would be interested in a leadership role.
Amber Nyssen’s biggest takeaway from her time at Oregon State was the ability to solve problems. “It sounds like a really simple thing, but being able to assess a situation, ask questions, and develop a logical path forward has served me very well in all of the roles I’ve held professionally,” she said.
Through her own efforts, Nyssen landed an internship with Williams Controls while at Oregon State, and that internship led to a job offer as a manufacturing engineer with the company. As an undergraduate, she had taken an option in business engineering and a minor in business administration, and while at Williams Controls she supplemented her education with an MBA from Portland State University.
As part of her concentration in international business, Nyssen had spent some time in India. When the company made a decision to open their first manufacturing facility there, she was invited to go back to get it started. “We built the facility, all of the production lines, hired the staff, got our quality certification, and by the time I left about a year later, we were ready to start mass production,” she said. “I was able to use all of those business skills, and it really comes back to the issue of how to solve problems — being in a foreign country and faced with all sorts of things that no education could prepare you for.”
Curtiss-Wright later bought Williams Controls. Nyssen was recognized by Oregon’s business community as one of 40 Under 40 high achievers in 2011.
It really comes back to the issue of how to solve problems.
Olivia Girod, HBS IE 2014, has joined Intel Corporation as an Operations Manager managing a team of 15-25 manufacturing technicians to support operations across three fabrication facilities. As well, Girod has earned the recognition of the Society of Manufacturing Engineers – named to SME Manufacturing’s list “30 Under 30: Recognizing the Future Leaders of Manufacturing” for 2014. This is SME’s second annual celebration of 30 young people who have demonstrated exceptional talent and leadership in Science, Technology, Engineering or Math.
Jeff Stebel, MS IE 2005, has joined Sierra Nevada Corporation to provide risk analysis for the Dream Chaser space plane, a NASA space travel project. He is the flight test vehicle lead with a focus on electric power systems and hybrid propulsion systems. Stebel previously worked for Lockheed-Martin on NASA’s Orion contract.
Ben Rivera, BS ME 1991 has been promoted at Leatherman Tool Group to the position of president of the company’s tool-making division. Rivera has been with Leatherman for more than 20 years and played a pivotal role in the design and evolution of the company’s multi-function tools. Rivera’s appointment comes as the company enters new markets such as Action Sports, and expands existing products such as PocketTool.
Steve Bastion, BS IE 2005, has started a new position with Kroger as NW Regional Industrial Engineer based in Clackamas, Oregon. Steve says that he is happy to provide tours of Fred Meyer distribution centers for fellow School of MIME Industrial Engineers.
Terry Kelley (BSME 1974, MSME 1975) is currently the Business Development Manager for GeoGlobal Energy LLC, a privately-held geothermal company headquartered in Chevy Chase, MD, and focused on the worldwide development and acquisition of geothermal resources to generate base load, renewable, low-carbon electricity.
Jerry Young (BSME 1989) was recently promoted to Master-Level Senior Technologist in Hewlett Packard’s Intellectual Property Department (Boise campus). He is also a current member of the MIME Industry Affiliates Board.
Luke Bortnem (BSIE & MfgE 2009) has worked at Boeing since 2010 after completing his second MECOP internship with the company. Bortnem has been involved on a number of projects for Boeing including working on 737 Pilot Controls, 777 Flap Supports, and 737 Flap Tracks.
Nans Kunz (BSME 1978) has worked at NASA since graduating from OSU. Kunz was the Chief Engineer for the development of the Stratoshperic Observatory For Infrared Astronomy (SOFIA) Program. Currently, Kunz is the NESC Chief Engineer for NASA Ames Research Center.
David C. Jensen (BSME 2008, MSME 2009, PhD ME 2012) has joined the University of Arkansas ME faculty as an assistant professor. At OSU, Jensen’s PhD advisor was Irem Tumer, and his dissertation research addressed model-based predictions of system failure behavior and systems validation.
David Browning (BSME 1986), cofounder and chief technology officer of Altman Browning and Company, and Kay Altman(BsChE 1978) hosted an MIME “Decade Dinner” at their home in Portland this summer. Attendees included Lew Danielson(BSMET 1979), Mike Miles (BSME 1980), Mark (BSIE 1978) and Kim Childs, and Thomas (BSME 1983) and Tandra Teramura. (Photos courtesy of MIME Class Portraits!)
Jacquelyn K. Nagel (PhD ME 2010), an assistant professor at James Madison University, was nominated by IEEE-USA as one of the National Engineers Week Foundation’s 2012 New Faces of Engineering. This program honors outstanding engineers under the age of 30.
Nagel was recognized for her pioneering work in bio-inspired sensor, instrumentation, and energy systems design. Her dissertation research, completed under PhD advisor Rob Stone, was on function-based, biologically-inspired concept generation.