Category: News

Yu Cai is PI of 2-year NSA GenCyber Project

Professor Yu Cai, Applied Computing, a member of the ICC’s Center for Cybersecurity, is the principal investigator on a two-year project that has received a $99,942 grant from the National Security Agency (GenCyber). The project is titled, “GenCyber Teacher Camp at Michigan Tech. ”

Lecturer Tim Van Wagner (AC) and Assistant Professor Bo Chen (CS, DataS) are Co-PIs. Cai will serve as the camp director, Tim Van Wagner as lead instructor.

This GenCyber project aims to host a week-long, residential summer camp for twenty K-12 STEM teachers in 2021 at Michigan Tech. Target educators are primarily from Michigan and surrounding states.

The objectives of the camp are to teach cybersecurity knowledge and safe online behavior, develop innovative teaching methods for delivering cybersecurity content, and provide professional development opportunities so participants will return to their home schools with contagious enthusiasm about teaching cybersecurity.

The GenCyber camp will be offered at no cost to camp participants. Room and board will be provided. Teacher participants will receive a stipend of $500 for attending and completing camp activities.

Read about the 2019 Michigan Tech GenCyber camps for teachers and students here.

Tim Havens, Tony Pinar Co-Authors of Article in IEEE Trans. Fuzzy Systems

An article by Anthony Pinar (DataS/ECE) and Timothy Havens (DataS/CC), in collaboration with University of Missouri researchers Muhammad Islam, Derek Anderson, Grant Scott, and Jim Keller, all of University of Missouri, has been published in the July 2020 issue of the journal IEEE Transactions on Fuzzy Systems.

The article is titled, “Enabling explainable fusion in deep learning with fuzzy integral neural networks.” Link to the article here.

Abstract:
Information fusion is an essential part of numerous engineering systems and biological functions, e.g., human cognition. Fusion occurs at many levels, ranging from the low-level combination of signals to the high-level aggregation of heterogeneous decision-making processes. While the last decade has witnessed an explosion of research in deep learning, fusion in neural networks has not observed the same revolution. Specifically, most neural fusion approaches are ad hoc, are not understood, are distributed versus localized, and/or explainability is low (if present at all). Herein, we prove that the fuzzy Choquet integral (ChI), a powerful nonlinear aggregation function, can be represented as a multilayer network, referred to hereafter as ChIMP.

We also put forth an improved ChIMP (iChIMP) that leads to a stochastic-gradient-descent-based optimization in light of the exponential number of ChI inequality constraints. An additional benefit of ChIMP/iChIMP is that it enables explainable artificial intelligence (XAI). Synthetic validation experiments are provided, and iChIMP is applied to the fusion of a set of heterogeneous architecture deep models in remote sensing. We show an improvement in model accuracy, and our previously established XAI indices shed light on the quality of our data, model, and its decisions.

Citation
M. Islam, D. T. Anderson, A. J. Pinar, T. C. Havens, G. Scott and J. M. Keller, “Enabling Explainable Fusion in Deep Learning With Fuzzy Integral Neural Networks,” in IEEE Transactions on Fuzzy Systems, vol. 28, no. 7, pp. 1291-1300, July 2020, doi: 10.1109/TFUZZ.2019.2917124.

Kelly Steelman Presents at ASEE

Kelly Steelman, interim department chair and associate professor, Cognitive and Learning Sciences, presented her paper, “Work in Progress: Student Perception of Computer Programming Within Engineering Education: An Investigation of Attitudes, Beliefs, and Behaviors” at the 2020 ASEE Virtual Conference, June 22-26, 2020.

Co-authors of the paper are Michelle Jarvie-Eggart (EF), Kay Tislar (CLS), Charles Wallace (CC), Nathan Naser (GMES), Briana Bettin (CS) and Leo Ureel (CS), all from Michigan Tech.

Abstract
Although most engineering faculty and professionals view computer programming as an essential part of an undergraduate engineering curriculum, engineering students do not always share this viewpoint. In fact, engineering students—especially those outside of computer and electrical engineering—may not realize the value of computer programming skills until after they have graduated and advanced in their career (Sterian, Dunne, & Blauch, 2005). Failure to find value in computer programming may have negative consequences for learning. Indeed, engineering students who do not view programming as interesting or useful show poorer performance on tests of programming concepts than students who do (Lingar, Williams, and McCord, 2017). This finding is consistent with theories of technology acceptance (e.g., Davis, 1989, Venkatesh, et al., 2003) that emphasize perceived usefulness as a key determinant of attitudes toward a technology and subsequent use or disuse of it. Accordingly, to better support student learning, engineering coursework should include specific interventions that emphasize the utility of programming skills for a career in engineering. Intervention effectiveness, however, may depend in part on the characteristics of the individual learners, including their prior programming experience, their openness to new experiences, and their beliefs about the nature of intelligence. The purpose of the current work is to understand engineering students’ attitudes toward and experiences with computer programming as well as to assess the relationship between their attitudes and experiences and their mindset toward their own intelligence. 101 engineering students participated in the study as part of a general education psychology course. Participants completed a computer language inventory and three surveys. The first survey inquired about students’ computer programming experiences and attitudes (Hoegh and Moskal, 2009). The second survey posed questions related to different aspects of openness to experience (Woo et al., 2014): intellectual efficiency, ingenuity, curiosity, aesthetics, tolerance, and depth. Finally, the third survey probed participants’ beliefs about the nature of intelligence and whether it is fixed or can be developed (Dweck, 1999). This paper will present the results of these surveys and explore the correlations among the various scales. The implications for engineering education interventions will be discussed.

Download the paper here.

Citation
Steelman, K. S., & Jarvie-Eggart, M. E., & Tislar, K. L., & Wallace, C., & Manser, N. D., & Bettin, B. C., & Ureel, L. C. (2020, June), Work in Progress: Student Perception of Computer Programming within Engineering Education: An Investigation of Attitudes, Beliefs, and Behaviors Paper presented at 2020 ASEE Virtual Annual Conference Content Access, Virtual On line . https://peer.asee.org/35683

Tim Havens Gives Talk at Los Alamos National Lab

Dr. Timothy Havens presented the lead talk at the Los Alamos National Laboratory’s ISR-2 Seminar Series on Advancing Toward Modern Detection and Estimation Techniques for Multi-Sensor Scenarios, presented online July 9, 2020.

Tim Havens is associate dean for research for the College of Computing, director of the Institute of Computing and Cybersystems (ICC), and the William and Gloria Jackson Associate Professor of Computer Systems.

The talk, “Explainable Deep Fusion,” described Havens’s sensor fusion systems research that seeks to combine cooperative and complementary sources to achieve optimal inference from pooled evidence.

Havens specifically discussed his innovations in non-linear aggregation learning with Choquet integrals and their applications in deep learning and Explainable AI.

Michigan Tech Produces Best Software Engineers in U.S.

Michigan Tech ranks 5th on a list of 13 non-ivy league schools that produce the best software engineers in the U.S., recently published by DesignRush.

The demand for software developers is steadily increasing, with 21% expected growth from 2018 to 2028. To help industry meet this need, DesignRush has published a list of non-ivy league schools that produce the best software engineers in the U.S.

  1. University of California, Irvine
  2. Stevens Institute of Technology
  3. California Polytechnic State University
  4. Iowa State University
  5. Michigan Technological University
  6. Milwaukee School of Engineering
  7. The University of Texas at Dallas
  8. Drexel University
  9. Auburn University
  10. Miami University
  11. Grantham University
  12. University of Louisiana Lafayette
  13. Robert Morris University

DesignRush.com is a B2B marketplace connecting brands with agencies. DesignRush features the top agencies around the world, including the best Digital Agencies, Software Developers, Logo Design, Branding, Digital Marketing, Website Design, eCommerce Web Design Companies and more.

Moving to Final Step of Return to Campus Plan

by MTU Flex Task Force

On Monday, July 27, Michigan Tech will enter the final step of our Return to Campus Plan. Step Three concludes our return to campus and marks our transition to the Health and Safety Levelssystem that we will maintain from the fall semester forward.

Beginning July 27, we plan to resume campus operations at the level at which Michigan Tech will function when students return. Previous expectations outlined in Steps One and Two remain in effect, including enhanced hygiene and social distancing protocols. Of course, those who need to work from home due to health concerns are encouraged to do so, using either a flexible work agreement with their supervisor or a COVID-19 accommodation

Please remember that all those who come to campus are required to submit the Daily Symptom Monitoring Form. This form can also be found on the MTU Flex Portal. Employees must remain six feet apart while working. While working indoors, employees who can medically tolerate them must wear protective face coverings unless working alone in their office with the door closed. If you are unable to medically tolerate a face covering, please reach out for an appropriate COVID-19 accommodation.

If you are returning to campus as an employee, you must complete the online COVID-19 trainingwithin seven days of your return to campus. All employees returning prior to the fall semester must have training completed no later than August 26, 2020. 

If you have questions about this transition, please visit the Fall 2020 Return to Campus Three-Step Plan page on the MTU Flex website. Information about the Health and Safety Levels can be found in the website’s Campus Operations section.

Remembering Roger Kieckhafer

By Glen Archer, Interim Chair, Department of Electrical and Computer Engineering

Roger cared deeply for his students, his family, and his profession. I think that may be the source we can draw upon to comfort our own sense of sadness and grief. The impact he had on hundreds of lives will shine on.

Professor Roger Kieckhafer was an inventor, engineer, researcher, educator, veteran and valued faculty member at Michigan Technological University. He died on Friday, July 17 in a tragic vehicle-bicycle accident. He was 69.

The loss to the faculty and staff in the Department of Electrical and Computer Engineering and the College of Engineering is immense. We will not recover quickly from the shock of his death.

Roger received his Bachelor’s degree in nuclear engineering from the University of Wisconsin Madison in 1974 and earned his Master’s and PhD in electrical engineering from Cornell University in 1982 and 1983, respectively. The years between were spent in service to the United States Navy as a Nuclear Officer aboard the Trident missile submarine USS Abraham Lincoln. He also supervised the construction of the USS Indianapolis. His time in industry was also well spent, producing several patents that were licensed to Allied Signal, now Honeywell Corporation.

Roger was fond of classical music, particularly opera, and sang in the Copper Country Chorale, often accompanied by his daughter, Maggie, on organ. He also sang in the prestigious Pine Mountain Music Festival, including the premiere of the opera Rockland, based on the story of the 1906 miner strike in Rockland, Michigan.

Roger was instrumental in creating the computer engineering degree program at Michigan Tech. Working with Linda Ott in the Department of Computer Science in the College of Sciences and Arts, he bridged the gap between two departments in two separate colleges, crafting a program that educated hundreds—a new breed of engineer steeped in both worlds.

Even after the development of the computer engineering program, Roger’s collaboration with the Department of Computer Science continued. “We worked together on a strategic hiring initiative, multiple curricular issues, reorganization discussions and countless other issues,” said Dr. Linda Ott, Chair of the Department of Computer Science. “Roger was always supportive. He clearly believed that we would have stronger programs working together rather than competing.”

Roger was a strong advocate for the ABET accreditation process in the ECE department. He led the initial ABET accreditation of the Computer Engineering program. The procedures and processes he set in place then are still in play nearly 20 years later, guiding the department’s subsequent accreditation for both its electrical engineering and computer engineering degrees.

In the words of Computer Engineering faculty member Kit Cischke, “For Roger, it always boiled down to what was best for our students. The content of our classes. The things our students needed to know to get good jobs. The assignments. The kinds of things they needed to do in the real world. Students were forever contacting Roger after graduation, saying, ‘Thanks for teaching me that. I’m using it every day in my job.’”

Over the past few days, Roger’s former students have reached out to express their grief and sadness. They have shared how much Roger meant to them during their time at Michigan Tech and how well he prepared them for the success they enjoy today. One of those students was Joseph Rabaut. In his words, “I can’t tell you how devastated I am. Dr. Kieckhafer was an amazing person and one of the best professors at Tech. He helped me a lot throughout the past few years, giving me advice and recommendations, and helping me understand computer engineering. I don’t really know what else to say, because words can’t really describe losing him.”

Roger cared deeply for his students, his family, and his profession. I think that may be the source we can draw upon to comfort our own sense of sadness and grief. The impact he had on hundreds of lives will shine on.

As we move forward, his legacy will live on. As suggested by several people, a scholarship fund will be set up in Roger’s memory.

Roger is survived by his wife, Patricia Kieckhafer; son, Alexander Kieckhafer (Mallika Lavakumar) and thoroughly adored granddaughters, Ananya Kieckhafer and Ishani Kieckhafer of Cleveland, Ohio; daughter, Katherine Kieckhafer of Boston, Massachusetts; and Maggie Kieckhafer (Tahmoures Tabatabaei) of Greensboro, North Carolina.

Roger’s obituary can be read here.

Weihua Zhou Receives PHF Seed Grant

The Michigan Tech Vice President for Research office has announced the Spring 2020 Research Excellence Fund (REF) awards.

Among the recipients is Assistant Professor Weihua Zhou, Applied Computing/Health Informatics, who received a Portage Health Foundation Research Seed Grant.

Zhou’s areas of expertise include image processing and computer vision, machine learning, medical image analysis, health informatics, and text mining.

The proposed project represents Zhou’s continuous research on cardiac resynchronization therapy for patients with heart failure.

His co-investigators are Associate Professor Qing-Hui Chen, M.D., Kinesiology and Integrative Physiology, and Timothy Havens, the William and Gloria Jackson Associate Professor, College of Computing.

Ph.D. candidate Zhuo He, College of Computing, is a research assistant on the project. Rudy Evonich, MD, a cardiologist with the Department of Cardiology at UP Health System Marquette, Mich., is a clinical consultant.

Read the Tech Today announcement here.

Learn more about Michigan Tech REF awards here.

Signature Research, Michigan Tech win $1 Million NGA Research Award

Signature Research Inc. has partnered with Michigan Technological University to accomplish a Phase II STTR project sponsored by the National Geospatial-Intelligence Agency. The two-year, $1 Million project is titled, “Algorithms for Look-Down Infrared Target Exploitation-Phase II.” Michigan Tech’s portion of the $1 million contract is $400K.


Principal investigator of the project is Dr. Timothy Havens, director of the Institute of Computing and Cyberystems (ICC) and associate dean of research for the College of Computing. Havens is joined by Signature Research, Inc. (SGR) Program Manager Matt Blanck, who will lead the SGR side of the project.

At Tech, Havens will be assisted in accomplishing the goals of this project by Research Scientist Adam Webb of the Michigan Tech Research Institute (MTRI) and Nicholas Hamilton, a Computer Science Ph.D. candidate.

“This project will identify physics-based novel signatures and data processing techniques to exploit overhead infrared (IR) imagery using machine learning algorithms.”

“The SGR/MTU Team will generate, collect, and label a wide body of data, implement learning algorithms, develop use cases and tests on those data, and perform a comprehensive study to determine ways in which learning algorithms can automate IR imagery recognition tasks.”

Dr. Timothy Havens

And while this effort is focused on overhead IR imagery, Havens says the methods and software developed will have applicability to other sensing modalities, leading to investigations of multi-modal fusion of all-source data.


Signature Research, Inc. (SGR) solutions to DoD and Intelligence Community customers, and specializes in in Signature Phenomenology, Analysis, and Modeling of items of military interest covering the breadth of the electromagnetic spectrum.

The National Geospatial-Intelligence Agency (NGA) is a combat support agency under the United States Department of Defense and a member of the United States Intelligence Community, with the primary mission of collecting, analyzing, and distributing geospatial intelligence in support of national security.

The Institute of Computing and Cybersystems (ICC) promotes research and learning experiences in the areas of cyber-physical systems, cybersecurity, data sciences, human-centered computing, and scalable architectures and systems for the benefit of Michigan Tech and society at large.

The Michigan Tech Research Institute (MTRI) is an innovator in building information from data through the marriage of phenomenological understanding and implementation of mathematically rigorous algorithms. Together with University and other national and international collaborators, MTRI researchers and scientists work to solve critical problems in national security, protecting and evaluating critical infrastructure, bioinformatics, Earth sciences, and environmental processes, according to their website.

CS Ph.D. Candidate Ali Jalooli Awarded Finishing Fellowship

The Michigan Tech Graduate School has announced that Computer Science Ph.D. candidate Ali Jalooli is among the graduate students who have received a Doctoral Finishing Fellowship Award.

Jalooli’s research studies the optimization of message routing in heterogeneous wireless networks. His dissertation is titles, “Enabling Technologies for Internet of Things: Optimized Networking for Connected and Autonomous Vehicles.”

Each semester, the Graduate School awards Finishing Fellowships that provide support to Ph.D. candidates nearing completion of their degrees. The fellowships, available through the generosity of University alumni and friends, are intended to recognize outstanding Ph.D. candidates who are in need of financial support to finish their degrees, and who are also contributing to the attainment of goals outlined in The Michigan Tech Plan. Support ranges from a $2,000 stipend to full support (stipend and tuition).

Jalooli’s research focuses on vehicular “networks in smart cities. He notes that research in this area is of great importance, as it advances cutting-edge connected and autonomous vehicle technologies.

“This has far-reaching consequences for many aspects of daily life, given the expanding world of the Internet of Things,” he explains. “Connected vehicles provide various benefits, spanning from advanced driver assistance, remote diagnostics, and infotainment for consumers to road safety, improving response time for emergency vehicles, and even improving national and international economies by ameliorating traffic congestion.”

“My work at Tech on the underlying networks that drive these technologies enhances the performance and feasibility of robust wireless networks,” Jalooli says. “During my time at Tech, I have also gained teaching experience and increased responsibility in course development and assessment as a teaching assistant and lead instructor.”

“I am grateful to the Graduate School and the Graduate School Dean Awards Advisory Panel for awarding me a Finishing Fellowship,” Jalooli says. “I am also grateful to my advisors, Dr. Kuilin Zhang and Dr. Min Song, for their support and guidance.”

Read a Grad School blog post about Ali Jalooli here.

Additional recipients of graduate student awards appear below.
Doctoral Finishing Fellowship Award: Elizabeth M. Barnes, Forest Science; Shahab Bayani Ahangar, Mechanical Engineering-Engineering Mechanics; Haitao Cao, Geophysics ; Eassa Hedayati, Computational Science and Engineering; Pratik Umesh Joshi, Chemical Engineering ; Kevin C. Nevorski, Biological Sciences ; Bethel Worku Tarekegne, Environmental Energy and Policy; Hua Wang, Rhetoric, Theory and Culture
Portage Health Foundation Graduate Assistantship: Lavanya Rajesh Kumar, Applied Cognitive Science and Human Factors; Dylan G. Turpeinen, Chemical Engineering
Matwiyoff & Hogberg Endowed Graduate Fellowship: Wenkai Jia, Biomedical Engineering
The DeVlieg Foundation 2020 Summer Research Award in Biology/Wildlife: Angela M. Walczyk, Biological Sciences

Profiles of all the current recipients can be found online.