Jasmine Dang | Human Factors – Mindwandering | Best Researcher Award

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Dr. Jasmine Dang | Human Factors – Mindwandering | Best Researcher Award

DoD, Devom C5ISR RTI, United States

Dr. Jasmine Sierra Dang is a human‑factors expert with over a decade of applied research experience spanning defense, cognitive science, and ergonomics. She earned her Ph.D. in Human Factors and Applied Cognition from George Mason University in 2020, with advanced degrees in psychology and neuroscience. Currently serving both as Executive Officer to the RTI Director and as an engineering psychologist at the C5ISR Modeling and Simulation Division, she bridges technical leadership and strategic liaison roles. Her published portfolio spans peer‑reviewed journals and prominent conference proceedings in domains such as sustained attention, vigilance decrement, and human‑automation trust. Dr. Dang has held top‑secret/SCI clearance and served on selection boards for DARPA’s Intrinsic Cognitive Security program. Highly multilingual and cross‑disciplinary, she mentors students, leads teams, and applies rigorous scientific methods to real‑world defense and autonomy systems. Her contributions have earned recognition across military, NATO, and government research communities.

Professinal Profile

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Education

Dr. Dang holds a Ph.D. in Human Factors and Applied Cognition from George Mason University (2020), with earlier degrees from the same institution: an M.S. earned in 2019 and a B.S. in Psychology (with Neuroscience minor and Human Factors concentration) in 2017. Her doctoral and master’s research focused on vigilance decrement, sustained attention, and mind‑wandering—core concepts in understanding operator performance in prolonged tasks. During her undergraduate studies, she received the Undergraduate Research Scholars Award twice, demonstrating early excellence in scholarly inquiry. Her education combined rigorous theoretical underpinnings with applied experimental methods on tasks such as the Sustained Attention to Response Task (SART). She’s also experienced in statistical techniques (e.g., SPSS, R) and in designing cognitive experiments, giving her both quantitative and qualitative methodological fluency.

Professional Experience

Dr. Dang currently holds dual roles at Fort Belvoir, Virginia: as Executive Officer and Technical Aide to the RTI Director since January 2025, and as Engineering Psychologist for the C5ISR Modeling & Simulation Division (RTI MSD) since September 2022. In the former, she manages mission‑critical deliverables, coordinates strategic engagements, crafts executive communications, and supports senior leadership decisions. In the latter, she serves as a government technical lead, occasionally acting Branch Chief, and evaluates high‑value DARPA proposals. Previously, she was Senior Engineering Psychologist at Planned Systems International (2020–2022), leading research projects, conducting user evaluations, and liaising between contractors and military stakeholders. Earlier internships include work at the Naval Research Laboratory (2019) analyzing vigilance and eye‑tracking data and at AFRL’s Airmen Interacting with Robotics lab (2018), building Unreal Engine simulations. She also taught research methods and statistics at George Mason University (2018–2020) and conducted multiple R‑based and simulated driving studies.

Research Focus

Dr. Dang specializes in vigilance decrement, sustained attention, and mind‑wandering, particularly as they affect operators managing autonomous systems and cognitive workloads. Her work employs tasks like the Sustained Attention to Response Task (SART) to investigate attentional lapses, decision speed vs. inattention, and warning cue efficacy. She also explores human‑automation trust, cognitive security, and how interface transparency influences trust calibration in simulated scenarios. Her studies often use behavioral, eye‑tracking, survey, and focus‑group methodologies to deliver insights into real‑world performance. Recent projects include soldier-in-the-loop evaluations (e.g. AR waypoint navigation, bifocal prototypes, snow‑terrain detection), and multi‑domain virtual prototypes. She has co‑authored journal articles in Human Factors, Experimental Brain Research, and Psychological Research, focusing on cognitive feedback, performance emphasis, and attentional dynamics under real-time feedback.

Publication Top Notes

Dang, J. S., Figueroa, I. J., & Helton, W. S. (2018). You are measuring the decision to be fast, not inattention: The Sustained Attention to Response Task does not measure sustained attention. Experimental Brain Research, 236(6).

Demonstrated that SART primarily captures response style (speed) rather than lapses in sustained attention, challenging widely held assumptions.

Dang, J. S., Shaw, T. H., McKnight, P. E., & Helton, W. S. (2022). A closer look at warning cues on the sustained attention to response task performance. Human Factors.

Explored how auditory warning cues impact SART performance; found cues can improve detection but may introduce trade‑offs in response style.

Mensen, J. M., Dang, J. S., Stets, A. J., & Helton, W. S. (2021). The effects of real‑time performance feedback and performance emphasis on SART. Psychological Research.

Showed that live feedback and emphasizing performance goals enhance sustained attention and task accuracy.

Graybeal, J., Dang, J., et al. (2021–22). ATLAS and NVD‑Next User Evaluations & MDUSA Virtual Prototype.

Multi-year soldier user evaluations of augmented reality/navigation prototypes, assessing usability, situational awareness, and detection performance across conditions.

Conclusion

Dr. Jasmine S. Dang presents as an exceptionally well-qualified, multidisciplinary researcher with a rare combination of deep cognitive science expertise, applied human factors knowledge, and strategic leadership within the U.S. defense research ecosystem. Her record of publications, awards, and leadership roles—especially within high-security, mission-critical contexts—makes her an ideal candidate for a Best Researcher Award.

Xiangling Li | Engineering | Best Researcher Award

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Dr. Xiangling Li | Engineering | Best Researcher Award

Research Associate, Dartmouth College, United States

Dr. Xiangling Li is an accomplished researcher in biomedical engineering, specializing in micro/nano manufacturing, wearable bioelectronics, and precision medical devices. He currently serves as an Assistant Research Fellow at Dartmouth College, where he focuses on integrating advanced materials and nanotechnology into medical applications. With a Ph.D. from Sun Yat-sen University and postdoctoral research at the University of Southern California, Dr. Li has contributed to cutting-edge innovations in biosensors, drug delivery, and flexible electronics. His groundbreaking research has led to numerous high-impact publications in Advanced Science, Nature Communications, Advanced Functional Materials, and ACS Applied Materials & Interfaces, accumulating hundreds of citations. Dr. Li’s expertise in interdisciplinary research enables the development of next-generation medical devices, improving patient care and diagnostics. His work in integrating electronics, materials science, and life sciences has positioned him as a leader in the field, driving innovations in biomedical engineering and translational medicine.

Profile

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Education

Dr. Xiangling Li pursued his academic journey with a strong focus on biomedical engineering and materials science. He earned his Ph.D. in Engineering (Biomedical Engineering) from Sun Yat-sen University, China (2018–2022), where he conducted pioneering research under the guidance of Prof. Xi Xie. His doctoral research focused on developing smart nanomaterials and biosensors for medical applications. After completing his Ph.D., he joined the University of Southern California as a Postdoctoral Fellow (2022–2023) under Prof. Hangbo Zhao, where he advanced his work on flexible bioelectronics and precision medicine. Dr. Li is currently an Assistant Research Fellow at Dartmouth College (since 2023), working with Prof. Wei Ouyang on cutting-edge medical technologies. His diverse educational background has equipped him with expertise in nano/microfabrication, electronic biosensors, and biomedical device engineering, enabling him to make significant contributions to translational medicine and wearable healthcare solutions.

Experience

Dr. Xiangling Li has extensive experience in biomedical engineering, focusing on micro/nano fabrication, biosensors, and advanced medical devices. He is currently an Assistant Research Fellow at Dartmouth College (2023–Present), where he explores novel bioelectronic interfaces for healthcare applications. Previously, he was a Postdoctoral Fellow at the University of Southern California (2022–2023), where he contributed to research on flexible electronic systems for precision medicine. Dr. Li completed his Ph.D. at Sun Yat-sen University (2018–2022), where he developed groundbreaking microfabricated biosensors and drug delivery platforms. His research expertise spans interdisciplinary fields, including wearable diagnostics, nanotechnology-enabled therapeutics, and malleable electronics. With multiple high-impact publications and extensive collaborations across disciplines, Dr. Li’s contributions continue to shape the future of smart medical devices. His experience bridges academia and industry, enabling the development of innovative biomedical solutions that improve patient outcomes and healthcare monitoring.

Research Focus

Dr. Xiangling Li’s research is centered on micro/nano manufacturing technologies for biomedical applications. His work integrates flexible electronics, biosensors, and smart materials to develop next-generation medical devices. He specializes in wearable and implantable bioelectronics, focusing on precision drug delivery, transdermal biosensing, and real-time health monitoring. A key area of his research involves microneedle-based systems for minimally invasive glucose monitoring, intraocular pressure regulation, and intelligent drug release platforms. Additionally, he explores graphene-based biosensors, nanoneedle platforms, and soft bioelectronics for enhanced biomedical applications. His innovations in smart contact lenses, flexible supercapacitors, and biocompatible coatings contribute to the advancement of personalized medicine and point-of-care diagnostics. Dr. Li’s interdisciplinary approach, combining electronics, materials science, and life sciences, drives the development of high-performance biomedical devices. His research holds significant potential for revolutionizing non-invasive diagnostics, therapeutic monitoring, and next-generation wearable healthcare solutions.

Publications 📚

  • A fully integrated closed-loop system based on mesoporous microneedles-iontophoresis for diabetes treatment
  • Intelligent wireless theranostic contact lens for electrical sensing and regulation of intraocular pressure
  • Reduced graphene oxide nanohybrid–assembled microneedles as mini-invasive electrodes for real-time transdermal biosensing
  • Smartphone-powered iontophoresis-microneedle array patch for controlled transdermal delivery
  • Nanoneedle platforms: the many ways to pierce the cell membrane
  • Electrodes derived from carbon fiber-reinforced cellulose nanofiber/multiwalled carbon nanotube hybrid aerogels for high-energy flexible asymmetric supercapacitors
  • Hierarchical graphene/nanorods-based H₂O₂ electrochemical sensor with self-cleaning and anti-biofouling properties
  • Emerging roles of 1D vertical nanostructures in orchestrating immune cell functions
  • Fe₃O₄ nanoparticles embedded in cellulose nanofiber/graphite carbon hybrid aerogels as advanced negative electrodes for flexible asymmetric supercapacitors
  • Wearable and implantable intraocular pressure biosensors: recent progress and future prospects