SOUTHFIELD, Mich. — From Kazakhstan to Southfield, a Lawrence Technological University graduate student is helping redefine precision in robotic surgery through cutting-edge artificial intelligence research with real-world clinical implications.
Daulet Kaldybek, a LTU master’s student in electrical and computer engineering, is emerging as a leading contributor to advanced AI-driven surgical imaging. Through LTU’s 3+1 international partnership program with Astana IT University in Kazakhstan, Kaldybek transitioned seamlessly from undergraduate study abroad to high-impact graduate research in the United States, delivering peer-reviewed results in less than one academic year.
Under the mentorship of Nabih Jaber, PhD, LTU professor of electrical and computer engineering, and Mostafa Daneshgar Rahbar, PhD, LTU assistant professor of electrical and computer engineering, Kaldybek’s work exemplifies LTU’s strength in translating advanced engineering theory into solutions for complex, life-critical challenges.
Kaldybek is co-author of a recently published study in the International Clinical and Medical Case Reports Journal, titled “Real-Time Intraoperative Tissue Characterization and Classification for Robotic Bariatric Surgery.” The research introduces a novel deep-learning architecture designed to give surgeons clearer, faster, and more reliable visual insight during robotic procedures.
The team developed a Dual Attention U-Net (DuAtUNet) model that enables real-time identification and segmentation of fat, muscle, and vascular tissue from live surgical video. By integrating dual attention mechanisms that selectively focus on the most critical anatomical features, the model achieved 3 to 7 percent higher accuracy than standard industry approaches, an improvement that can translate directly into safer procedures and more confident intraoperative decision-making.
Published in February 2025, the study is openly accessible and positions LTU at the forefront of AI-enabled surgical innovation.
In a second major contribution, Kaldybek co-authored a Springer-published book chapter, “Vision Transformer-Based Fine-Tuned SAM for Enhanced Bariatric Surgery Image Segmentation.” The work adapts Meta’s widely recognized Segment Anything Model (SAM) — a foundation model originally developed for general-purpose computer vision — for specialized use in medical imaging.
By fine-tuning the model on laparoscopic surgery datasets, the research achieved a Dice coefficient of 86.5 percent, outperforming several traditional segmentation techniques. The results underscore LTU’s emphasis on adopting leading AI tools and rigorously reengineering them to meet the precision, reliability, and safety demands of clinical environments.
Building on this momentum, Kaldybek is currently collaborating with the LTU Electrical and Computer Engineering department on an additional book chapter under peer review.
Remarkably, all of these scholarly accomplishments were completed within two semesters at LTU, demonstrating the university’s capacity to accelerate graduate research productivity and global impact.
Lawrence Technological University is one of only 13 independent, technological, comprehensive doctoral universities in the United States. Located in Southfield, Mich., LTU was founded in 1932, and offers more than 100 programs through its Colleges of Architecture and Design, Arts and Sciences, Business and Information Technology, Engineering, and Health Sciences, as well as Specs@LTU, which offers communication training programs of the former Specs Howard School, and LTU’s growing Center for Professional Development. PayScale lists Lawrence Tech among the nation’s top 11 percent of universities for alumni salaries. Forbes and The Wall Street Journal rank LTU among the nation’s top 10 percent. U.S. News and World Report lists it in the top tier of best in the Midwest colleges. Students benefit from small class sizes and a real-world, hands-on, “theory and practice” education with an emphasis on leadership. Activities on Lawrence Tech’s 107-acre campus include more than 60 student organizations and NAIA varsity sports.
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