Prof. Dr. Abdelkrim Kamel Oudjida | Real-Time Robotic Control | Research Excellence Award

Published on by Robotics and Automation

Prof. Dr. Abdelkrim Kamel Oudjida | Real-Time Robotic Control | Research Excellence Award

Centre de Développement des Technologies Avancées | Algeria

Prof. Dr. Abdelkrim Kamel Oudjida is a distinguished director of research at the Centre De Développement des Technologies Avancées, recognized for his extensive contributions to computer arithmetic and its applications in Cryptography, DSP, robotics, Real-Time Robotic Control and VLSI digital design. With a strong academic and professional background, he has authored 22 publications, delivered 35 communications, and contributed to 2 patents, establishing himself as a leading figure in advanced digital circuit design. his research achievements include developing advanced binary recoding methods and pioneering new arithmetic strategies for efficient asic/fpga implementation of linear systems. His work has earned him 328 citations, based on 263 citing documents, supported by 34 documents, and an h-index of 8, reflecting his growing scholarly impact. in addition to his role as a full-time researcher, he serves as a lecturer in computer arithmetic and cryptography at the national higher school of mathematics. He has supervised more than 50 engineering, master’s, and phd projects, further strengthening the scientific community through mentorship. As a reviewer for prestigious journals such as ieee tcas, elsevier microelectronics, and jolpe, and collaborating with several european research labs, oudjida continues to advance the field through innovation, leadership, and international engagement.

Profiles: Scopus | Orcid

Featured Publications

Liacha, A., Oudjida, A. K., & Bellal, R. N. (2025). On the complexity of constant multiplication problem. International Journal of Circuit Theory and Applications. Advance online publication.

Nait-Abdesselam, F., Oudjida, A. K., Khouas, A., & Liacha, A. (2025). On computing the double point multiplication in elliptic curve cryptography. Cryptologia. Advance online publication.

Echikr, A., Yachir, A., Kerrache, C. A., Oudjida, A. K., & Sahraoui, Z. (2024). Interoperable IoRT for healthcare: Securing intelligent systems with decentralized blockchain. Acta Informatica Pragensia.

Oudjida, A. K., & Liacha, A. (2021). Radix-2ʷ arithmetic for scalar multiplication in elliptic curve cryptography. IEEE Transactions on Circuits and Systems I: Regular Papers, 68(5), 1984–1997.

Oudjida, A. K. (n.d.). Multiple constant multiplication algorithm for high-speed and low-power design.

Prof. Hsin-Yuan Chen | Smart Robot | Best Researcher Award

Published on by Robotics and Automation

Prof. Hsin-Yuan Chen | Smart Robot | Best Researcher Award

Zhejiang University | China

Prof.  Hsin-Yuan  Chen is a distinguished Chang Jiang Scholar Professor and director at the center of digital technology entrepreneurship and innovation, Zhejiang University, China, and serves as an adjunct distinguished professor at Patil University, India. She holds a Ph.d. in aerospace engineering from national Cheng Kung university, where she also earned her bachelor’s degree through a direct Ph.d. program. With extensive academic and industrial experience, Dr. Chen has held key positions including professor and dean at Fujian normal university, and ai chief technology officer at Geosat technology and mobiletron electronics. her expertise spans artificial intelligence, robotics, big data, cloud computing, Smart Robot and digital innovation. She has authored 78 scholarly documents, which have collectively received 1,761 citations from 1,556 sources, achieving an h-index of 27, reflecting her significant academic impact. her exceptional contributions have been recognized globally through prestigious honors such as the IET fellowship, Asean fellowship, global top engineers medal, and multiple international awards in ai, cloud technology, and robotics. a respected editor and reviewer for numerous international journals, Dr. Chen continues to advance interdisciplinary innovation in digital transformation, artificial intelligence, and emerging technologies worldwide.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Sharma, C., Chanana, N., & Chen, H.-Y. (2025, June). Mapping the evolution: A bibliometric analysis of employee engagement and performance in the age of artificial intelligence-based solutions. Information, 16(7), 555.

Chen, H.-Y., Sharma, K., Sharma, C., & Sharma, S. (2024, November 9). Advancements in handwritten Devanagari character recognition: A study on transfer learning and VGG16 algorithm. Discover Applied Sciences. Springer Nature.

Chen, H.-Y. (2023). Artificial intelligence robots and fuzzy logic – Robotics – AI – ICT. Scientific Journal Impact Factor.

Chen, H.-Y. (2023). Blockchain and cryptocurrency: A bibliometric analysis. Journal of Advanced Computational Intelligence and Intelligent Informatics, 27(6), 822–832.

Chiang, Y.-F., Lin, I.-C., Huang, K.-C., Chen, H.-Y., Ali, M., Huang, Y.-J., & Hsia, S.-M. (2023). Caffeic acid’s role in mitigating polycystic ovary syndrome by countering apoptosis and ER stress triggered by oxidative stress. Biomedicine & Pharmacotherapy, 166, 115327.

Dr. Laila Dami | Automatic control | Best Researcher Award

Published on by Robotics and Automation

Dr. Laila Dami | Automatic control | Best Researcher Award

Cadi Ayyad University | Morocco

Dr. Laila Dami, is a dedicated researcher and educator in the field of electrical engineering and automation. She earned her doctorate in génie électrique et automatique from the université cadi-ayad, faculté des sciences semlalia, marrakech, with the distinction of très honorable avec félicitations du jury. Her academic background also includes a master’s degree in contrôle informatique industrielle, signaux et systèmes, and a professional licence in génie électrique et informatique industrielle. She has served as a primary school teacher under the ministère de l’éducation nationale du préscolaire et des sports, while actively engaging in higher education through practical teaching assignments at the faculté des sciences semlalia, department of physics. Her academic involvement covers key domains such as optics, Automatic control, digital electronics, and applied electricity. Dr. Dami’s research contributions are reflected in her scholarly metrics, with 12 published documents, 54 citations across 33 documents, and an h-index of 5, underscoring her growing impact in the scientific community. Her expertise bridges theoretical research and practical application, contributing to the advancement of electrical engineering and automation education in morocco.

Profiles: Scopus | Orcid

Featured Publications

Dami, L., Badie, K., Naami, G., & Benzaouia, A. (2025, December). Stabilization of delayed fractional-order Takagi–Sugeno fuzzy positive systems. International Journal of Dynamics and Control.

Badie, K., Dami, L., & Chalh, Z. (2024). H∞ fault detection for 2D discrete Markovian jump systems. International Journal of Systems, Control and Communications.

Dami, L., Benzaouia, A., & Badie, K. (2024, December). Stabilization of continuous two-dimensional fractional-order positive Takagi–Sugeno fuzzy systems with delays. Journal of Control, Automation and Electrical Systems.

Dami, L., & Benzaouia, A. (2023, December). Stabilization of switched two-dimensional fractional-order positive systems modeled by the Roesser model. Journal of Control, Automation and Electrical Systems.

Dami, L., & Benzaouia, A. (2023, December 18). H∞ control for 2D continuous singular systems described by the Roesser model. In 2023 IEEE 11th International Conference on Systems and Control (ICSC).

Dr. Christian Seebauer – Real-Time Robotic Control – Best Researcher Award

Published on by Robotics and Automation

Dr. Christian Seebauer - Real-Time Robotic Control - Best Researcher Award

Department of Oral and Maxillofacial Surgery / Plastic surgery, University Medicine Lübeck - Germany

Author Profile

SCOPUS

ORCID

Summary

Dr. Christian Seebauer is a distinguished medical and dental professional with dual qualifications in medicine and dentistry, complemented by specialist certifications in oral and maxillofacial surgery, oral surgery, and an upcoming qualification in plastic and aesthetic surgery. his academic journey spans prestigious institutions such as the friedrich-schiller-university jena, charité berlin, and university medical center greifswald. professionally, he has advanced from resident roles to senior consultant and managing senior consultant positions at leading german medical centers.

Early academic pursuits

Dr. Christian Seebauer began his academic career with a strong focus on medical sciences, enrolling in the friedrich-schiller-university jena in 1999. after completing his medical studies with distinction in 2006 (grade: very good), he pursued further specialization in dentistry at the ernst-moritz-arndt-university greifswald, obtaining his dental license in 2015, again with excellent academic standing. Real-Time Robotic Control these formative years laid a robust interdisciplinary foundation, blending medicine and dentistry—an essential duality for a successful career in oral and maxillofacial surgery.

Professional endeavors

Dr. Seebauer's professional journey reflects a steady rise through academic and clinical ranks. from his initial residency at charité – university medical center berlin in 2007 to his current role as a senior consultant at the university medical center lübeck (starting august 2024), he has consistently taken on increasing responsibilities. Real-Time Robotic Control notable leadership roles include managing senior consultant at greifswald and extended tenures at top-tier institutions. his board certifications in oral and maxillofacial surgery and oral surgery, combined with an upcoming specialization in plastic and aesthetic surgery, demonstrate a comprehensive skill set, bridging surgical precision with cosmetic refinement.

Contributions and research focus

Dr. Seebauer’s research interests span clinical innovation, reconstructive surgery, and interdisciplinary methods that often intersect with emerging technologies such as plasma science and power electronics in biomedical applications. his affiliation with the leibniz institute for plasma science and technology from 2015 to 2019 reflects a commitment to translational research aimed at Real-Time Robotic Control advancing surgical tools and techniques. he is also deeply engaged in integrating power electronics for precision-guided surgery and tissue regeneration processes, showcasing a futuristic approach to facial reconstruction.

Impact and influence

Dr. Seebauer has earned the respect of peers and institutions alike, evidenced by his summa cum laude doctorate in medicine from charité – berlin, and his upcoming dental doctorate and habilitation at lübeck. beyond clinical practice, he contributes to shaping surgical standards and mentoring younger professionals in the field. his interdisciplinary expertise is not only academically admired but also Real-Time Robotic Control clinically impactful, especially in complex reconstructive procedures where high-precision outcomes are crucial.

Academic cites

His scholarly footprint is backed by active roles in major german university hospitals and research institutions over the last two decades. while his formal publication and citation record will likely grow following his habilitationsschrift (habilitation thesis) completion, his influence is already recognized through participation in institutional research initiatives and conferences. his cross-disciplinary work with power Real-Time Robotic Control electronics and surgery places him among those exploring the frontier of med-tech convergence.

Legacy and future contributions

Dr. Christian Seebauer’s career trajectory indicates a lasting contribution to oral and maxillofacial surgery, with planned academic milestones such as his habilitation and continued research output. his efforts to integrate power electronics into surgical applications position him to be a leader in next-gen surgical systems, where robotics, sensors, Real-Time Robotic Control and micro-precision tools will redefine patient outcomes. in mentoring, innovation, and surgical excellence, his legacy will likely influence the evolving landscape of facial and cranial surgery in both academic and applied domains.

Notable Publications

  1. Title: Influence of Anticoagulant Concomitant Medication on Wound Healing: Analysis of a Multicentre Cohort of 212 Patients with a Uniform Wound Model
    Authors: Christian Seebauer, Fares Hanafieh, Jan Wolff, Hans‐Robert Metelmann, Marcus Vollmer
    Journal: British Journal of Clinical Pharmacology

  2. Title: Pulmonary Metastasising Aneurysmal Fibrous Histiocytoma: A Case Report, Literature Review and Proposal of Standardised Diagnostic Criteria
    Authors: Fiona Mankertz, Rebecca Keßler, Andrea Rau, Christian Seebauer, Silvia Ribback, Alexandra Busemann
    Journal: Diseases

  3. Title: Effects of Cold Physical Plasma on Oral Lichen Planus: An In Vitro Study (Effects of CAP on OLP)
    Authors: Christian Seebauer, Eric Freund, Sybille Hasse, Vandana Miller, Maria Segebarth, Christian Lucas, Stefan Kindler, Tobias Dieke, Hans‐Robert Metelmann, Georg Daeschlein, et al.
    Journal: Oral Diseases

  4. Title: Prevalence and Risk Factors of Potentially Malignant Disorders of the Mucosa in the General Population
    Authors: Stefan Kindler, Stefanie Samietz, Steffen Dickel, Maria Mksoud, Thomas Kocher, Christian Lucas, Christian Seebauer, Philine Doberschütz, Birte Holtfreter, Henry Völzke, et al.
    Journal: Annals of Anatomy – Anatomischer Anzeiger

Conclusion

Dr. Seebauer's career reflects a rare blend of surgical excellence, academic rigor, and technological innovation. His leadership roles and scholarly endeavors position him as a future thought leader in oral and maxillofacial surgery, with a strong focus on integrating modern tools like power electronics to revolutionize patient care. as he approaches key milestones—such as the completion of his dental doctorate and habilitation—his influence is set to expand both in clinical practice and academic research. his legacy will likely be defined by his contributions to surgical innovation, mentorship, and the convergence of medicine with cutting-edge technologies.