Iyad Alomar | Aerospace Engineering | Aerospace Engineering Award

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Prof. Iyad Alomar | Aerospace Engineering | Aerospace Engineering Award

Aviation Engineering Program director, Transport and Telecommunication Institute, Latvia.

Dr. Iyad Alomar is a Syrian-born aerospace engineer and academic based in Riga, Latvia. He holds a Ph.D. in Engineering Sciences from the Transport and Telecommunication Institute (TTI), Riga, and an MSc in Aircraft Technical Maintenance from Riga Aviation University. Dr. Alomar has contributed significantly to the field of aviation engineering through his extensive research and publications. He is a member of the editorial board for the journal Aviation and serves on the scientific committee for the 13th International Conference on Transportation Science and Technology (TRANSBALTICA 2022). His work focuses on optimizing aircraft maintenance processes, enhancing operational efficiency, and integrating digital technologies in aviation. Dr. Alomar is also an active member of the International Advisory Board for the ICAA’21 conference on aeronautics and astronautics.

Profiles

🎓 Education

Dr. Iyad Alomar’s academic journey is marked by a strong foundation in aerospace engineering. He completed his Master of Science in Aircraft Technical Maintenance at Riga Aviation University in 1996. Building upon this, he pursued advanced studies at the Transport and Telecommunication Institute in Riga, where he earned his Doctor of Science in Engineering (Dr.Sc.Eng) in 2019. His doctoral research focused on optimizing aircraft maintenance processes and integrating digital technologies to enhance operational efficiency in the aviation industry. Throughout his academic career, Dr. Alomar has been committed to advancing knowledge in aerospace engineering, contributing to various international conferences and journals. His educational background has equipped him with the expertise to address complex challenges in aviation maintenance and operations.

💼 Experience

Dr. Iyad Alomar has a distinguished career in aerospace engineering, combining academic research with practical applications in the aviation industry. He is currently a faculty member at the Transport and Telecommunication Institute in Riga, Latvia, where he teaches and conducts research in aviation engineering. In addition to his academic role, Dr. Alomar serves on the editorial board of the journal Aviation and is a member of the scientific committee for the 13th International Conference on Transportation Science and Technology (TRANSBALTICA 2022). He is also an active member of the International Advisory Board for the ICAA’21 conference on aeronautics and astronautics. Dr. Alomar’s professional activities reflect his dedication to advancing the field of aerospace engineering through collaboration, research, and education.

🔬 Research Focus

Dr. Iyad Alomar’s research focuses on optimizing aircraft maintenance processes, enhancing operational efficiency, and integrating digital technologies in aviation. His work aims to reduce aircraft downtime and improve the overall performance of airline operations. Notable publications include studies on the optimization of aircraft on-ground (AOG) processes and the integration of artificial intelligence in airline operation control centers. Dr. Alomar has also contributed to research on fatigue management methodologies for flight crews and the impact of unpredictable major events on the aviation industry. His interdisciplinary approach combines engineering principles with digital technologies to address complex challenges in the aviation sector. Through his research, Dr. Alomar seeks to contribute to the development of more efficient and resilient aviation systems.

📚Publication Top Notes

  1. “Improvement of Fatigue Management Methodology Related to Flight Crew”
    Published: September 20, 2024, in Aviation
    DOI: 10.3846/aviation.2024.22146
    Summary: This study explores methodologies to enhance fatigue management among flight crews, aiming to improve their well-being and overall aviation safety.

  2. “Investigation of Performance Improvement of Gas Turbine Engine by Optimized Design of Blade Turbine Cooling Channels”
    Published: 2024
    Summary: This doctoral research focuses on optimizing the design of cooling channels within turbine blades to improve the performance of gas turbine engines.

  3. “Modelling and Simulation of the Riga International Airport to Reduce Turnaround Times of Crucial Clearance Processes”
    Published: January 24, 2018, in Reliability and Statistics in Transportation and Communication
    DOI: 10.1007/978-3-319-74454-4_51
    Summary: This paper presents a simulation model aimed at reducing turnaround times for critical clearance processes at Riga International Airport.

  4. “Analysis of Riga International Airport Flight Delays”
    Published: January 24, 2018, in Reliability and Statistics in Transportation and Communication
    DOI: 10.1007/978-3-319-74454-4_50
    Summary: This study analyzes flight delays at Riga International Airport, identifying factors contributing to delays and suggesting improvements.

  5. “Simulation of Ground Vehicles Movement on the Aerodrome”
    Published: 2017, in Procedia Engineering
    DOI: 10.1016/j.proeng.2017.01.061
    Summary: This paper develops a simulation model to study the movement of ground vehicles on aerodromes, aiming to improve operational efficiency.

  6. “Vibroacoustic Soundproofing for Helicopter Interior”
    Published: 2023, in Aviation
    Summary: This study investigates methods for reducing vibratory and acoustic noise in helicopter interiors to enhance passenger comfort.

  7. “Comparative Statistical Analysis of Airport Flight Delays for the Period 2019–2020. Almaty International Airport Case Study”
    Published: 2022
    Summary: This research analyzes flight delays at Almaty International Airport, identifying contributing factors and proposing strategies to minimize delays.

Conclusion

Iyad Alomar presents a solid background in aviation and aerospace through education, international academic involvement, and advisory roles. These are valuable indicators of expertise and standing in the field. However, to be a strong contender for a Research in Aerospace Engineering Award, more emphasis should be placed

Mr Adolor David Aiyeki | Additive Manufacturing of Lunar Regolith Simulant | Best Paper Award

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Mr Adolor David Aiyeki | Additive Manufacturing of Lunar Regolith Simulant | Best Paper Award

PhD Student, Skolkovo Institute of Science and Technology, Russia

Adolor David Aiyeki is an emerging researcher and engineer dedicated to the advancement of sustainable manufacturing technologies for both Earth and extraterrestrial environments. He is currently a Ph.D. candidate in Mathematics and Mechanics at the Skolkovo Institute of Science and Technology, Russia. Adolor’s journey began with a Bachelor’s degree in Mechanical Engineering from the University of Benin, Nigeria, and a Master’s in Advanced Manufacturing from Skoltech. A natural problem solver and systems thinker, he integrates hands-on industry experience with high-level academic research. He has led automation and mechanical engineering projects in Nigeria and contributed to sustainability education as a UN SDG Action Campaign volunteer. Adolor’s work focuses on additive manufacturing of lunar regolith for space construction, and he has received multiple honors for academic excellence and innovation. Driven by curiosity, sustainability, and global impact, he aspires to revolutionize the future of space-based manufacturing and green energy systems through innovative material research.

Profile

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🎓 Education

Adolor David Aiyeki has a solid academic background in mechanical engineering and advanced manufacturing. He earned his Bachelor of Engineering in Mechanical Engineering from the University of Benin, Nigeria, where he conducted research on biomass gasifiers. He further pursued a Master of Science in Advanced Manufacturing Technologies at the Skolkovo Institute of Science and Technology, Russia, with a thesis on using lunar regolith for in-situ space construction through Digital Light Processing (DLP). His curriculum included advanced topics in finite element analysis, additive manufacturing, composite materials, and product lifecycle management (PLM). Currently, Adolor is a Ph.D. candidate in Mathematics and Mechanics at Skoltech, investigating supercritical CO₂ processing for photopolymer-based ceramic 3D printing. His interdisciplinary education spans core mechanical engineering, computational modeling, sustainability, and futuristic space applications, empowering him with the theoretical foundation and experimental skills to drive innovation at the intersection of energy, material science, and manufacturing.

💼 Experience 

Adolor’s professional experience spans engineering, education, and sustainability. He served as an Assistant Home Automation Engineer at Hometronix Nigeria, where he developed and installed smart control systems for residential and commercial clients. His efforts improved project efficiency and earned a high client satisfaction rate. At Friday Omoragbon & Sons Ltd., he worked as a Mechanical Engineer, supervising construction and pipeline installations. Earlier, as an intern at the Nigeria Airspace Management Agency and Autogenius Royal Motors, he gained valuable hands-on experience in power systems and automotive diagnostics. In addition, Adolor worked as a science teacher, inspiring students in mathematics, physics, and basic technology. His long-term volunteer work with the UN SDG Action Campaign showcases his passion for advocacy, where he led youth engagement programs and sustainable development initiatives. These multifaceted roles reflect his adaptability, leadership, and technical skills across diverse sectors from field engineering to global awareness.

🏅 Awards and Honors 

Adolor David Aiyeki has been widely recognized for his academic excellence and leadership potential. At Skolkovo Institute of Science and Technology, he received the Scholarship for Development and Academic Excellence, and his Master’s thesis earned the Best Research Thesis Award (2024). His undergraduate achievements were supported by the Matthew Okpebholo Foundation Scholarship and the Agbami Medical and Engineering Professionals Scholarship, spanning 2014–2017. His talent in science was evident early on, winning a Gold Medal at the Science Talent Search Innovation Championship and a Silver Medal in the STAN National Competition. He also graduated as the Best Science Student from Blessed Saint Paul High School in 2009. These awards reflect not only Adolor’s academic rigor but also his commitment to social impact and scientific innovation. With each honor, his trajectory affirms his position as a promising thought leader in sustainable energy, materials research, and space engineering.

🔬 Research Focus 

Adolor’s research revolves around advanced additive manufacturing technologies and their applications in sustainable and extraterrestrial construction. His Master’s research focused on “Improved Additive Manufacturing of Lunar Regolith Simulant via Digital Light Processing”, a breakthrough concept for in-situ resource utilization (ISRU) on the Moon. This work aims to reduce dependence on Earth-bound materials for space missions by turning lunar soil into usable construction materials using photopolymerization techniques. Currently, his Ph.D. project explores the use of supercritical CO₂ in ceramic additive manufacturing, enhancing material strength and resolution. His approach is deeply interdisciplinary, integrating fluid dynamics, multiphase flow modeling, and material characterization. The dual focus on green manufacturing and space resource utilization places Adolor’s research at the forefront of next-gen engineering. His work has implications for sustainable infrastructure on Earth and future Moon or Mars colonization projects, contributing to the growing field of space engineering and planetary sustainability.

📚 Publication

📘 Improved Additive Manufacturing of Lunar Regolith Simulant via Digital Light Processing for In-Situ Resource Utilization on the Moon 🌕🖨️🧪

Lynne Githio | Space Environment | Best Researcher Award

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Ms Lynne Githio | Space Environment | Best Researcher Award

Ms Lynne Githio, Egypt-Japan University of Science and Technology, Kenya

Lynne Nkatha Githio is a dynamic graduate student specializing in space environment research, with a focus on ionospheric physics and space weather. Currently pursuing her Master of Science at Egypt-Japan University of Science and Technology (E-JUST), she is actively exploring ionospheric irregularities such as plasma bubbles and Travelling Ionospheric Disturbances (TIDs) and their impact on GNSS accuracy. Lynne has a robust academic background, having graduated with First Class Honors in Control and Instrumentation from Jomo Kenyatta University of Agriculture and Technology (JKUAT). She has proven leadership capabilities as the Secretary General for the International Students’ Association at E-JUST. Her technical skills include programming in C, C++, and MATLAB, along with experience in GNSS signal processing. With a passion for collaborative research and problem-solving, Lynne is determined to contribute meaningfully to space research innovations.

Publication Profile

Orcid

Strengths for the Award

Lynne Githio demonstrates exceptional academic and research capabilities, specifically in the field of space environment and ionospheric physics. Her work on ionospheric irregularities and their impact on GNSS positioning has practical significance in space weather studies. Her experience as a lab assistant and leadership as the Secretary General for the International Students’ Association reflects her teamwork and organizational skills. Additionally, Lynne’s use of advanced programming languages (C, C++, MATLAB) and GNSS signal processing is essential for modern space physics research. Her collaborative research publication on plasma bubbles using machine learning exemplifies her innovative approach.

Areas for Improvement

Lynne could expand her technical repertoire by gaining more in-depth experience in Python programming, which is critical in modern research. Additionally, gaining more exposure to hands-on satellite technology and fieldwork in ionospheric studies would complement her strong academic foundation.

 

Education

Lynne Nkatha Githio is currently pursuing her Master of Science in Space Environment at Egypt-Japan University of Science and Technology (E-JUST), where she delves into critical topics such as ionospheric physics, space plasma physics, and space weather. Her research focuses on ionospheric irregularities and their impact on GNSS positioning systems, which include plasma bubbles and Travelling Ionospheric Disturbances (TIDs). She has demonstrated strong leadership as the Secretary General of the International Students’ Association at E-JUST. Before this, she earned her Bachelor of Science in Control and Instrumentation from Jomo Kenyatta University of Agriculture and Technology (JKUAT), graduating with First Class Honors. During her undergraduate studies, Lynne actively participated in departmental activities, serving as a delegate in the physics department. She also participated in key projects, showcasing her analytical and research capabilities that contributed to her academic achievements.

Experience

Lynne Nkatha Githio’s work experience is grounded in her role as a lab assistant and technician at Jomo Kenyatta University of Agriculture and Technology (JKUAT), where she worked from January to April 2022. During this period, Lynne provided key support in setting up physics experiments and ensured that all equipment and materials were arranged effectively. She guided undergraduate students, fostering a collaborative learning environment, and took on additional responsibilities such as exam supervision and grading lab reports. Her leadership skills have also been demonstrated in her role as Secretary General of the International Students’ Association at E-JUST, where she actively supports international student initiatives. Lynne’s technical expertise spans GNSS signal processing, C/C++ and MATLAB programming, and basic Python programming, which she leverages to contribute to her ongoing research in space environment and ionospheric physics.

Awards and Honors

Lynne Nkatha Githio has been recognized for her innovative approach to space environment research. One of her notable achievements is the design and development of a mini satellite payload (CanSat) that was launched in the troposphere using a drone. The satellite successfully monitored atmospheric parameters such as temperature, pressure, and UV levels at an apogee altitude of 1,720 meters. This project earned her second place at Jomo Kenyatta University of Agriculture and Technology (JKUAT) Tech Expo 11.0 in November 2021. Lynne has also participated in various international workshops and colloquiums, including the International Colloquium on Equatorial and Low Latitude Ionosphere (ICELLI) in 2023. These recognitions underscore her dedication to advancing space environment research and her contributions to atmospheric monitoring and space weather studies.

Research Focus

Lynne Nkatha Githio’s research is focused on ionospheric physics and space weather, with particular attention to ionospheric irregularities like plasma bubbles and Travelling Ionospheric Disturbances (TIDs). Her work investigates how these irregularities influence GNSS signal processing and positioning accuracy, a crucial area for enhancing the reliability of satellite-based systems. Lynne is also interested in understanding the dynamics of the equatorial ionosphere, including the formation and evolution of plasma bubbles. Her ongoing research at Egypt-Japan University of Science and Technology (E-JUST) integrates computational methods using MATLAB to model ionospheric disturbances. With a long-term goal of advancing space environment research, Lynne is committed to exploring innovative solutions that contribute to the understanding of space weather’s impact on satellite communications and navigation systems.

Publication Top Notes

A Machine Learning Approach for Estimating the Drift Velocities of Equatorial Plasma Bubbles Based on All-Sky Imager and GNSS Observations

Conclusion

With her strong academic background, innovative research focus, and demonstrated leadership, Lynne Githio is a suitable candidate for the Best Researcher Award. Her contributions to the field of ionospheric physics and commitment to advancing scientific knowledge make her a strong contender.