Research Excellence Award

Amilcar Rincon Charris
Affiliation	Collins Aerospace Puerto Rico
Country	United States
Scopus ID	36133620800
Documents	12
Citations	32
h-index	3
Subject Area	Space Based CNS
Event	Business Global Awards
ORCID	0000-0003-3139-7699

Amilcar Rincon Charris
Collins Aerospace Puerto Rico, United States

Amilcar Rincon Charris is a researcher and engineering professional associated with Collins Aerospace Puerto Rico, with research interests in space-based communication, navigation, surveillance systems, aerospace simulation technologies, and CubeSat power management systems. His academic and technical contributions include work related to dynamic real-time simulation, aerospace systems engineering, and satellite-based communication infrastructure within the broader domain of Space Based CNS technologies.[1] His scholarly profile reflects interdisciplinary engagement across aerospace engineering, systems modelling, and advanced satellite applications relevant to modern aerospace communication environments.[2]

Abstract

Amilcar Rincon Charris and his research profile within the field of Space Based CNS technologies. His scholarly and technical activities involve aerospace systems engineering, CubeSat applications, dynamic simulation methodologies, and communication infrastructure modelling for satellite environments. His research contributions support developments in navigation, surveillance systems, aerospace communication reliability, and real-time simulation approaches used in modern space-based platforms.[3]

Keywords

Space Based CNS; CubeSat Applications; Aerospace Engineering; Satellite Communication; Real-Time Simulation; Power Management Modelling; Aerospace Systems; Navigation Systems; Surveillance Technology; Communication Infrastructure; Systems Engineering; Aerospace Research.

Introduction

Space Based CNS systems play a critical role in modern aerospace operations by supporting communication, navigation, and surveillance technologies used in aviation, satellite systems, and space exploration. These technologies contribute to enhanced aerospace safety, operational efficiency, satellite coordination, and autonomous mission management. The integration of simulation models, CubeSat architectures, and aerospace communication systems has expanded research opportunities in advanced aerospace engineering and systems analysis.

Amilcar Rincon Charris has contributed to this field through research and technical activities involving power management modelling for CubeSat applications and dynamic simulation systems relevant to aerospace communication infrastructures. His work reflects interdisciplinary engagement between aerospace engineering, systems modelling, and real-time computational analysis.[4]

Research Profile

The research profile of Amilcar Rincon Charris reflects involvement in aerospace engineering and satellite systems research with particular attention to CubeSat technologies, aerospace modelling, and communication infrastructure simulation. His Scopus-indexed publication record demonstrates participation in scientific studies related to aerospace systems optimization and real-time engineering analysis.[5]

His academic metrics include twelve indexed publications, thirty-two citations, and an h-index of three, indicating scholarly engagement and technical visibility within aerospace and systems engineering research communities.

The interdisciplinary nature of his work integrates systems engineering methodologies, aerospace simulation technologies, satellite communication frameworks, and computational modelling approaches relevant to next-generation aerospace operations.

Research Contributions

Amilcar Rincon Charris has contributed to aerospace engineering research involving dynamic real-time simulation systems and power management modelling for CubeSat applications. His work addresses technical challenges associated with satellite communication reliability, energy optimization, and computational simulation frameworks used in space-based aerospace systems.

His contributions also extend to modelling methodologies that support aerospace communication networks, navigation system reliability, and engineering simulation environments relevant to communication and surveillance infrastructures. Such research is increasingly significant in the context of modern aerospace missions and satellite-enabled operations.

Through technical collaboration and scientific publication, Rincon Charris has participated in multidisciplinary aerospace engineering initiatives that combine systems analysis, computational modelling, and applied aerospace technologies to support innovation within Space Based CNS systems.

Publications

The publication record of Amilcar Rincon Charris includes scientific papers and technical conference contributions related to aerospace systems engineering, simulation modelling, and CubeSat applications. His work is indexed within Scopus and reflects participation in peer-reviewed engineering and aerospace research dissemination.

Research Impact

The research contributions of Amilcar Rincon Charris support ongoing advancements in aerospace systems engineering, satellite communication technologies, and computational simulation frameworks. His work contributes to improving understanding of CubeSat operational modelling and power management methodologies relevant to modern aerospace missions.

Through scholarly dissemination and engineering collaboration, his research activities assist in strengthening aerospace infrastructure development, simulation reliability, and communication system efficiency within space-based operational environments. These contributions align with contemporary aerospace engineering priorities focused on innovation, scalability, and mission optimization.

Award Suitability

Amilcar Rincon Charris demonstrates professional and academic qualifications aligned with the objectives of the Research Excellence Award. His involvement in aerospace engineering research, Space Based CNS technologies, and simulation-based system modelling reflects continued engagement in technical innovation and scientific contribution.

The combination of peer-reviewed publication activity, aerospace systems research, and interdisciplinary engineering collaboration supports recognition within international academic and technical award platforms dedicated to innovation, scientific research, and engineering advancement.

Conclusion

Amilcar Rincon Charris has established a research profile focused on aerospace engineering, CubeSat applications, and Space Based CNS technologies. His contributions to simulation modelling, aerospace communication systems, and engineering research reflect participation in the evolving landscape of modern aerospace innovation. Through scientific publications and interdisciplinary technical activities, he contributes to research advancement within aerospace systems engineering and satellite communication infrastructure development.

External Links

• ORCID Profile
  
• Scopus Author Profile

References

1. Elsevier. (2026). Scopus author details: Rincon-Charris, Amilcar Alejandro, Author ID 36133620800. Scopus Preview.
   https://www.scopus.com/authid/detail.uri?authorId=36133620800
   
2. ORCID. (n.d.). Amilcar Rincon Charris ORCID Profile.
   https://orcid.org/0000-0003-3139-7699
   
3. IEEE 42nd Photovoltaic Specialist Conference. (2015). Design and thermal testing of a power supply prototype for the space plasma ionic charge analyzer (SPICA) CubeSat
   https://ieeexplore.ieee.org/abstract/document/7356294
   
4. IEEE 44th Photovoltaic Specialist Conference. (2023). Buck converter and SEPIC based electronic power supply design with MPPT and voltage regulation for small satellite applications.
   https://ieeexplore.ieee.org/abstract/document/8366626
5. IEEE 46th Photovoltaic Specialists Conference. (2019). Dynamic real-time simulation approach to power management modelling for CubeSat applications.
   https://ieeexplore.ieee.org/abstract/document/8981364