Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Bulgarian-Ukrainian strategic space technology group
Satellite Components, Semiconductor Growth, and AI Mission Intelligence
From Bulgarian labs to orbital deployment.
Built for research labs, satellite teams, and mission operators
Collaborating across Europe on advanced aerospace programs
Why UTS
"Qualification-first, always. UTS is structured so research, engineering, industrial execution, and institutional cooperation stay connected from the first lab result to the final deployment decision."
UTS Strategic Positioning
Research, engineering, industrial execution, institutional cooperation
Research depth
Advanced materials, semiconductor growth, thermal imaging, and mission data science working inside one coordinated research framework.
Engineering discipline
Satellite systems support, subsystem integration, qualification planning, and mission analytics designed for institutional and industrial programs.
Collaborating across Europe on advanced aerospace programs
Why UTS
"Qualification-first, always. UTS is structured so research, engineering, industrial execution, and institutional cooperation stay connected from the first lab result to the final deployment decision."
UTS Strategic Positioning
Research, engineering, industrial execution, institutional cooperation
Research depth
Advanced materials, semiconductor growth, thermal imaging, and mission data science working inside one coordinated research framework.
Engineering discipline
Satellite systems support, subsystem integration, qualification planning, and mission analytics designed for institutional and industrial programs.
Collaborating across Europe on advanced aerospace programs
Why UTS
"Qualification-first, always. UTS is structured so research, engineering, industrial execution, and institutional cooperation stay connected from the first lab result to the final deployment decision."
UTS Strategic Positioning
Research, engineering, industrial execution, institutional cooperation
Research depth
Advanced materials, semiconductor growth, thermal imaging, and mission data science working inside one coordinated research framework.
Engineering discipline
Satellite systems support, subsystem integration, qualification planning, and mission analytics designed for institutional and industrial programs.
From crystal growth to mission intelligence.
UTS unites materials science, electronics, and AI analytics in one R&D pipeline, from wafer growth and matrices to in-orbit data interpretation.
Laboratory and mission workflow
Processes engineered for repeatability, traceability, and rapid cross-team decisions.
AI systems for scientific analytics, manufacturing intelligence, telemetry review, and anomaly detection.
Research integration
UTS connects lab tools, fabrication data, and partner systems without breaking traceability.
Research integration
UTS connects lab tools, fabrication data, and partner systems without breaking traceability.
Research integration
UTS connects lab tools, fabrication data, and partner systems without breaking traceability.
24/7
Education
Nonprofit education programs
We open space science, semiconductor literacy, and AI practice to students and young researchers.
24/7
Education
Nonprofit education programs
We open space science, semiconductor literacy, and AI practice to students and young researchers.
24/7
Education
Nonprofit education programs
We open space science, semiconductor literacy, and AI practice to students and young researchers.
Grounded in scientific discipline, manufacturing depth, and mission data expertise.
Grounded in scientific discipline, manufacturing depth, and mission data expertise.
Mila Petrova
Materials Scientist
Oleksii Bondar
Semiconductor Engineer
Iva Dimitrova
Satellite Systems Lead
Kateryna Horbunova
AI Data Scientist
Georgi Stanev
CEO
Yavor Kolev
Payload Integration Lead
Mariia Koval
Orbital Systems Analyst
Nikolay Velikov
Education Program Director
Tsvetelina Raynova
Chip Growth Researcher
Andrii Melnyk
Big Data Engineer
Mila Petrova
Materials Scientist
Oleksii Bondar
Semiconductor Engineer
Iva Dimitrova
Satellite Systems Lead
Kateryna Horbunova
AI Data Scientist
Georgi Stanev
CEO
Yavor Kolev
Payload Integration Lead
Mariia Koval
Orbital Systems Analyst
Nikolay Velikov
Education Program Director
Tsvetelina Raynova
Chip Growth Researcher
Andrii Melnyk
Big Data Engineer
Mila Petrova
Materials Scientist
Oleksii Bondar
Semiconductor Engineer
Iva Dimitrova
Satellite Systems Lead
Kateryna Horbunova
AI Data Scientist
Georgi Stanev
CEO
Yavor Kolev
Payload Integration Lead
Mariia Koval
Orbital Systems Analyst
Nikolay Velikov
Education Program Director
Tsvetelina Raynova
Chip Growth Researcher
Andrii Melnyk
Big Data Engineer
Mission-ready subsystems built to aerospace standards
We engineer components, materials, and data layers to perform together across design, testing, and orbital deployment.
Space Technologies
Space Technologies
Space Technologies
Thermal Imaging
Thermal Imaging
Thermal Imaging
Semiconductor Development
Semiconductor Development
Semiconductor Development
AI Systems
AI Systems
AI Systems
Advanced Materials
Advanced Materials
Advanced Materials
Scientific Infrastructure
Scientific Infrastructure
Scientific Infrastructure
Research partnerships
Scientific infrastructure that connects laboratories, qualification workflows, institutional cooperation, and industrial execution.
Scientific programs and partnerships
UTS combines Bulgarian manufacturing capacity with Ukrainian engineering talent to build satellite components, advance materials science, grow semiconductor structures, and analyze large datasets with AI.
4.9
"UTS is one of the rare teams that can discuss crystal growth, qualification data, and orbital deployment in the same room. That combination is exactly what serious space hardware programs need."
Yavor Kolev
Big Data Engineer
4.9
"UTS is one of the rare teams that can discuss crystal growth, qualification data, and orbital deployment in the same room. That combination is exactly what serious space hardware programs need."
Yavor Kolev
Big Data Engineer
4.9
"UTS is one of the rare teams that can discuss crystal growth, qualification data, and orbital deployment in the same room. That combination is exactly what serious space hardware programs need."
Yavor Kolev
Big Data Engineer
Collaboration formats for missions, labs, and institutions
UTS combines Bulgarian manufacturing capacity with Ukrainian engineering talent to build satellite components, advance materials science, grow semiconductor structures, and analyze large datasets with AI.
Early-stage
Strategic
Most common
Feasibility Sprint
For early feasibility studies, lab validation, and component concept work.
Scoped
Scoped
Scoped
/ engagement
Typical scope:
Mission architecture review
Materials, chip, and component feasibility
AI-assisted data triage
Direct access to scientific leads
Most common
Mission Partnership
For multi-phase satellite programs, custom semiconductor work, qualification campaigns, and mission data support.
Custom
Custom
Custom
/ engagement
Typical scope:
For satellite primes, research institutions, and long-horizon industrial partners.
End-to-end hardware, semiconductor, materials, and analytics collaboration.
Custom semiconductor growth, qualification campaigns, and mission data pipelines.
Direct access to scientific leads
Early-stage
Strategic
Most common
Feasibility Sprint
For multi-phase satellite programs, custom semiconductor work, qualification campaigns, and mission data support.
Scoped
Scoped
Scoped
/ engagement
Typical scope:
Mission architecture review
Materials, chip, and component feasibility
AI-assisted data triage
Direct access to scientific leads
Most common
Mission Partnership
For multi-phase satellite programs, custom semiconductor work, qualification campaigns, and mission data support.
Custom
Custom
Custom
/ engagement
Typical scope:
For satellite primes, research institutions, and long-horizon industrial partners.
End-to-end hardware, semiconductor, materials, and analytics collaboration.
Custom semiconductor growth, qualification campaigns, and mission data pipelines.
Direct access to scientific leads
Early-stage
Strategic
Most common
Feasibility Sprint
For multi-phase satellite programs, custom semiconductor work, qualification campaigns, and mission data support.
Scoped
Scoped
Scoped
/ engagement
Typical scope:
Mission architecture review
Materials, chip, and component feasibility
AI-assisted data triage
Direct access to scientific leads
Most common
Mission Partnership
For multi-phase satellite programs, custom semiconductor work, qualification campaigns, and mission data support.
Custom
Custom
Custom
/ engagement
Typical scope:
For satellite primes, research institutions, and long-horizon industrial partners.
End-to-end hardware, semiconductor, materials, and analytics collaboration.
Custom semiconductor growth, qualification campaigns, and mission data pipelines.
Direct access to scientific leads
Strategic Cooperation
Bulgarian and Ukrainian engineers, scientists and institutions working together
Why does UTS operate qualification-first?
Because serious programs need research depth, engineering discipline, industrial execution, and institutional coordination to move in one accountable flow.
Does UTS support strategic industries beyond one subsystem?
Can UTS work with institutional and industrial partners together?
Why Bulgaria + Ukraine?
How does AI support mission programs?
Why does UTS operate qualification-first?
Because serious programs need research depth, engineering discipline, industrial execution, and institutional coordination to move in one accountable flow.
Does UTS support strategic industries beyond one subsystem?
Can UTS work with institutional and industrial partners together?
Why Bulgaria + Ukraine?
How does AI support mission programs?
Why does UTS operate qualification-first?
Because serious programs need research depth, engineering discipline, industrial execution, and institutional coordination to move in one accountable flow.
Does UTS support strategic industries beyond one subsystem?
Can UTS work with institutional and industrial partners together?
Why Bulgaria + Ukraine?
How does AI support mission programs?
Selected Strategic Initiatives
Selected Strategic Initiatives
UTS combines Bulgarian manufacturing capacity with Ukrainian engineering talent to build satellite components, advance materials science, grow semiconductor structures, and analyze large datasets with AI.
UTS combines Bulgarian manufacturing capacity with Ukrainian engineering talent to build satellite components, advance materials science, grow semiconductor structures, and analyze large datasets with AI.
Space Technologies
Satellite Component Development
Space Technologies
Satellite Component Development
Thermal Imaging
Thermal Imaging Matrix Cooperation
Thermal Imaging
Thermal Imaging Matrix Cooperation
Semiconductor Development
Semiconductor Research Partnerships
Semiconductor Development
Semiconductor Research Partnerships
Space Technologies
Satellite Component Development
Thermal Imaging
Thermal Imaging Matrix Cooperation
Semiconductor Development
Semiconductor Research Partnerships
AI Systems
AI-Based Scientific Analytics
Science-led aerospace company
Science-led aerospace company
Science-led aerospace company
Science-led aerospace company
Science-led aerospace company
Satellite Components, Semiconductor Growth, and AI Mission Intelligence
UTS combines Bulgarian manufacturing capacity with Ukrainian engineering talent to build satellite components, advance materials science, grow semiconductor structures, and analyze large datasets with AI.
Science-led aerospace company
Science-led aerospace company
Science-led aerospace company
Science-led aerospace company
Science-led aerospace company
Satellite Components, Semiconductor Growth, and AI Mission Intelligence
UTS combines Bulgarian manufacturing capacity with Ukrainian engineering talent to build satellite components, advance materials science, grow semiconductor structures, and analyze large datasets with AI.
Science-led aerospace company
Science-led aerospace company
Science-led aerospace company
Science-led aerospace company
Science-led aerospace company
Satellite Components, Semiconductor Growth, and AI Mission Intelligence
UTS combines Bulgarian manufacturing capacity with Ukrainian engineering talent to build satellite components, advance materials science, grow semiconductor structures, and analyze large datasets with AI.