Difference between revisions of "Minibee TRL4"

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Active task on the mini-bee project
+
{{DISPLAYTITLE:TRL 4 – Mini-Bee}}
  
Past TRL steps :<br>
+
__TOC__
[[Minibee TRL3]]<BR>
 
[[Minibee TRL2]]<BR>
 
[[Minibee TRL1]]<BR>
 
  
 +
<div style="border:1px solid #cfd6dd; background:#ffffff; margin-bottom:20px;">
 +
<div style="background:#1f3a5f; color:#ffffff; padding:12px 16px; font-weight:bold;">
 +
TRL 4 – Mini-Bee | Technology Validated in Laboratory
 +
</div>
 +
<div style="padding:16px;">
 +
{| style="width:100%; border-collapse:collapse;"
 +
|-
 +
| style="width:48%; vertical-align:middle; padding-right:18px;" |
 +
At '''TRL 4''', the '''Mini-Bee''' project entered a more advanced demonstrator-oriented phase.
  
== Tasks of year 2022/2023 ==
+
The objective of this stage is to validate key technologies in controlled environments, including the hybrid power chain, the physical and digital mock-ups, the Flight Control Unit, the structural assumptions and the first subsystem test benches.
  
Ecole Centrale Lille<br>
+
This page documents the active TRL 4 work carried out during the '''2022/2023 academic year''' and the continuation of the Mini-Bee development after TRL 3.
[[File:15 02 2023 Soutenance finale compressed.pdf]]<br>
 
  
Estaca Bordeaux 3A chaine de puissance
+
| style="width:52%; vertical-align:middle; text-align:center;" |
[[File:202305 Projet Ingénieur ESTACA CR Final.pdf]]<br>
+
[[File:MiniBee_TRL4_project_development_steps.png|frameless|520px|Mini-Bee project development steps]]
[[File:202305 Projet MiniBee Soutenance finale corrigé.pdf]]<br>
+
<div style="color:#4b5563; margin-top:6px;">Mini-Bee project development roadmap – TRL4 transition</div>
 +
|}
 +
</div>
 +
</div>
  
Estaca Bordeaux Maquette physique à échelle réduite
+
== Quick project summary ==
[[File:202305 Rapport de projet industriel - Projet Mini-Bee.pdf]]<br>
 
[[File:202305 Soutenance MiniBee ESTACA 3A BDX Structure.pdf]]<br>
 
  
Estaca SQY Maquette numérique
+
{| style="width:100%; border-collapse:separate; border-spacing:12px; margin-bottom:20px;"
[[File:2023 05 09 Document support.pdf]]<br>
+
|-
[[File:2023 05 09 Rapport final.pdf]]<br>
+
| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#f6f8fa; padding:12px;" |
[[File:2023 05 09 Soutenance.pdf]]<br>
+
'''Project'''<br />
 +
Mini-Bee
  
Estaca SQY Propulsion hybride
+
| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#f6f8fa; padding:12px;" |
[[File:202305 Présentation Soutenance versionF.pdf]]<br>
+
'''TRL stage'''<br />
[[File:202305 Rapport de projet.pdf]]<br>
+
TRL 4 – Technology Validated in Laboratory
 +
 
 +
| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#f6f8fa; padding:12px;" |
 +
'''Main period documented'''<br />
 +
Academic year 2022/2023
 +
 
 +
| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#f6f8fa; padding:12px;" |
 +
'''Main focus'''<br />
 +
Subsystem validation, FCU, hybrid power chain and mock-ups
 +
|}
 +
 
 +
== TRL 4 visual overview ==
 +
 
 +
{| style="width:100%; border-collapse:separate; border-spacing:12px; margin-bottom:20px;"
 +
|-
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:MiniBee_TRL4_60_rotors_front_view.png|frameless|300px|Mini-Bee TRL4 rotor architecture]]
 +
<div style="margin-top:8px;">'''Rotor architecture'''</div>
 +
<div style="color:#4b5563;">Front view of the historical TRL4 distributed rotor configuration.</div>
 +
<div style="margin-top:8px;">[[Media:MiniBee_TRL4_60_rotors_front_view.png|Open image]]</div>
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:MiniBee_TRL4_cockpit_structure_mockup.png|frameless|300px|Mini-Bee TRL4 cockpit structure mock-up]]
 +
<div style="margin-top:8px;">'''Cockpit structure'''</div>
 +
<div style="color:#4b5563;">Cockpit and seat integration mock-up used for structure and ergonomic studies.</div>
 +
<div style="margin-top:8px;">[[Media:MiniBee_TRL4_cockpit_structure_mockup.png|Open image]]</div>
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:MiniBee_TRL4_project_development_steps.png|frameless|300px|Mini-Bee project development steps]]
 +
<div style="margin-top:8px;">'''Development roadmap'''</div>
 +
<div style="color:#4b5563;">Project development steps showing the progression from early mock-ups to demonstrator work.</div>
 +
<div style="margin-top:8px;">[[Media:MiniBee_TRL4_project_development_steps.png|Open image]]</div>
 +
|}
 +
 
 +
== Previous TRL steps ==
 +
 
 +
{| style="width:100%; border-collapse:separate; border-spacing:12px; margin-bottom:20px;"
 +
|-
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''TRL 1 – Basic principles observed'''
 +
 
 +
Initial mission need, basic principles and first assumptions.
 +
 
 +
'''[[Minibee TRL1|Open TRL 1 – Mini-Bee]]'''
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''TRL 2 – Technology concept formulated'''
 +
 
 +
First concept configuration, academic studies and early mock-ups.
 +
 
 +
'''[[Minibee TRL2|Open TRL 2 – Mini-Bee]]'''
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''TRL 3 – Experimental proof of concept'''
 +
 
 +
Simulations, technical reviews, FCU prototypes and early test benches.
 +
 
 +
'''[[Minibee TRL3|Open TRL 3 – Mini-Bee]]'''
 +
|}
 +
 
 +
== Visual introduction – 2023 work ==
 +
 
 +
{| style="width:100%; border-collapse:separate; border-spacing:12px; margin-bottom:20px;"
 +
|-
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:15 02 2023 Soutenance finale compressed.pdf|page=1|frameless|300px|Ecole Centrale Lille 2023]]
 +
<div style="margin-top:8px;">'''Ecole Centrale Lille'''</div>
 +
<div style="color:#4b5563;">Technical contribution and project presentation.</div>
 +
<div style="margin-top:8px;">[[Media:15 02 2023 Soutenance finale compressed.pdf|Open document]]</div>
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:202305 Projet MiniBee Soutenance finale corrigé.pdf|page=1|frameless|300px|Estaca Bordeaux power chain]]
 +
<div style="margin-top:8px;">'''Power chain'''</div>
 +
<div style="color:#4b5563;">Estaca Bordeaux work on the Mini-Bee power chain.</div>
 +
<div style="margin-top:8px;">[[Media:202305 Projet MiniBee Soutenance finale corrigé.pdf|Open document]]</div>
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:202305 Soutenance MiniBee ESTACA 3A BDX Structure.pdf|page=1|frameless|300px|Estaca Bordeaux structure mock-up]]
 +
<div style="margin-top:8px;">'''Physical mock-up'''</div>
 +
<div style="color:#4b5563;">Reduced-scale physical mock-up and structural work.</div>
 +
<div style="margin-top:8px;">[[Media:202305 Soutenance MiniBee ESTACA 3A BDX Structure.pdf|Open document]]</div>
 +
|-
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:2023 05 09 Soutenance.pdf|page=1|frameless|300px|Estaca SQY digital mock-up]]
 +
<div style="margin-top:8px;">'''Digital mock-up'''</div>
 +
<div style="color:#4b5563;">Estaca SQY digital mock-up and configuration studies.</div>
 +
<div style="margin-top:8px;">[[Media:2023 05 09 Soutenance.pdf|Open document]]</div>
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:202305 Présentation Soutenance versionF.pdf|page=1|frameless|300px|Hybrid propulsion]]
 +
<div style="margin-top:8px;">'''Hybrid propulsion'''</div>
 +
<div style="color:#4b5563;">Work on hybrid propulsion architecture and assumptions.</div>
 +
<div style="margin-top:8px;">[[Media:202305 Présentation Soutenance versionF.pdf|Open document]]</div>
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:25042023 Présentation final MiniBee.pdf|page=1|frameless|300px|Cytech FCU 2023]]
 +
<div style="margin-top:8px;">'''FCU prototype'''</div>
 +
<div style="color:#4b5563;">Cytech work on the Flight Control Unit prototype.</div>
 +
<div style="margin-top:8px;">[[Media:25042023 Présentation final MiniBee.pdf|Open document]]</div>
 +
|}
 +
 
 +
== Project overview ==
 +
 
 +
'''TRL 4 – Technology Validated in Laboratory''' corresponds to the stage where the Mini-Bee project started to consolidate and validate key technologies in controlled or representative environments.
 +
 
 +
At this level, the project is no longer only based on theoretical assumptions. The work begins to focus on subsystem validation, prototype logic, test benches, mock-ups, control architecture and the preparation of more representative demonstrator activities.
 +
 
 +
<div style="border-left:4px solid #1f3a5f; background:#f6f8fa; padding:12px; margin:16px 0;">
 +
'''TRL 4 objective:''' validate the main technical building blocks of the Mini-Bee concept through laboratory work, mock-ups, subsystem studies and early controlled testing.
 +
</div>
 +
 
 +
== Tasks of academic year 2022 / 2023 ==
 +
 
 +
The 2022/2023 period focused on several major technical work packages: power chain, physical mock-up, digital mock-up, hybrid propulsion and Flight Control Unit development.
 +
 
 +
{| class="wikitable" style="width:100%;"
 +
|-
 +
! style="width:24%; background:#eef1f4;" | Contributor
 +
! style="width:28%; background:#eef1f4;" | Work package
 +
! style="background:#eef1f4;" | Documents
 +
|-
 +
| '''Ecole Centrale Lille'''
 +
| Technical contribution and project presentation
 +
|
 +
* [[File:15 02 2023 Soutenance finale compressed.pdf]]
 +
|-
 +
| '''Estaca Bordeaux 3A'''
 +
| Power chain
 +
|
 +
* [[File:202305 Projet Ingénieur ESTACA CR Final.pdf]]
 +
* [[File:202305 Projet MiniBee Soutenance finale corrigé.pdf]]
 +
|-
 +
| '''Estaca Bordeaux'''
 +
| Reduced-scale physical mock-up
 +
|
 +
* [[File:202305 Rapport de projet industriel - Projet Mini-Bee.pdf]]
 +
* [[File:202305 Soutenance MiniBee ESTACA 3A BDX Structure.pdf]]
 +
|-
 +
| '''Estaca SQY'''
 +
| Digital mock-up
 +
|
 +
* [[File:2023 05 09 Document support.pdf]]
 +
* [[File:2023 05 09 Rapport final.pdf]]
 +
* [[File:2023 05 09 Soutenance.pdf]]
 +
|-
 +
| '''Estaca SQY'''
 +
| Hybrid propulsion
 +
|
 +
* [[File:202305 Présentation Soutenance versionF.pdf]]
 +
* [[File:202305 Rapport de projet.pdf]]
 +
|}
  
 
== FCU tasks ==
 
== FCU tasks ==
  
Estaca SQY 4A FCU
+
The '''Flight Control Unit''' is a critical subsystem for Mini-Bee because the aircraft relies on distributed electric propulsion and computerized flight control logic.
[[File:20230425 Soutenance finale P2I 4A.pdf]]<br>
+
 
 +
During TRL 4, several academic teams worked on FCU-related tasks, including prototype logic, STM / Arduino exercises, control studies and system architecture.
 +
 
 +
{| class="wikitable" style="width:100%;"
 +
|-
 +
! style="width:28%; background:#eef1f4;" | Contributor
 +
! style="width:30%; background:#eef1f4;" | Scope
 +
! style="background:#eef1f4;" | Documents
 +
|-
 +
| '''Estaca SQY 4A'''
 +
| FCU development and presentation
 +
| [[File:20230425 Soutenance finale P2I 4A.pdf]]
 +
|-
 +
| '''Cytech'''
 +
| FCU prototype and project work
 +
| [[File:25042023 Présentation final MiniBee.pdf]]
 +
|-
 +
| '''Esigelec'''
 +
| FCU / electrical system work
 +
| [[File:20230203 ESIGELEC PING2 réunion 10.pdf]]
 +
|}
 +
 
 +
== Arduino and STM exercises – FCU 2022 / 2023 ==
 +
 
 +
The FCU training and prototyping work also included Arduino and STM Nucleo exercises carried out by Estaca and Cytech.
 +
 
 +
{| style="width:100%; border-collapse:separate; border-spacing:12px; margin:16px 0;"
 +
|-
 +
| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''Arduino FCU'''
 +
 
 +
[[Exercice Arduino FCU]]
 +
 
 +
| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''STM Nucleo FCU'''
 +
 
 +
[[Exercice STM Nucleo FCU]]
 +
 
 +
| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''Arduino FCU – English'''
 +
 
 +
[[Exercise Arduino FCU English]]
 +
 
 +
| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''STM Nucleo FCU – English'''
 +
 
 +
[[Exercise STM Nucleo FCU English]]
 +
|}
 +
 
 +
== Main TRL 4 technical areas ==
 +
 
 +
{| style="width:100%; border-collapse:separate; border-spacing:12px; margin:16px 0;"
 +
|-
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''Hybrid power chain'''
 +
 
 +
Work on the generation, conversion and distribution of electrical power for distributed propulsion.
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''Physical mock-up'''
 +
 
 +
Reduced-scale and structural mock-up activities to support integration and configuration studies.
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''Digital mock-up'''
 +
 
 +
Digital model development to improve the understanding of aircraft layout, structure and integration.
 +
|-
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''Hybrid propulsion'''
 +
 
 +
Studies on the interaction between thermal generation and electric propulsion systems.
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''Flight Control Unit'''
 +
 
 +
FCU development, control logic, STM exercises and distributed rotor control preparation.
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 +
'''Subsystem validation'''
 +
 
 +
Preparation of laboratory validation logic before full demonstrator integration.
 +
|}
 +
 
 +
== TRL 4 configuration visuals ==
 +
 
 +
<gallery mode="packed" heights="180">
 +
File:MiniBee_TRL4_60_rotors_front_view.png|Distributed rotor architecture
 +
File:MiniBee_TRL4_cockpit_structure_mockup.png|Cockpit structure and seat integration
 +
File:MiniBee_TRL4_project_development_steps.png|Project development steps
 +
</gallery>
 +
 
 +
== TRL 4 development logic ==
 +
 
 +
The TRL 4 phase supports the transition from proof of concept to controlled validation of key technologies.
 +
 
 +
{| style="width:100%; border-collapse:collapse; text-align:center; margin:16px 0 20px 0;"
 +
|-
 +
| style="background:#1f3a5f; color:#ffffff; border:1px solid #cfd6dd; padding:10px; font-weight:bold;" | 1. Consolidate
 +
| style="background:#f3f5f7; border:1px solid #cfd6dd; padding:10px;" | 2. Prototype
 +
| style="background:#f3f5f7; border:1px solid #cfd6dd; padding:10px;" | 3. Validate
 +
| style="background:#f3f5f7; border:1px solid #cfd6dd; padding:10px;" | 4. Integrate
 +
| style="background:#f3f5f7; border:1px solid #cfd6dd; padding:10px;" | 5. Prepare TRL 5
 +
|-
 +
| style="border:1px solid #cfd6dd; padding:8px;" | TRL 3 results
 +
| style="border:1px solid #cfd6dd; padding:8px;" | FCU, mock-ups and power chain
 +
| style="border:1px solid #cfd6dd; padding:8px;" | Laboratory and controlled tests
 +
| style="border:1px solid #cfd6dd; padding:8px;" | Subsystem consistency
 +
| style="border:1px solid #cfd6dd; padding:8px;" | Relevant environment validation
 +
|}
 +
 
 +
== What TRL 4 covered ==
 +
 
 +
{| style="width:100%; border-collapse:separate; border-spacing:12px; margin:16px 0;"
 +
|-
 +
| style="width:50%; vertical-align:top; border:1px solid #cfd6dd; background:#f6f8fa; padding:12px;" |
 +
'''Covered during TRL 4'''
 +
 
 +
* power-chain studies;
 +
* reduced-scale physical mock-up;
 +
* digital mock-up work;
 +
* hybrid propulsion studies;
 +
* FCU prototype activities;
 +
* Arduino and STM Nucleo exercises;
 +
* subsystem-level validation preparation;
 +
* stronger link between concept and demonstrator work.
 +
 
 +
| style="width:50%; vertical-align:top; border:1px solid #cfd6dd; background:#f6f8fa; padding:12px;" |
 +
'''Still open after early TRL 4 work'''
 +
 
 +
* complete full-scale validation;
 +
* flight-ready FCU architecture;
 +
* complete hybrid chain ground-test validation;
 +
* full structural test evidence;
 +
* complete certification compliance matrix;
 +
* representative operational environment tests.
 +
|}
 +
 
 +
== Visual archive – 2023 documents ==
 +
 
 +
The following documents support the TRL 4 visual and technical archive for the 2022/2023 academic year.
 +
 
 +
{| style="width:100%; border-collapse:separate; border-spacing:12px; margin:16px 0 20px 0;"
 +
|-
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:202305 Rapport de projet industriel - Projet Mini-Bee.pdf|page=1|frameless|300px|Mini-Bee industrial project report]]
 +
<div style="margin-top:8px;">'''Physical mock-up report'''</div>
 +
<div style="margin-top:8px;">[[Media:202305 Rapport de projet industriel - Projet Mini-Bee.pdf|Open document]]</div>
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:2023 05 09 Rapport final.pdf|page=1|frameless|300px|Mini-Bee digital mock-up report]]
 +
<div style="margin-top:8px;">'''Digital mock-up report'''</div>
 +
<div style="margin-top:8px;">[[Media:2023 05 09 Rapport final.pdf|Open document]]</div>
 +
 
 +
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:20230425 Soutenance finale P2I 4A.pdf|page=1|frameless|300px|Mini-Bee FCU Estaca SQY]]
 +
<div style="margin-top:8px;">'''FCU presentation'''</div>
 +
<div style="margin-top:8px;">[[Media:20230425 Soutenance finale P2I 4A.pdf|Open document]]</div>
 +
|}
 +
 
 +
== Image and document files used on this page ==
 +
 
 +
{| class="wikitable" style="width:100%;"
 +
|-
 +
! style="width:40%; background:#eef1f4;" | Wiki file name
 +
! style="width:30%; background:#eef1f4;" | Use in page
 +
! style="background:#eef1f4;" | Link
 +
|-
 +
| MiniBee_TRL4_60_rotors_front_view.png
 +
| TRL4 rotor architecture visual
 +
| [[Media:MiniBee_TRL4_60_rotors_front_view.png|Open image]]
 +
|-
 +
| MiniBee_TRL4_cockpit_structure_mockup.png
 +
| Cockpit structure and seat integration visual
 +
| [[Media:MiniBee_TRL4_cockpit_structure_mockup.png|Open image]]
 +
|-
 +
| MiniBee_TRL4_project_development_steps.png
 +
| Hero visual and project development roadmap
 +
| [[Media:MiniBee_TRL4_project_development_steps.png|Open image]]
 +
|-
 +
| 15 02 2023 Soutenance finale compressed.pdf
 +
| Visual introduction and Ecole Centrale Lille task
 +
| [[Media:15 02 2023 Soutenance finale compressed.pdf|Open document]]
 +
|-
 +
| 202305 Projet MiniBee Soutenance finale corrigé.pdf
 +
| Visual introduction and power-chain task
 +
| [[Media:202305 Projet MiniBee Soutenance finale corrigé.pdf|Open document]]
 +
|-
 +
| 202305 Soutenance MiniBee ESTACA 3A BDX Structure.pdf
 +
| Visual introduction and physical mock-up task
 +
| [[Media:202305 Soutenance MiniBee ESTACA 3A BDX Structure.pdf|Open document]]
 +
|-
 +
| 2023 05 09 Soutenance.pdf
 +
| Visual introduction and digital mock-up task
 +
| [[Media:2023 05 09 Soutenance.pdf|Open document]]
 +
|-
 +
| 202305 Présentation Soutenance versionF.pdf
 +
| Visual introduction and hybrid propulsion task
 +
| [[Media:202305 Présentation Soutenance versionF.pdf|Open document]]
 +
|-
 +
| 25042023 Présentation final MiniBee.pdf
 +
| Visual introduction and FCU task
 +
| [[Media:25042023 Présentation final MiniBee.pdf|Open document]]
 +
|-
 +
| 202305 Rapport de projet industriel - Projet Mini-Bee.pdf
 +
| Visual archive and physical mock-up documentation
 +
| [[Media:202305 Rapport de projet industriel - Projet Mini-Bee.pdf|Open document]]
 +
|-
 +
| 2023 05 09 Rapport final.pdf
 +
| Visual archive and digital mock-up documentation
 +
| [[Media:2023 05 09 Rapport final.pdf|Open document]]
 +
|-
 +
| 20230425 Soutenance finale P2I 4A.pdf
 +
| Visual archive and FCU documentation
 +
| [[Media:20230425 Soutenance finale P2I 4A.pdf|Open document]]
 +
|}
  
Cytech FCU
+
== Why TRL 4 matters ==
[[File:25042023 Présentation final MiniBee.pdf]]<br>
 
  
Esigelec
+
TRL 4 is a key maturity step because it connects the Mini-Bee concept to laboratory-level validation.
[[File:20230203 ESIGELEC PING2 réunion 10.pdf]]<br>
 
  
 +
It helps transform the work from studies and proof-of-concept activities into controlled subsystem validation. 
 +
It also prepares the project for later stages where technologies must be tested in more representative environments.
  
=== Arduino and STM Exercices - FCU 2022/2023 ===
+
== Transition to the next stage ==
  
by Estaca and Cytech
+
<div style="border:1px solid #cfd6dd; background:#f6f8fa; padding:14px; margin-top:16px;">
 +
'''Next maturity step:'''  [[Minibee TRL5|Mini-Bee TRL 5]] – Technology Validated in Relevant Environment.
 +
</div>
  
[[Exercice Arduino FCU]]<BR>
+
At TRL 5, the project should move from laboratory validation toward tests in conditions closer to real operational use.
  
[[Exercice STM Nucleo FCU]]<BR>
+
== See also ==
  
[[Exercise Arduino FCU English]]<BR>
+
* [[Minibee TRL1|Mini-Bee TRL 1]]
 +
* [[Minibee TRL2|Mini-Bee TRL 2]]
 +
* [[Minibee TRL3|Mini-Bee TRL 3]]
 +
* [[Mini-Bee|Mini-Bee project]]
  
[[Exercise STM Nucleo FCU English]]<BR>
+
[[Category:MiniBee]]
 +
[[Category:Technology Readiness Levels (TRL)]]
 +
[[Category:Minibee TRL4]]
 +
[[Category:Collaborative Bee]]

Latest revision as of 09:54, 11 May 2026


TRL 4 – Mini-Bee | Technology Validated in Laboratory

At TRL 4, the Mini-Bee project entered a more advanced demonstrator-oriented phase.

The objective of this stage is to validate key technologies in controlled environments, including the hybrid power chain, the physical and digital mock-ups, the Flight Control Unit, the structural assumptions and the first subsystem test benches.

This page documents the active TRL 4 work carried out during the 2022/2023 academic year and the continuation of the Mini-Bee development after TRL 3.

Mini-Bee project development steps

Mini-Bee project development roadmap – TRL4 transition

Quick project summary

Project
Mini-Bee

TRL stage
TRL 4 – Technology Validated in Laboratory

Main period documented
Academic year 2022/2023

Main focus
Subsystem validation, FCU, hybrid power chain and mock-ups

TRL 4 visual overview

Mini-Bee TRL4 rotor architecture

Rotor architecture
Front view of the historical TRL4 distributed rotor configuration.

Mini-Bee TRL4 cockpit structure mock-up

Cockpit structure
Cockpit and seat integration mock-up used for structure and ergonomic studies.

Mini-Bee project development steps

Development roadmap
Project development steps showing the progression from early mock-ups to demonstrator work.

Previous TRL steps

TRL 1 – Basic principles observed

Initial mission need, basic principles and first assumptions.

Open TRL 1 – Mini-Bee

TRL 2 – Technology concept formulated

First concept configuration, academic studies and early mock-ups.

Open TRL 2 – Mini-Bee

TRL 3 – Experimental proof of concept

Simulations, technical reviews, FCU prototypes and early test benches.

Open TRL 3 – Mini-Bee

Visual introduction – 2023 work

File:15 02 2023 Soutenance finale compressed.pdf

Ecole Centrale Lille
Technical contribution and project presentation.

File:202305 Projet MiniBee Soutenance finale corrigé.pdf

Power chain
Estaca Bordeaux work on the Mini-Bee power chain.

File:202305 Soutenance MiniBee ESTACA 3A BDX Structure.pdf

Physical mock-up
Reduced-scale physical mock-up and structural work.

File:2023 05 09 Soutenance.pdf

Digital mock-up
Estaca SQY digital mock-up and configuration studies.

File:202305 Présentation Soutenance versionF.pdf

Hybrid propulsion
Work on hybrid propulsion architecture and assumptions.

File:25042023 Présentation final MiniBee.pdf

FCU prototype
Cytech work on the Flight Control Unit prototype.

Project overview

TRL 4 – Technology Validated in Laboratory corresponds to the stage where the Mini-Bee project started to consolidate and validate key technologies in controlled or representative environments.

At this level, the project is no longer only based on theoretical assumptions. The work begins to focus on subsystem validation, prototype logic, test benches, mock-ups, control architecture and the preparation of more representative demonstrator activities.

TRL 4 objective: validate the main technical building blocks of the Mini-Bee concept through laboratory work, mock-ups, subsystem studies and early controlled testing.

Tasks of academic year 2022 / 2023

The 2022/2023 period focused on several major technical work packages: power chain, physical mock-up, digital mock-up, hybrid propulsion and Flight Control Unit development.

Contributor Work package Documents
Ecole Centrale Lille Technical contribution and project presentation
Estaca Bordeaux 3A Power chain
Estaca Bordeaux Reduced-scale physical mock-up
Estaca SQY Digital mock-up
Estaca SQY Hybrid propulsion

FCU tasks

The Flight Control Unit is a critical subsystem for Mini-Bee because the aircraft relies on distributed electric propulsion and computerized flight control logic.

During TRL 4, several academic teams worked on FCU-related tasks, including prototype logic, STM / Arduino exercises, control studies and system architecture.

Contributor Scope Documents
Estaca SQY 4A FCU development and presentation File:20230425 Soutenance finale P2I 4A.pdf
Cytech FCU prototype and project work File:25042023 Présentation final MiniBee.pdf
Esigelec FCU / electrical system work File:20230203 ESIGELEC PING2 réunion 10.pdf

Arduino and STM exercises – FCU 2022 / 2023

The FCU training and prototyping work also included Arduino and STM Nucleo exercises carried out by Estaca and Cytech.

Arduino FCU

Exercice Arduino FCU

STM Nucleo FCU

Exercice STM Nucleo FCU

Arduino FCU – English

Exercise Arduino FCU English

STM Nucleo FCU – English

Exercise STM Nucleo FCU English

Main TRL 4 technical areas

Hybrid power chain

Work on the generation, conversion and distribution of electrical power for distributed propulsion.

Physical mock-up

Reduced-scale and structural mock-up activities to support integration and configuration studies.

Digital mock-up

Digital model development to improve the understanding of aircraft layout, structure and integration.

Hybrid propulsion

Studies on the interaction between thermal generation and electric propulsion systems.

Flight Control Unit

FCU development, control logic, STM exercises and distributed rotor control preparation.

Subsystem validation

Preparation of laboratory validation logic before full demonstrator integration.

TRL 4 configuration visuals

  • Distributed rotor architecture

  • Cockpit structure and seat integration

  • Project development steps

TRL 4 development logic

The TRL 4 phase supports the transition from proof of concept to controlled validation of key technologies.

1. Consolidate 2. Prototype 3. Validate 4. Integrate 5. Prepare TRL 5
TRL 3 results FCU, mock-ups and power chain Laboratory and controlled tests Subsystem consistency Relevant environment validation

What TRL 4 covered

Covered during TRL 4

  • power-chain studies;
  • reduced-scale physical mock-up;
  • digital mock-up work;
  • hybrid propulsion studies;
  • FCU prototype activities;
  • Arduino and STM Nucleo exercises;
  • subsystem-level validation preparation;
  • stronger link between concept and demonstrator work.

Still open after early TRL 4 work

  • complete full-scale validation;
  • flight-ready FCU architecture;
  • complete hybrid chain ground-test validation;
  • full structural test evidence;
  • complete certification compliance matrix;
  • representative operational environment tests.

Visual archive – 2023 documents

The following documents support the TRL 4 visual and technical archive for the 2022/2023 academic year.

File:202305 Rapport de projet industriel - Projet Mini-Bee.pdf

Physical mock-up report

File:2023 05 09 Rapport final.pdf

Digital mock-up report

File:20230425 Soutenance finale P2I 4A.pdf

FCU presentation

Image and document files used on this page

Wiki file name Use in page Link
MiniBee_TRL4_60_rotors_front_view.png TRL4 rotor architecture visual Open image
MiniBee_TRL4_cockpit_structure_mockup.png Cockpit structure and seat integration visual Open image
MiniBee_TRL4_project_development_steps.png Hero visual and project development roadmap Open image
15 02 2023 Soutenance finale compressed.pdf Visual introduction and Ecole Centrale Lille task Open document
202305 Projet MiniBee Soutenance finale corrigé.pdf Visual introduction and power-chain task Open document
202305 Soutenance MiniBee ESTACA 3A BDX Structure.pdf Visual introduction and physical mock-up task Open document
2023 05 09 Soutenance.pdf Visual introduction and digital mock-up task Open document
202305 Présentation Soutenance versionF.pdf Visual introduction and hybrid propulsion task Open document
25042023 Présentation final MiniBee.pdf Visual introduction and FCU task Open document
202305 Rapport de projet industriel - Projet Mini-Bee.pdf Visual archive and physical mock-up documentation Open document
2023 05 09 Rapport final.pdf Visual archive and digital mock-up documentation Open document
20230425 Soutenance finale P2I 4A.pdf Visual archive and FCU documentation Open document

Why TRL 4 matters

TRL 4 is a key maturity step because it connects the Mini-Bee concept to laboratory-level validation.

It helps transform the work from studies and proof-of-concept activities into controlled subsystem validation. It also prepares the project for later stages where technologies must be tested in more representative environments.

Transition to the next stage

Next maturity step: Mini-Bee TRL 5 – Technology Validated in Relevant Environment.

At TRL 5, the project should move from laboratory validation toward tests in conditions closer to real operational use.

See also

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