Difference between revisions of "Minibee TRL0"

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'''TRL 0''' is used on this wiki as an internal archive level for the Mini-Bee project.
+
'''TRL 0''' is used on this wiki as an internal archive stage for the Mini-Bee project.
  
It documents the period before the formal Technology Readiness Level scale begins at '''TRL 1 – Basic Principles Observed'''.
+
It describes the period before the formal Technology Readiness Level scale begins at '''TRL 1 – Basic Principles Observed'''.
  
This page gathers the first Mini-Bee concept materials: early mission needs, hand sketches, preliminary aircraft assumptions, first sizing logic and early propulsion discussions.
+
This page gathers the earliest Mini-Bee concept logic: mission needs, first aircraft intuition, hand sketches, early hybrid VTOL assumptions and preliminary sizing discussions.
  
The material presented here is historical. It does not represent the final or current Mini-Bee architecture. Its purpose is to explain how the project started and how the early concept progressively moved toward a hybrid VTOL multicopter approach.
+
The content is historical. It does not represent the current Mini-Bee architecture. It explains how the project started and how the concept progressively moved toward a hybrid VTOL aircraft direction.
  
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| style="width:50%; vertical-align:middle; text-align:center;" |
 
[[File:mb_trl0_early_3d_render.png|frameless|520px|Mini-Bee early concept render]]
 
[[File:mb_trl0_early_3d_render.png|frameless|520px|Mini-Bee early concept render]]
 
<div style="color:#4b5563; margin-top:6px;">Early Mini-Bee concept render – historical pre-TRL visual</div>
 
<div style="color:#4b5563; margin-top:6px;">Early Mini-Bee concept render – historical pre-TRL visual</div>
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| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#f6f8fa; padding:12px;" |
 
'''Main output'''<br />
 
'''Main output'''<br />
Mission need, sketches, first sizing and early technical assumptions
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Mission need, sketches, first sizing logic and early technical assumptions
 
|}
 
|}
  
 
<div style="border-left:4px solid #1f3a5f; background:#f6f8fa; padding:12px; margin:16px 0;">
 
<div style="border-left:4px solid #1f3a5f; background:#f6f8fa; padding:12px; margin:16px 0;">
'''Important note:''' TRL 0 is not part of the standard TRL scale. It is used here as a practical archive stage to describe the pre-TRL concept work before TRL 1.
+
'''Important note:''' TRL 0 is not part of the standard TRL scale. It is used here as a practical archive level to document the Mini-Bee pre-TRL concept stage.
 
</div>
 
</div>
  
== Visual introduction ==
+
== Visual archive ==
  
 
{| style="width:100%; border-collapse:separate; border-spacing:12px; margin-bottom:22px;"
 
{| style="width:100%; border-collapse:separate; border-spacing:12px; margin-bottom:22px;"
 
|-
 
|-
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| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
[[File:mb_trl0_early_3d_render.png|frameless|300px|Early Mini-Bee digital concept]]
+
[[File:mb_trl0_early_3d_render.png|frameless|260px|Early Mini-Bee digital concept]]
 
<div style="margin-top:8px;">'''Early digital concept'''</div>
 
<div style="margin-top:8px;">'''Early digital concept'''</div>
<div style="color:#4b5563;">First communication-style view of the Mini-Bee idea.</div>
+
<div style="color:#4b5563;">First communication-style visual of the Mini-Bee idea.</div>
 
<div style="margin-top:8px;">[[Media:mb_trl0_early_3d_render.png|Open image]]</div>
 
<div style="margin-top:8px;">[[Media:mb_trl0_early_3d_render.png|Open image]]</div>
  
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
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| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
[[File:mb_trl0_hand_sketch_01.png|frameless|300px|Mini-Bee first hand sketch]]
+
[[File:mb_trl0_hand_sketch_01.png|frameless|260px|Mini-Bee first hand sketch]]
<div style="margin-top:8px;">'''First hand sketches'''</div>
+
<div style="margin-top:8px;">'''Initial sketch sheet'''</div>
<div style="color:#4b5563;">Initial side, front and top views used to explore aircraft layout.</div>
+
<div style="color:#4b5563;">First layout intuition with early aircraft views.</div>
 
<div style="margin-top:8px;">[[Media:mb_trl0_hand_sketch_01.png|Open image]]</div>
 
<div style="margin-top:8px;">[[Media:mb_trl0_hand_sketch_01.png|Open image]]</div>
  
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
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| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
[[File:mb_trl0_supmeca_report_cover.png|frameless|300px|Mini-Bee early SUPMECA report]]
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[[File:mb_trl0_hand_sketch_02.png|frameless|260px|Mini-Bee alternative early configuration]]
<div style="margin-top:8px;">'''Early project report'''</div>
+
<div style="margin-top:8px;">'''Alternative configuration'''</div>
<div style="color:#4b5563;">2015 concept report documenting the first mission and design logic.</div>
+
<div style="color:#4b5563;">Early visual exploration of another possible layout.</div>
<div style="margin-top:8px;">[[Media:mb_trl0_supmeca_report_cover.png|Open image]]</div>
+
<div style="margin-top:8px;">[[Media:mb_trl0_hand_sketch_02.png|Open image]]</div>
 +
 
 +
| style="width:25%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:10px; text-align:center;" |
 +
[[File:mb_trl0_hand_sketch_03.png|frameless|260px|Mini-Bee early layout refinement]]
 +
<div style="margin-top:8px;">'''Layout refinement'''</div>
 +
<div style="color:#4b5563;">Sketch used to continue early aircraft configuration work.</div>
 +
<div style="margin-top:8px;">[[Media:mb_trl0_hand_sketch_03.png|Open image]]</div>
 
|}
 
|}
  
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The '''Mini-Bee''' concept started from a simple operational question: could a compact aircraft combine vertical take-off capability, practical mobility, hybrid propulsion and useful mission applications?
 
The '''Mini-Bee''' concept started from a simple operational question: could a compact aircraft combine vertical take-off capability, practical mobility, hybrid propulsion and useful mission applications?
  
At this early stage, the project was not yet a validated technical architecture. It was an exploration phase.
+
At TRL 0, the project was not yet a validated technical architecture. It was an exploration phase.
  
The objective was to study whether an aircraft could combine some of the operational flexibility of a helicopter with a simpler, more affordable and more adaptable configuration.
+
The objective was to test whether an aircraft could combine some of the operational flexibility of a helicopter with a simpler, more affordable and more adaptable configuration.
  
The first studies considered a hybrid aircraft using electric propulsion for VTOL phases and a thermal engine for cruise power or onboard electrical generation. These assumptions were later refined through the following TRL stages.
+
The first studies considered a hybrid aircraft using electric propulsion for VTOL phases and a thermal engine for cruise power or onboard electrical generation.
  
 
== Concept origin ==
 
== Concept origin ==
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* provide high mobility without depending only on conventional runways;
 
* provide high mobility without depending only on conventional runways;
 
* explore a low-cost aircraft concept;
 
* explore a low-cost aircraft concept;
* support practical missions such as air ambulance, rescue, emerging-country mobility and personal transportation;
+
* support air ambulance, rescue, emerging-country mobility and personal transportation missions;
 
* combine vertical take-off and landing with cruise flight capability;
 
* combine vertical take-off and landing with cruise flight capability;
 
* investigate hybrid propulsion;
 
* investigate hybrid propulsion;
* reduce the dependency on large battery capacity by using a thermal power source;
+
* reduce dependency on large battery capacity by using a thermal power source;
* prepare a technical basis for future student projects, design work and demonstrator studies.
+
* prepare a basis for future student projects, design work and demonstrator studies.
  
 
== Early mission framing ==
 
== Early mission framing ==
Line 106: Line 112:
 
'''Mobility'''
 
'''Mobility'''
  
The concept aimed to operate from many types of locations, not only from conventional runways.
+
The aircraft concept aimed to operate from many types of locations, not only from conventional runways.
  
 
| style="width:33%; vertical-align:top; border:1px solid #cfd6dd; background:#ffffff; padding:12px;" |
 
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They explored the side view, the front view, the top view and early layout alternatives. At this stage, the aim was not to freeze the design, but to make the concept visible enough to start technical discussions.
 
They explored the side view, the front view, the top view and early layout alternatives. At this stage, the aim was not to freeze the design, but to make the concept visible enough to start technical discussions.
  
<gallery mode="packed" heights="180">
+
<gallery mode="packed" heights="190">
 
File:mb_trl0_hand_sketch_01.png|Initial sketch sheet – first layout intuition
 
File:mb_trl0_hand_sketch_01.png|Initial sketch sheet – first layout intuition
 
File:mb_trl0_hand_sketch_02.png|Alternative early configuration
 
File:mb_trl0_hand_sketch_02.png|Alternative early configuration
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|}
 
|}
  
== Wing chord evaluation ==
+
== Early requirement logic ==
  
The initial wing evaluation used a simple aerodynamic approach to estimate the chord needed for different stall speed assumptions.
+
The early requirement work helped structure the first mission needs and technical constraints.
  
This work helped transform the early visual idea into a first sizing discussion.
+
The first expectations were mainly related to speed, range, cost, capacity, mobility and usability.
  
<gallery mode="packed" heights="220">
+
{| class="wikitable" style="width:100%;"
File:mb_trl0_wing_chord_eval_01.png|Initial wing chord evaluation – method and assumptions
+
|-
File:mb_trl0_wing_chord_eval_02.png|Initial wing chord evaluation – results table
+
! style="width:30%; background:#eef1f4;" | Requirement area
</gallery>
+
! style="background:#eef1f4;" | TRL 0 interpretation
 
+
|-
== Engine and electric motor evaluation ==
+
| '''Mission'''
 
+
| Explore a useful aircraft concept for rescue, ambulance, mobility and personal transport applications.
The early propulsion work explored two complementary questions.
+
|-
 
+
| '''Architecture'''
First, the thermal engine could potentially support cruise power or electrical generation. Second, the electric motors had to be assessed against the demanding power-to-weight requirements of VTOL flight.
+
| Investigate a hybrid VTOL aircraft combining electric lift and a thermal energy source.
 
+
|-
<gallery mode="packed" heights="220">
+
| '''Mobility'''
File:mb_trl0_engine_thermal.png|Thermal engine evaluation
+
| Reduce dependency on conventional airport infrastructure.
File:mb_trl0_engine_electric_motors.png|Electric motor comparison
+
|-
</gallery>
+
| '''Cost'''
 
+
| Keep the concept compatible with a low-cost design ambition.
== Early requirement table ==
+
|-
 
+
| '''Technical maturity'''
The early requirement table helped structure the first mission needs and technical constraints.
+
| Prepare the transition toward structured TRL 1 work.
 
+
|}
It grouped the first expectations related to speed, range, cost, capacity and aircraft usability.
 
 
 
<div style="border:1px solid #cfd6dd; background:#ffffff; padding:12px; margin:16px 0; text-align:center;">
 
[[File:mb_trl0_project_requirements.png|frameless|620px|Mini-Bee early requirements table]]
 
<div style="color:#4b5563; margin-top:6px;">Early Mini-Bee requirement table – historical concept phase</div>
 
<div style="margin-top:8px;">[[Media:mb_trl0_project_requirements.png|Open image]]</div>
 
</div>
 
  
 
== What TRL 0 covered ==
 
== What TRL 0 covered ==
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|-
 
|-
 
| style="border:1px solid #cfd6dd; padding:8px;" | Mission intuition
 
| style="border:1px solid #cfd6dd; padding:8px;" | Mission intuition
| style="border:1px solid #cfd6dd; padding:8px;" | Hand sketches and early visuals
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| style="border:1px solid #cfd6dd; padding:8px;" | Hand sketches and early visual logic
 
| style="border:1px solid #cfd6dd; padding:8px;" | Needs and constraints
 
| style="border:1px solid #cfd6dd; padding:8px;" | Needs and constraints
 
| style="border:1px solid #cfd6dd; padding:8px;" | First technical evaluations
 
| style="border:1px solid #cfd6dd; padding:8px;" | First technical evaluations
 
| style="border:1px solid #cfd6dd; padding:8px;" | Basic principles observed
 
| style="border:1px solid #cfd6dd; padding:8px;" | Basic principles observed
 
|}
 
|}
 
== Why TRL 0 mattered ==
 
 
TRL 0 mattered because it captured the first project intuition before any formal technical maturity could be claimed.
 
 
It helped transform an idea into a project direction: a hybrid aircraft with VTOL capability, useful missions, high mobility and a need for technical validation.
 
 
This stage prepared the transition toward TRL 1, where the first basic principles of the Mini-Bee concept could be identified and documented.
 
  
 
== Source documents ==
 
== Source documents ==
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|-
 
|-
 
| mb_trl0_early_3d_render.png
 
| mb_trl0_early_3d_render.png
| Hero image, visual introduction and early digital concept
+
| Hero image, visual archive and early digital concept
 
| [[Media:mb_trl0_early_3d_render.png|Open image]]
 
| [[Media:mb_trl0_early_3d_render.png|Open image]]
 
|-
 
|-
 
| mb_trl0_hand_sketch_01.png
 
| mb_trl0_hand_sketch_01.png
| Visual introduction and sketch gallery
+
| Visual archive and hand sketch gallery
 
| [[Media:mb_trl0_hand_sketch_01.png|Open image]]
 
| [[Media:mb_trl0_hand_sketch_01.png|Open image]]
 
|-
 
|-
 
| mb_trl0_hand_sketch_02.png
 
| mb_trl0_hand_sketch_02.png
| Sketch gallery
+
| Visual archive and hand sketch gallery
 
| [[Media:mb_trl0_hand_sketch_02.png|Open image]]
 
| [[Media:mb_trl0_hand_sketch_02.png|Open image]]
 
|-
 
|-
 
| mb_trl0_hand_sketch_03.png
 
| mb_trl0_hand_sketch_03.png
| Sketch gallery
+
| Visual archive and hand sketch gallery
 
| [[Media:mb_trl0_hand_sketch_03.png|Open image]]
 
| [[Media:mb_trl0_hand_sketch_03.png|Open image]]
|-
 
| mb_trl0_wing_chord_eval_01.png
 
| Wing chord evaluation
 
| [[Media:mb_trl0_wing_chord_eval_01.png|Open image]]
 
|-
 
| mb_trl0_wing_chord_eval_02.png
 
| Wing chord evaluation
 
| [[Media:mb_trl0_wing_chord_eval_02.png|Open image]]
 
|-
 
| mb_trl0_engine_thermal.png
 
| Thermal engine evaluation
 
| [[Media:mb_trl0_engine_thermal.png|Open image]]
 
|-
 
| mb_trl0_engine_electric_motors.png
 
| Electric motor evaluation
 
| [[Media:mb_trl0_engine_electric_motors.png|Open image]]
 
|-
 
| mb_trl0_supmeca_report_cover.png
 
| Visual introduction and early project report
 
| [[Media:mb_trl0_supmeca_report_cover.png|Open image]]
 
|-
 
| mb_trl0_project_requirements.png
 
| Early requirement table
 
| [[Media:mb_trl0_project_requirements.png|Open image]]
 
 
|}
 
|}
 +
 +
== Why TRL 0 mattered ==
 +
 +
TRL 0 mattered because it captured the first project intuition before any formal technical maturity could be claimed.
 +
 +
It helped transform an idea into a project direction: a hybrid aircraft with VTOL capability, useful missions, high mobility and a need for technical validation.
 +
 +
This stage prepared the transition toward TRL 1, where the first basic principles of the Mini-Bee concept could be identified and documented.
  
 
== Transition to the next stage ==
 
== Transition to the next stage ==

Revision as of 16:06, 12 May 2026


TRL 0 – Mini-Bee | Concept Origin and Early Intuition

TRL 0 is used on this wiki as an internal archive stage for the Mini-Bee project.

It describes the period before the formal Technology Readiness Level scale begins at TRL 1 – Basic Principles Observed.

This page gathers the earliest Mini-Bee concept logic: mission needs, first aircraft intuition, hand sketches, early hybrid VTOL assumptions and preliminary sizing discussions.

The content is historical. It does not represent the current Mini-Bee architecture. It explains how the project started and how the concept progressively moved toward a hybrid VTOL aircraft direction.

Mini-Bee early concept render

Early Mini-Bee concept render – historical pre-TRL visual

Quick project summary

Project
Mini-Bee

Stage
TRL 0 – Concept origin

Main period
Early concept phase / 2015 archive

Main output
Mission need, sketches, first sizing logic and early technical assumptions

Important note: TRL 0 is not part of the standard TRL scale. It is used here as a practical archive level to document the Mini-Bee pre-TRL concept stage.

Visual archive

Early Mini-Bee digital concept

Early digital concept
First communication-style visual of the Mini-Bee idea.

Mini-Bee first hand sketch

Initial sketch sheet
First layout intuition with early aircraft views.

Mini-Bee alternative early configuration

Alternative configuration
Early visual exploration of another possible layout.

Mini-Bee early layout refinement

Layout refinement
Sketch used to continue early aircraft configuration work.

Project overview

The Mini-Bee concept started from a simple operational question: could a compact aircraft combine vertical take-off capability, practical mobility, hybrid propulsion and useful mission applications?

At TRL 0, the project was not yet a validated technical architecture. It was an exploration phase.

The objective was to test whether an aircraft could combine some of the operational flexibility of a helicopter with a simpler, more affordable and more adaptable configuration.

The first studies considered a hybrid aircraft using electric propulsion for VTOL phases and a thermal engine for cruise power or onboard electrical generation.

Concept origin

The early Mini-Bee idea was driven by several mission and design needs:

  • provide high mobility without depending only on conventional runways;
  • explore a low-cost aircraft concept;
  • support air ambulance, rescue, emerging-country mobility and personal transportation missions;
  • combine vertical take-off and landing with cruise flight capability;
  • investigate hybrid propulsion;
  • reduce dependency on large battery capacity by using a thermal power source;
  • prepare a basis for future student projects, design work and demonstrator studies.

Early mission framing

Mobility

The aircraft concept aimed to operate from many types of locations, not only from conventional runways.

Low cost

The early requirement logic included a strong cost objective to make the aircraft accessible and useful.

Useful missions

The first project logic included rescue missions, air ambulance use cases and low-cost personal transportation.

Historical early assumptions

Early assumption Historical interpretation at TRL 0
Hybrid configuration Electric motors would support VTOL phases, while a thermal engine would provide cruise power and/or electrical generation.
VTOL capability Vertical take-off and landing were identified as a key differentiator for high mobility.
Cruise speed Early objectives mentioned a high cruise speed target around 300 ± 50 km/h.
Range Early objectives mentioned an autonomy target between 600 and 800 km.
Mass and capacity Early studies considered a larger aircraft concept, including 4 or 5 seats and an MTOW around 1550 kg.
Cost target Early requirements mentioned a low-cost objective below 100,000 €.

Historical note: these assumptions belong to the pre-TRL concept phase. They are not the current Mini-Bee configuration.

First hand sketches

The first hand sketches helped define the initial visual intuition of the aircraft.

They explored the side view, the front view, the top view and early layout alternatives. At this stage, the aim was not to freeze the design, but to make the concept visible enough to start technical discussions.

  • Initial sketch sheet – first layout intuition

  • Alternative early configuration

  • Early layout refinement

Early digital concept

The early digital concept was used as a communication visual. It helped present the Mini-Bee idea as a possible hybrid VTOL aircraft before the project reached a mature architecture.

Mini-Bee early digital concept render

Historical early Mini-Bee digital concept render

Preliminary technical studies

TRL 0 included early analytical work to check whether the first aircraft intuition could become a credible project direction.

The purpose was not to validate a final design. The purpose was to identify the first technical constraints: lift, mass, power, propulsion, autonomy and operational use.

Wing sizing intuition

An initial wing chord evaluation explored the relationship between wingspan, stall speed, lift and wing chord.

Thermal engine search

A first engine study examined the possible role of a thermal engine in a hybrid aircraft power architecture.

Electric propulsion screening

Early electric motor comparisons helped identify the challenge of VTOL power-to-weight ratio.

Early requirement logic

The early requirement work helped structure the first mission needs and technical constraints.

The first expectations were mainly related to speed, range, cost, capacity, mobility and usability.

Requirement area TRL 0 interpretation
Mission Explore a useful aircraft concept for rescue, ambulance, mobility and personal transport applications.
Architecture Investigate a hybrid VTOL aircraft combining electric lift and a thermal energy source.
Mobility Reduce dependency on conventional airport infrastructure.
Cost Keep the concept compatible with a low-cost design ambition.
Technical maturity Prepare the transition toward structured TRL 1 work.

What TRL 0 covered

Covered at TRL 0

  • first project intuition;
  • mission need exploration;
  • low-cost and high-mobility ambition;
  • first hand sketches;
  • first 3D concept visual;
  • initial mission and requirement framing;
  • early wing sizing study;
  • early propulsion screening;
  • early hybrid VTOL assumptions.

Not yet covered at TRL 0

  • validated aircraft architecture;
  • final rotor count;
  • mature hybrid propulsion chain;
  • detailed structural design;
  • flight control architecture;
  • certification framework;
  • demonstrator test plan;
  • validated performance data.

TRL 0 development logic

The TRL 0 phase created the project foundation before entering the formal TRL logic.

1. Imagine 2. Sketch 3. Frame 4. Screen 5. Prepare TRL 1
Mission intuition Hand sketches and early visual logic Needs and constraints First technical evaluations Basic principles observed

Source documents

Document Use in TRL 0 page
File:MiniBee HandScketch.pdf First hand sketches and early visual layout studies.
File:Initial Evaluation of MiniBee.pdf Initial wing chord evaluation and first sizing assumptions.
File:Engine Repport.pdf Thermal engine and electric motor screening.
File:BeePlane Info v1.1.pdf Early mission statement, requirements, diagrams and project framing.

Image files used on this page

Wiki file name Use in page Link
mb_trl0_early_3d_render.png Hero image, visual archive and early digital concept Open image
mb_trl0_hand_sketch_01.png Visual archive and hand sketch gallery Open image
mb_trl0_hand_sketch_02.png Visual archive and hand sketch gallery Open image
mb_trl0_hand_sketch_03.png Visual archive and hand sketch gallery Open image

Why TRL 0 mattered

TRL 0 mattered because it captured the first project intuition before any formal technical maturity could be claimed.

It helped transform an idea into a project direction: a hybrid aircraft with VTOL capability, useful missions, high mobility and a need for technical validation.

This stage prepared the transition toward TRL 1, where the first basic principles of the Mini-Bee concept could be identified and documented.

Transition to the next stage

Next maturity step: TRL 1 – Basic Principles Observed.

At TRL 1, the project moves from early intuition and exploratory material toward the identification of basic principles that justify a structured concept phase.

See also

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