Civil Aviation

VoxMeta delivers metrology-grade optical 3D measurement for civil aviation MRO environments, supporting airworthiness-compliant inspection, repair verification, and traceable digital documentation across large aircraft structures under real on-site maintenance constraints.

Civil Aviation MRO Applications

Civil aviation MRO operations must verify structural condition and repair quality under strict regulatory oversight, limited aircraft downtime, and complex on-wing or hangar environments. Large curved skins, fit-critical interfaces, and localized damage zones make consistent evaluation difficult when relying on manual gauges or subjective visual judgment. VoxMeta provides a system-level optical 3D measurement workflow adapted to real maintenance conditions, enabling objective geometry verification, repeatable execution across teams and shifts, and audit-ready digital records that support standardized MRO processes and long-term airworthiness compliance.

Four Value Pillars

High-confidence Data Capture

VoxMeta enables stable 3D data capture on reflective aircraft skins, compound-curved fuselage areas, and restricted-access zones, maintaining measurement reliability despite vibration, variable lighting, and space constraints common in on-wing and hangar maintenance.

Digital Quality Records & Traceability

Full-surface geometry and localized deviation results are stored as structured digital records, supporting regulatory audits, maintenance history reconstruction, and consistent traceability across inspection, repair, and recheck cycles throughout the aircraft service lifecycle.

End-to-end Workflow & Easier Onboarding

Standardized workflows from system setup through data output reduce operator dependency, allowing maintenance teams with varying experience levels to execute consistent verification tasks while minimizing training time and procedural variability across MRO stations.

Efficient Coverage for Large Parts & Staged Tasks

Segmented data acquisition and controlled alignment support large aircraft structures and staged maintenance activities, enabling capture, verification, and continuation across multiple sessions without compromising geometric consistency or documentation integrity.

Key MRO Use Cases

VoxMeta supports civil aviation teams across common MRO tasks

Aircraft Skin Deformation

Engine Nacelle Surfaces

Fuselage Panel Interfaces

Door Fit Zones

Seal Contact Areas

Localized Impact Areas

Landing Gear Structures

Repair Patch Regions

Typical Components & Scenarios

Aircraft Skin / Fuselage Surface

Rapid on-site shape capture enables before-and-after comparison for damage assessment, repair decision support, and traceable documentation within regulated MRO workflows.

Door Sealing & Fit Surfaces

Interface deviation evaluation helps reduce leakage risks, noise issues, and rework probability while supporting objective verification of fit-critical zones.

Landing Gear Areas

Key structural regions are documented for deformation checks and reinspection comparison, supporting maintenance validation and long-term traceability.

Engine exterior / inlet areas

Capture local shape changes to support assessment and consistent documentation in MRO workflows.

Traditional Optical 3D Measurement VS VoxMeta Industrial Metrology-grade Optical 3D Measurement

Features	Traditional Inspection Tools	VoxMeta Metrology-grade Optical 3D Measurement
Measurement Accuracy	Low accuracy and unstable results under variable maintenance environments	High geometric accuracy suitable for complex aircraft surfaces and fine features
Environmental Adaptability	Performance easily affected by vibration, lighting, and access limitations	Stable operation in harsh MRO conditions, including vibration and confined spaces
Automation & Efficiency	Heavy reliance on manual intervention and operator experience	Automated workflows enabling faster capture and processing
Data Processing	Manual data processing prone to inconsistency and human error	Structured, high-accuracy digital outputs with minimal manual correction
Maintenance & Stability	Higher maintenance effort and reduced reliability in demanding MRO use cases	High system stability supporting long-term, cost-effective MRO deployment