Research Institute Solutions

High-Flexibility Research Measurement System

Challenge

Research institutes, including universities and specialized labs, face key challenges such as frequent non-standard parts, complex new material measurements, and complicated equipment operation. Specifically, measurement demands have expanded from 2D surface analysis to 3D surface, subsurface structures, and internal defects, requiring extremely high precision. Cross-disciplinary projects struggle with heterogeneous, asynchronous multi-sensor data, complicating data fusion and deep analysis. Standard equipment often falls short when measuring special materials like composites, titanium alloys, and low-dimensional nanomaterials, leading to incomplete or inaccurate results.

Solution

We provide fully customized measurement chains combining high-precision CMMs, optical imaging, gear measurement, and specialized optical systems. These flexible setups quickly adapt to detect internal defects and measure complex 3D and subsurface structures. Our core software platform, NET·DMIS, integrates dedicated research modules and leverages the EMRP intelligent quality management system for smart fusion and in-depth analysis of heterogeneous data sources such as laser point clouds and panoramic images.

Result/Outcome

Through the "AEH's Metrology Academy," we offer comprehensive training from equipment operation to advanced measurement techniques. Leveraging partnerships with top universities like Xi’an University and Harbin University, we have tailored high-temperature deformation and precision transmission detection solutions for aerospace materials and national key robotics labs, greatly improving data collection efficiency and research output quality. Additionally, AEH's end-to-end measurement solutions support Zhejiang Province’s key technical research labs in complex spatial pose perception and unstructured force sensing, driving innovation in high-precision measurement technology.

+65%

Measurement Efficiency

1.5 Hours

Data Acquisition in

+70%

Transmission Error Analysis Improved

40%

Repeat Measurement Deviation by

Industry Pain Points

Research Institutes (including universities, technical colleges, and specialized labs) face key challenges in cutting-edge research: high frequency of non-standard parts, measurement difficulties with new materials, and complex equipment operation.

Complex Measurement Dimensions
Measurement must expand from 2D analysis to 3D surfaces, subsurface structures, and internal defects—demanding extreme precision and multi-dimensional capability from equipment.

Heterogeneous Data Integration
Cross-disciplinary projects face asynchronous multi-sensor data and inconsistent formats, hindering fusion, deep analysis, and research progress.

Equipment-Function Mismatch
General-purpose equipment struggles with special materials (composites, titanium alloys) and low-dimensional nanomaterials—often unable to measure fully, accurately, or at all.

Customer Requirements

A customized, high-flexibility, full-link research measurement system is required. Core needs include:

Full-Dimension High-Precision Measurement
Enables precise measurement from macro components to micro/nano scales (nanometer-level uncertainty), with stable data acquisition in complex environments (e.g., high temperature, vibration). Example: within 50m range, MPE controlled to 0.01mm (1/10 of a human hair).

Intelligent Multi-Source Data Fusion
Powerful data integration capabilities unite heterogeneous data—laser point cloud, panoramic imaging, multispectral—into a unified research analysis foundation.

Cutting-Edge Research Support
Solutions must align with national strategic priorities (e.g., intelligent perception, AI) and rapidly respond to non-standard, frontier research tasks.

Limitations of Existing Measurement Solutions

Limited System Flexibility
General-purpose measurement equipment has fixed functionality, making rapid reconfiguration or customization difficult—failing to adapt to evolving non-standard research tasks.

Weak Data Integration
Disparate devices operate independently with inconsistent data standards. Lack of effective multi-source fusion mechanisms prevents a complete analysis loop, limiting interdisciplinary research depth.

Slow Response to Emerging Technologies
Existing solutions struggle to support emerging fields like 3D surface topography parameters or vehicle-infrastructure perception positioning. Slow technology iteration hinders effective metrology support.

AEH Solution

Measurement System
Customizable full-measurement-link solutions integrating high-precision CMM, optical imaging, gear measurement, and dedicated optical systems. Highly flexible for rapid configuration—ideal for composite defect detection and 3D surface/sub-surface measurement.

Core Software
NET·DMIS measurement software platform with specialized research modules. Combined with EMRP's cross-dimensional analytics for intelligent fusion, collaborative analysis, and deep mining of multi-source heterogeneous data (laser point cloud, panoramic imaging).

Professional Services
AEH Measurement Business School provides systematic training—from equipment operation to advanced techniques. Leveraging partnerships with top universities and labs, we offer joint solution design, technical breakthrough support, and research commercialization assistance.