Pioneering Innovation: Our 3D Digital Specimen Rapid Construction System Recognized as a Provincial Major Technological

We are proud to announce that our self-developed 3D Digital Specimen Rapid Construction System (Model: 3DDS/3DMU) has been officially certified as a First-of-Its-Kind Major Technological Equipment in Sichuan Province for 2025. This prestigious designation marks a definitive provincial recognition of our system's advanced engineering, technical maturity, and market-defying innovation, adding a crucial milestone to the region's high-end intelligent equipment sector.

For museums, universities, and research institutions, creating high-fidelity 3D digital archives of physical specimens is foundational to long-term preservation and study. However, traditional workflows are notoriously bottlenecked by tedious manual operations and specialized software editing, resulting in fragmented workflows, long turnaround times, and inconsistent accuracy. Achieving high-efficiency, non-destructive, and high-precision 3D modeling for diverse specimens—ranging from millimeters to centimeters in size—has long been a cross-industry challenge.

Our certified 3D Digital Specimen Rapid Construction System directly solves these systemic pain points. By deeply integrating high-precision optical imaging, automated image capture, and proprietary AI-driven reconstruction algorithms, we have successfully transformed 3D modeling from a highly specialized engineering skill into a standardized, one-click automated routine.

Engineered with absolute reliability and a seamless user experience at its core, the system’s technical edge spans multiple dimensions:

• End-to-End Automation: The system automates the entire pipeline, from raw image acquisition and 3D reconstruction to high-fidelity texture mapping. A complete, full-angle colored 3D digital model is generated in approximately 20 minutes with zero human intervention required.
• Ultra-High Precision Non-Destructive Capture: Utilizing a unique multi-lens array and customized light-field design, the system dynamically adapts to samples of varying scales, including seeds, insects, minerals, and archaeological fragments. The data acquisition process requires no object flipping; full-angle spatial data is captured in a single session, completely eliminating the risk of physical damage to fragile specimens.
• Production-Ready Models & Rich Software Ecosystem: The system outputs standardized, industry-ready formats (such as OBJ) that can be routed directly to 3D printers, requiring no post-production manual patching or texture fixing. The bundled software suite supports advanced visualization (rotation and zoom), precise 3D spatial measurement, and comprehensive digital repository management, enabling researchers to manage, view, and share massive 3D data arrays across multiple devices securely online.

Thanks to its robust versatility, our system's operational value extends far beyond traditional life sciences:

• Cultural Heritage & Archaeology: Delivering non-destructive 3D modeling for rare artifacts and fossils, streamlining digital archiving, virtual exhibitions, and restoration planning.
• Germplasm Resource Preservation: Providing ultra-fast 3D digitization of seeds, botanical specimens, and entomological collections, yielding critical dataset foundations for biodiversity research and gene bank construction.
• Geology & Material Sciences: Capturing high-precision 3D topography and structural morphology measurements of minerals, crystals, and advanced materials.
• Modernized Traditional Chinese Medicine (TCM): Driving the digitization and standardization of botanical and medicinal specimens to aid authentication and pharmaceutical research.

According to provincial guidelines for major technological equipment, the "First-of-Its-Kind" status is exclusively awarded to pioneering innovations that have achieved critical architectural breakthroughs, possess absolute independent intellectual property rights, and represent the leading edge of domestic technological development. The selection process involves multiple rounds of rigorous peer review by industry experts, making this certification a true stamp of engineering excellence.

This milestone is a direct result of JLM-Lifetech’s long-term corporate strategy: scaling our capabilities "from molecular analysis to morphological digitization." By bridging the gap between molecular diagnostics and structural 3D morphology, we have built a comprehensive tool matrix for modern scientific exploration. Moving forward, we will continue to accelerate our R&D pipeline, delivering cutting-edge intelligent equipment that serves foundational research, biopharmaceuticals, cultural preservation, and global scientific progress.