Intelligent splicing of fossil fragments

Combining 3D Scanning and Deep Learning for Paleontology

Innovative Fossil Reconstruction Solutions

We specialize in advanced techniques for analyzing and reconstructing paleontological fossils using cutting-edge technology and deep learning methodologies to enhance research efficiency and accuracy.

The image depicts three individuals examining a large excavation site containing numerous fossilized remains. One person is standing beside a wooden table with paper, observing the site. The excavation area features deep pits and large skeletal structures partially embedded in the ground.

Fossil Reconstruction Services

Combining experimental and theoretical designs for advanced paleontological research and fossil restoration.

Data Collection Process

The image features a close-up view of an open dinosaur fossil skull with sharp, prominent teeth. The texture and details of the fossilized bones are visible, showcasing an ancient and formidable creature.

Gathering extensive 3D scan data for high-quality fossil datasets and analysis.

A close-up of a dinosaur fossil skull displayed in a museum, featuring intricate details and sharp teeth. The texture of the fossil is rugged and earthy, indicating its ancient origin.

A fossilized dinosaur skull with large, sharp teeth and prominent eye sockets is displayed against a solid blue background. The texture of the skull appears rugged and worn, highlighting the ancient nature of the artifact.

Feature Extraction Model

Utilizing deep learning to classify shape, texture, and structural characteristics of fossil fragments.

Intelligent Reassembly Algorithm

Restoring fossils with geometric matching techniques.

Fossil Reconstruction

Innovative methods for restoring paleontological fossil fragments efficiently.

A close-up view of a dinosaur skeleton, focusing on the skull and upper vertebrae. The fossil is displayed in a well-lit environment with natural light coming in, highlighting the texture of the bones.

Data Collection

Gathering extensive 3D scan data for analysis.

A close-up view of a dinosaur skeleton, focusing on the detailed and textured features of the skull, with visible shadows and highlights adding depth to the bones.

Feature Extraction

Deep learning model identifies shape and texture characteristics.

A fossilized skeleton of a prehistoric creature is embedded in a sandy stone surface. The bones are well-preserved, featuring a long spine with ribs extending on either side, a distinct skull, and elongated limbs.

A detailed view of a fossilized skeleton embedded in a textured, brownish sediment. The bones form a distinct, curving line horizontally across the image, demonstrating the intricate structure of vertebrae.

Reassembly Algorithm

Intelligent techniques for reconstructing complete fossil models.

API Support

Enhancing data processing and visualization for research efficiency.