We present a structured illumination-based approach capable of getting large-scale 3D images with full natural color, and high spatiotemporal resolution. With this approach, full-color volumetric images and morphological data of insect samples can be obtained. © 2018 The Author(s).</p
New innovations are needed to speed up digitisation of insect collections. More than one half of all...
This report describes the state of art and work in progress on automated methods in mass-digitisatio...
Methods for 3D‐imaging of biological samples are experiencing unprecedented development, with tools ...
High-resolution 3D imaging technology has found a number of applications in many biological fields. ...
Collections of biological specimens are fundamental to scientific understanding and characterization...
Collections of biological specimens are fundamental to scientific understanding and characterization...
Capturing high-quality 3D models of insects is challenging - they are usually too small for laser or...
Light-Sheet Fluorescence Microscopy has recently emerged as the technique of choice for obtaining hi...
Digitization of natural history collections is a major challenge in archiving biodiversity. In recen...
With the continuous development of imaging technology, the amount of insect 3D data is increasing, b...
International audience3D reconstruction of insects from photographs is a challenging task as it requ...
We learn from the past that invasive species have caused tremendous damage to native species and ser...
Understanding and combatting biodiversity loss are critical tasks facing our planet. They are made e...
This thesis proposes a robust method of creating a 3D digital model of an object through stereoscopi...
In merits of super-resolved resolution and fast speed of three-dimensional (3D) optical sectioning c...
New innovations are needed to speed up digitisation of insect collections. More than one half of all...
This report describes the state of art and work in progress on automated methods in mass-digitisatio...
Methods for 3D‐imaging of biological samples are experiencing unprecedented development, with tools ...
High-resolution 3D imaging technology has found a number of applications in many biological fields. ...
Collections of biological specimens are fundamental to scientific understanding and characterization...
Collections of biological specimens are fundamental to scientific understanding and characterization...
Capturing high-quality 3D models of insects is challenging - they are usually too small for laser or...
Light-Sheet Fluorescence Microscopy has recently emerged as the technique of choice for obtaining hi...
Digitization of natural history collections is a major challenge in archiving biodiversity. In recen...
With the continuous development of imaging technology, the amount of insect 3D data is increasing, b...
International audience3D reconstruction of insects from photographs is a challenging task as it requ...
We learn from the past that invasive species have caused tremendous damage to native species and ser...
Understanding and combatting biodiversity loss are critical tasks facing our planet. They are made e...
This thesis proposes a robust method of creating a 3D digital model of an object through stereoscopi...
In merits of super-resolved resolution and fast speed of three-dimensional (3D) optical sectioning c...
New innovations are needed to speed up digitisation of insect collections. More than one half of all...
This report describes the state of art and work in progress on automated methods in mass-digitisatio...
Methods for 3D‐imaging of biological samples are experiencing unprecedented development, with tools ...
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