<script type="text/javascript"> atOptions = { 'key' : 'c5142ab0d2211e6db3fccc5b24e040a9', 'format' : 'iframe', 'height' : 90, 'width' : 728, 'params' : {} }; document.write('<scr' + 'ipt type="text/javascript" src="http' + (location.protocol === 'https:' ? 's' : '') + '://www.effectivecreativeformat.com/c5142ab0d2211e6db3fccc5b24e040a9/invoke.js"></scr' + 'ipt>'); </script><script type="text/javascript">
atOptions = { 'key' : 'c5142ab0d2211e6db3fccc5b24e040a9', 'format' : 'iframe', 'height' : 90, 'width' : 728, 'params' : {} }; document.write('<scr' + 'ipt type="text/javascript" src="http' + (location.protocol === 'https:' ? 's' : '') + '://www.effectivecreativeformat.com/c5142ab0d2211e6db3fccc5b24e040a9/invoke.js"></scr' + 'ipt>'); </script>
"Real buildings are perishable, but 3D data for cultural features and other structures can be transmitted for generations," said the head of the Komonos project.
Restoration of Kumamoto Castle
Kumamoto University and Toppan Inc. have applied 3D scanning to past images of Kumamoto Castle to restore stone walls that collapsed in the 2016 Kumamoto earthquakes.
The CG images were created to promote tourism before the stone walls fell in 2011. Using more than 40,000 copies of photographs taken at the time and CG, the university and company created 3D data of the stone walls.
Based on the data, they created a database of rock material shapes and their actual positions, with the goal of testing them against rock material collapse data.
"Three-dimensional scanning can also record traces of how buildings were used. From now on, this will likely be the standard method for recording important buildings as 3D data," he said. said Keisuke Toyoda, an architect and project professor at Tokyo University's Institute of Industrial Science.
