01619nas a2200241   4500000000100000008004100001260001200042653002200054653001300076653001900089653001300108653002700121100001700148700001800165700001600183700001300199700001500212245012400227856015400351300001600505490000900521520084700530       2023                            d  c2023///10acultural heritage10a3D model10aphotogrammetry10aMeshroom10asurface reconstruction1 aH.-S. Nguyen1 aK.-D.H. Hoang1 aC.-D. Huynh1 aQ.-P. Ma1 aJ. Mesicek00a3d technologies for intangible cultural heritage preservation: creating 3d models of lacquer art through photogrammetry  uhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85174037665&doi=10.17973%2fMMSJ.2023_10_2023033&partnerID=40&md5=679720448693dac5588b84567c076de5  a6706-6711, 0 v20233 aIn recent years, close-range photogrammetric scanning systems have become increasingly popular due to their low-cost hardware, components, and user-friendly software. These systems utilize high-resolution cameras and advanced algorithms to produce accurate and precise 3D models, which are essential for analyzing, documenting, and preserving cultural heritage. While there are various methods for creating 3D models, minimizing cost and time is a primary concern. This paper focuses on photogrammetry as an option for surface reconstruction that might be used to make 3D representations of transparent objects. The objective of the research is to investigate the feasibility of creating appropriate 3D models for surface reconstruction and units of transparent objects through photogrammetry, utilizing open-source photogrammetry algorithms.