![]() This application, called WingGram, uses computer vision to detect the boundaries of wings and wing cells from a 2D image. Here we address this challenge by developing a new tool for fast, precise modelling of insect wings. Hence, numerical studies in this area have often accompanied oversimplified models. Considering the complexities of insect wings, developing a wing model is usually error-prone and time-consuming. This has made the finite element method popular in studies of wing biomechanics. This is especially true for examining delicate museum specimens. ![]() Despite extensive research on the biomechanics of insect wings over the past years, direct mechanical measurements on sensitive wing specimens remain very challenging.
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