Dataset Groups Activity Stream ThermoPore: Predicting Part Porosity Based on Thermal Images Using Deep Learning Thermal images of Laser Powder Bed Fusion fabricated samples utilizing in-situ thermal image monitoring data. BibTex: @dataset{Peter_Myung-Won_Pak_and_Francis_Ogoke_and_Andrew_Polonsky_and_Anthony_Garland_and_Dan_S_Bolintineanu_and_Dan_R_Moser_and_Michael_J_Heiden_and_Amir_Barati_Farimani_2024, abstract = {Thermal images of Laser Powder Bed Fusion fabricated samples utilizing in-situ thermal image monitoring data.}, author = {Peter Myung-Won Pak and Francis Ogoke and Andrew Polonsky and Anthony Garland and Dan S. Bolintineanu and Dan R. Moser and Michael J. Heiden and Amir Barati Farimani}, doi = {10.57702/o44vcb94}, institution = {No Organization}, keyword = {'Additive Manufacturing', 'Deep Learning', 'Laser Powder Bed Fusion', 'Thermal Images'}, month = {dec}, publisher = {TIB}, title = {ThermoPore: Predicting Part Porosity Based on Thermal Images Using Deep Learning}, url = {https://service.tib.eu/ldmservice/dataset/thermopore--predicting-part-porosity-based-on-thermal-images-using-deep-learning}, year = {2024} }