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Deep learning enhanced robotic fabrication of timber-to-timber connections with densified hardwood nails

Research output: Contribution to book/anthology/report/proceedingArticle in proceedingsResearchpeer-review

Standard

Deep learning enhanced robotic fabrication of timber-to-timber connections with densified hardwood nails. / Hudert, Markus Matthias; Elvebakken, Morten From; Meagher, Mark et al.

Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference: Innovation - Sustainability - Legacy. 2022. p. 1740-1748.

Research output: Contribution to book/anthology/report/proceedingArticle in proceedingsResearchpeer-review

Harvard

Hudert, MM, Elvebakken, MF, Meagher, M, Mangliar, L, Zhang, X & Esterle, L 2022, Deep learning enhanced robotic fabrication of timber-to-timber connections with densified hardwood nails. in Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference: Innovation - Sustainability - Legacy. pp. 1740-1748, IASS 2022 Symposium affiliated with APCS 2022 conference, Beijing, China, 19/09/2022.

APA

Hudert, M. M., Elvebakken, M. F., Meagher, M., Mangliar, L., Zhang, X., & Esterle, L. (2022). Deep learning enhanced robotic fabrication of timber-to-timber connections with densified hardwood nails. In Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference: Innovation - Sustainability - Legacy (pp. 1740-1748)

CBE

Hudert MM, Elvebakken MF, Meagher M, Mangliar L, Zhang X, Esterle L. 2022. Deep learning enhanced robotic fabrication of timber-to-timber connections with densified hardwood nails. In Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference: Innovation - Sustainability - Legacy. pp. 1740-1748.

MLA

Hudert, Markus Matthias et al. "Deep learning enhanced robotic fabrication of timber-to-timber connections with densified hardwood nails". Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference: Innovation - Sustainability - Legacy. 2022, 1740-1748.

Vancouver

Hudert MM, Elvebakken MF, Meagher M, Mangliar L, Zhang X, Esterle L. Deep learning enhanced robotic fabrication of timber-to-timber connections with densified hardwood nails. In Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference: Innovation - Sustainability - Legacy. 2022. p. 1740-1748

Author

Hudert, Markus Matthias ; Elvebakken, Morten From ; Meagher, Mark et al. / Deep learning enhanced robotic fabrication of timber-to-timber connections with densified hardwood nails. Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference: Innovation - Sustainability - Legacy. 2022. pp. 1740-1748

Bibtex

@inproceedings{785452cb883a4aff92d044e21242284f,
title = "Deep learning enhanced robotic fabrication of timber-to-timber connections with densified hardwood nails",
author = "Hudert, {Markus Matthias} and Elvebakken, {Morten From} and Mark Meagher and Laszlo Mangliar and Xuping Zhang and Lukas Esterle",
year = "2022",
month = sep,
language = "English",
pages = "1740--1748",
booktitle = "Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference",
note = "null ; Conference date: 19-09-2022 Through 22-09-2022",
url = "https://www.aconf.org/conf_179327/news.html",

}

RIS

TY - GEN

T1 - Deep learning enhanced robotic fabrication of timber-to-timber connections with densified hardwood nails

AU - Hudert, Markus Matthias

AU - Elvebakken, Morten From

AU - Meagher, Mark

AU - Mangliar, Laszlo

AU - Zhang, Xuping

AU - Esterle, Lukas

PY - 2022/9

Y1 - 2022/9

M3 - Article in proceedings

SP - 1740

EP - 1748

BT - Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference

Y2 - 19 September 2022 through 22 September 2022

ER -