bioRxiv
Random adversarial threshold search enables automated DNA screening
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Gretton, D; Wang, B; Edison, R; Foner, L; Berlips, J; Vogel, T; Kysel, M; Chen, W; Sage-Ling, F; Van Hauwe, L; Wooster, S; Weinstein-Raun, B ...
2024
Duke Scholars
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Gretton, D., Wang, B., Edison, R., Foner, L., Berlips, J., Vogel, T., … Esvelt, K. (2024). Random adversarial threshold search enables automated DNA screening. bioRxiv. https://doi.org/10.1101/2024.03.20.585782
Gretton, Dana, Brian Wang, Rey Edison, Leonard Foner, Jens Berlips, Theia Vogel, Martin Kysel, et al. “Random adversarial threshold search enables automated DNA screening.” BioRxiv, 2024. https://doi.org/10.1101/2024.03.20.585782.
Gretton D, Wang B, Edison R, Foner L, Berlips J, Vogel T, et al. Random adversarial threshold search enables automated DNA screening. bioRxiv. 2024.
Gretton, Dana, et al. “Random adversarial threshold search enables automated DNA screening.” BioRxiv, 2024. Epmc, doi:10.1101/2024.03.20.585782.
Gretton D, Wang B, Edison R, Foner L, Berlips J, Vogel T, Kysel M, Chen W, Sage-Ling F, Van Hauwe L, Wooster S, Weinstein-Raun B, DeBenedictis E, Liu A, Chory E, Cui H, Li X, Dong J, Fabrega A, Dennison C, Don O, Ye CT, Uberoy K, Rivest R, Gao M, Yu Y, Baum C, Damgard I, Yao A, Esvelt K. Random adversarial threshold search enables automated DNA screening. bioRxiv. 2024.