B. TOKAR Et Al. , "As an artificial intelligence subtype, deep learningstudy fordifferentiation and image recognition of filled or empty organlumens: A study on a medical imagingin children," The Virtual IPEG 2021Annual Meeting , United States Of America, 2021
TOKAR, B. Et Al. 2021. As an artificial intelligence subtype, deep learningstudy fordifferentiation and image recognition of filled or empty organlumens: A study on a medical imagingin children. The Virtual IPEG 2021Annual Meeting , (United States Of America).
TOKAR, B., Celik, O., Abbasov, T., & AK SİVRİKOZ, İ., (2021). As an artificial intelligence subtype, deep learningstudy fordifferentiation and image recognition of filled or empty organlumens: A study on a medical imagingin children . The Virtual IPEG 2021Annual Meeting, United States Of America
TOKAR, BARAN Et Al. "As an artificial intelligence subtype, deep learningstudy fordifferentiation and image recognition of filled or empty organlumens: A study on a medical imagingin children," The Virtual IPEG 2021Annual Meeting, United States Of America, 2021
TOKAR, BARAN Et Al. "As an artificial intelligence subtype, deep learningstudy fordifferentiation and image recognition of filled or empty organlumens: A study on a medical imagingin children." The Virtual IPEG 2021Annual Meeting , United States Of America, 2021
TOKAR, B. Et Al. (2021) . "As an artificial intelligence subtype, deep learningstudy fordifferentiation and image recognition of filled or empty organlumens: A study on a medical imagingin children." The Virtual IPEG 2021Annual Meeting , United States Of America.
@conferencepaper{conferencepaper, author={BARAN TOKAR Et Al. }, title={As an artificial intelligence subtype, deep learningstudy fordifferentiation and image recognition of filled or empty organlumens: A study on a medical imagingin children}, congress name={The Virtual IPEG 2021Annual Meeting}, city={}, country={United States Of America}, year={2021}}