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ïðîñèì ïðèíÿòü ó÷àñòèå â îïðîñåçàïîëíèòü àíêåòó

Òóçèêîâ Àëåêñàíäð Âàñèëüåâè÷


Òóçèêîâ À.Â.

Òóçèêîâ Àëåêñàíäð Âàñèëüåâè÷  îêîí÷èë ôàêóëüòåò ïðèêëàäíîé ìàòåìàòèêè ÁÃÓ (1980ã., ëåíèíñêèé ñòèïåíäèàò); àñïèðàíòóðó (1983ã.) è äîêòîðàíòóðó (1993ã.) Èíñòèòóòà òåõíè÷åñêîé êèáåðíåòèêè ÀÍ Áåëàðóñè (ñ 08.2002 Îáúåäèíåííûé èíñòèòóò ïðîáëåì èíôîðìàòèêè ÍÀÍ Áåëàðóñè). Ñ 1980ã. â ÈÒÊ ÍÀÍ Áåëàðóñè, ñ 1983ã. ì.í.ñ., ñ 1986ã. ñ.í.ñ. Ñ 1997ã. â Íàöèîíàëüíîì öåíòðå èíôîðìàöèîííûõ ðåñóðñîâ è òåõíîëîãèé, ñ 1998ã. â.í.ñ., ñ 2000ã. ãë.í.ñ. Ñ 2003ã. çàì. ãåíåðàëüíîãî äèðåêòîðà ïî íàó÷íîé ðàáîòå ÎÈÏÈ ÍÀÍ Áåëàðóñè, ñ 2009ã. ïî 2022ã. ãåíåðàëüíûé äèðåêòîð ÎÈÏÈ ÍÀÍ Áåëàðóñè, ñ ÿíâàðÿ 2022ã. çàâåäóþùèé ëàáîðàòîðèåé ÎÈÏÈ ÍÀÍ Áåëàðóñè. Ðàáîòàåò ïî ñîâìåñòèòåëüñòâó íà ôàêóëüòåòå ïðèêëàäíîé ìàòåìàòèêè è èíôîðìàòèêè Áåëãîñóíèâåðñèòåòà (ñ 2001ã. ïðîôåññîðîì).

 1985 ã. çàùèòèë äèññåðòàöèþ «Ìåòîäû ðåøåíèÿ íåêîòîðûõ êëàññîâ ìíîãîêðèòåðèàëüíûõ çàäà÷ òåîðèè ðàñïèñàíèé» íà ñîèñêàíèå ó÷åíîé ñòåïåíè êàíäèäàòà ôèçèêî-ìàòåìàòè÷åñêèõ íàóê, à â 1999 ã. – äîêòîðñêóþ äèññåðòàöèþ “Àíàëèç ñèììåòðè÷íîñòè è ñðàâíåíèå îáúåêòîâ íà îñíîâå ìàòåìàòè÷åñêîé ìîðôîëîãèè”, â 2005ã. ïðèñâîåíî ó÷åíîå çâàíèå ïðîôåññîðà ïî ñïåöèàëüíîñòè «èíôîðìàòèêà, óïðàâëåíèå è âû÷èñëèòåëüíàÿ òåõíèêà», â 2014ã. èçáðàí ÷ëåí-êîððåñïîíäåíòîì ÍÀÍ Áåëàðóñè ïî ñïåöèàëüíîñòè "Èíôîðìàòèêà â ìåäèöèíå è áèîëîãèè". Ëàóðåàò Ãîñóäàðñòâåííîé ïðåìèè Ðåñïóáëèêè Áåëàðóñü (2002ã.) çà öèêë èññëåäîâàíèé “Ðàñïîçíàâàíèå è àíàëèç ñòîõàñòè÷åñêèõ äàííûõ è öèôðîâûõ èçîáðàæåíèé”, ïðåìèè Ëåíèíñêîãî êîìñîìîëà Áåëàðóñè (1990ã.) çà ðàáîòó “Êîìáèíàòîðíûå àëãîðèòìû ðåøåíèÿ çàäà÷ îïòèìàëüíîãî ïëàíèðîâàíèÿ è ïðîåêòèðîâàíèÿ”, ïðåìèè ÍÀÍ Áåëàðóñè (2017) çà öèêë ðàáîò “Êîìïüþòåðíûé äèçàéí ïîòåíöèàëüíûõ èíãèáèòîðîâ ÂÈ×-1, ïåðñïåêòèâíûõ äëÿ ñîçäàíèÿ ïðîòèâîâèðóñíûõ ïðåïàðàòîâ íîâîãî ïîêîëåíèÿ”, Ìåæãîñóäàðñòâåííîé ïðåìèè «Çâåçäû ñîäðóæåñòâà» çà 2020ã.  2007 ãîäó åìó áûëà íàçíà÷åíà ñòèïåíäèÿ Ïðåçèäåíòà Ðåñïóáëèêè Áåëàðóñü çà âûäàþùèåñÿ ðåçóëüòàòû. Íàãðàæäåí ìåäàëüþ Ôðàíöèñêà Ñêîðèíû (2009ã.).

Òóçèêîâ À.Â. ÿâëÿåòñÿ ó÷åíûì â îáëàñòè èíôîðìàòèêè, îáðàáîòêè èçîáðàæåíèé è ðàñïîçíàâàíèÿ îáðàçîâ, äèñêðåòíîé ìàòåìàòèêè, áèîèíôîðìàòèêè. Èì ââåäåíû è èññëåäîâàíû ìåðû ñõîäñòâà è ñèììåòðèé âûïóêëûõ îáúåêòîâ ïðîèçâîëüíîé ðàçìåðíîñòè, îñíîâàííûå íà òåîðèè Áðóííà-Ìèíêîâñêîãî. Äîêàçàíî, ÷òî ìåðû ñõîäñòâà âûïóêëûõ ìíîãîóãîëüíèêîâ è ìíîãîãðàííèêîâ, èíâàðèàíòíûå îòíîñèòåëüíî ãðóïïû àôôèííûõ ïðåîáðàçîâàíèé, äîïóñêàþò ýôôåêòèâíîå âû÷èñëåíèå. Îí ðàçðàáîòàë íîâûé ìåòîä îöåíèâàíèÿ ñòåïåíè ñèììåòðè÷íîñòè âûïóêëûõ ìíîãîìåðíûõ ìíîæåñòâ, áèíàðíûõ è ïîëóòîíîâûõ èçîáðàæåíèé, îñíîâàííûé íà èñïîëüçîâàíèè ïðåîáðàçîâàíèé ñèììåòðèçàöèè; ìåòîäû ñèíòåçà è àíàëèçà èíâàðèàíòíûõ ìîðôîëîãè÷åñêèõ ôèëüòðîâ íà ïîëíûõ ðåøåòêàõ; ïàðàëëåëüíûå àëãîðèòìû âû÷èñëåíèÿ ìîðôîëîãè÷åñêèõ îïåðàöèé, ïîëó÷èë ÿâíûå ôîðìóëû âû÷èñëåíèÿ ãåîìåòðè÷åñêèõ ìîìåíòîâ ïîëèãîíàëüíûõ îáúåêòîâ ïðîèçâîëüíîé ðàçìåðíîñòè è ïëîñêèõ îáúåêòîâ, îãðàíè÷åííûõ ñïëàéíîâîé êðèâîé, ôîðìóëû îöåíêè îáúåìà òðåõìåðíûõ îáúåêòîâ ïî íåñêîëüêèì íåïàðàëëåëüíûì ñå÷åíèÿì. Ðàçðàáîòàíû àëãîðèòìû âçàèìíîé îáðàáîòêè íåñêîëüêèõ èçîáðàæåíèé äëÿ àâòîìàòè÷åñêîé ðåêîíñòðóêöèè òðåõìåðíûõ ñöåí ïî öèôðîâûì èçîáðàæåíèÿì. Ðÿä íàó÷íî-òåõíè÷åñêèõ ðàçðàáîòîê À.Â. Òóçèêîâà, âûïîëíåííûõ ñîâìåñòíî ñ êîëëåãàìè è ó÷åíèêàìè, èñïîëüçóåòñÿ ïðè äèàãíîñòèêå çàáîëåâàíèé íà îñíîâå àíàëèçà öèôðîâûõ èçîáðàæåíèé ðàçëè÷íûõ ìîäàëüíîñòåé (óëüòðàçâóêîâûõ, òîìîãðàôè÷åñêèõ, öèòîëîãè÷åñêèõ è äð.), à òàêæå äëÿ ïîääåðæêè ïëàíèðîâàíèÿ è ïðîâåäåíèÿ ìåäèöèíñêèõ îïåðàöèé. Ñîâìåñòíî ñ êîëëåãàìè Òóçèêîâ À.Â. çàíèìàåòñÿ èññëåäîâàíèÿìè â îáëàñòè áèîèíôîðìàòèêè, âêëþ÷àÿ èññëåäîâàíèÿ áåëîê-áåëêîâûõ âçàèìîäåéñòâèé íà îñíîâå êîìïüþòåðíîãî ìîäåëèðîâàíèÿ è àíàëèçà áàç äàííûõ áåëêîâûõ êîìïëåêñîâ, ñòðóêòóðíîãî ñðàâíåíèÿ è ïðåäñêàçàíèÿ âçàèìîäåéñòâèÿ áåëêîâ, àíàëèçà ãåíåòè÷åñêèõ äàííûõ ñ öåëüþ âûÿâëåíèÿ çàâèñèìîñòåé â íèõ, êîìïüþòåðíîãî ìîäåëèðîâàíèÿ è ïîèñêà â áàçàõ õèìè÷åñêèõ ñîåäèíåíèé ìèìåòèêîâ àíòèòåë øèðîêîãî íåéòðàëèçóþùåãî äåéñòâèÿ ïðîòèâ ÂÈ×-1, êîòîðûå ìîãóò áûòü èñïîëüçîâàíû äëÿ ðàçðàáîòêè ïåðñïåêòèâíûõ ëåêàðñòâåííûõ ïðåïàðàòîâ.

Îïóáëèêîâàë ñâûøå 400 ïå÷àòíûõ ðàáîò, â òîì ÷èñëå ïÿòü ìîíîãðàôèé è áîëåå 50 ðàáîò íà àíãëèéñêîì ÿçûêå, âêëþ÷àÿ ñòàòüè â ñàìûõ ïðåñòèæíûõ çàðóáåæíûõ æóðíàëàõ. Âûñòóïàë ñ íàó÷íûìè äîêëàäàìè íà ìåæäóíàðîäíûõ êîíôåðåíöèÿõ è â âåäóùèõ çàðóáåæíûõ íàó÷íûõ öåíòðàõ â ÑØÀ, Êàíàäå, Âåëèêîáðèòàíèè, Ãåðìàíèè, Ôðàíöèè, Èòàëèè, Èñïàíèè, Íèäåðëàíäàõ, Àâñòðàëèè, ßïîíèè, Ïîëüøå, Ðîññèè è äð.

À.Â.Òóçèêîâ âûïîëíÿåò áîëüøóþ íàó÷íî-îðãàíèçàöèîííóþ ðàáîòó: ïðåäñåäàòåëü íàó÷íîãî ñîâåòà è íàó÷íûé ðóêîâîäèòåëü (ñîâìåñòíî ñ Àáëàìåéêî Ñ.Â.) ãîñóäàðñòâåííîé ïðîãðàììû íàó÷íûõ èññëåäîâàíèé «Öèôðîâûå è êîñìè÷åñêèå òåõíîëîãèè, áåçîïàñíîñòü ÷åëîâåêà, îáùåñòâà è ãîñóäàðñòâà» íà 2021-2025 ãîäû, áûë íàó÷íûì ðóêîâîäèòåëåì ïðîãðàìì Ñîþçíîãî ãîñóäàðñòâà «Ðàçðàáîòêà êîñìè÷åñêèõ è íàçåìíûõ ñðåäñòâ îáåñïå÷åíèÿ ïîòðåáèòåëåé Ðîññèè è Áåëàðóñè èíôîðìàöèåé äèñòàíöèîííîãî çîíäèðîâàíèÿ Çåìëè» (Ìîíèòîðèíã-ÑÃ) íà 2013-2017ãã. è «Èññëåäîâàíèÿ è ðàçðàáîòêà âûñîêîïðîèçâîäèòåëüíûõ èíôîðìàöèîííî-âû÷èñëèòåëüíûõ òåõíîëîãèé äëÿ óâåëè÷åíèÿ è ýôôåêòèâíîãî èñïîëüçîâàíèÿ ðåñóðñíîãî ïîòåíöèàëà óãëåâîäîðîäíîãî ñûðüÿ Ñîþçíîãî ãîñóäàðñòâà» (ÑÊÈÔ-Íåäðà) íà 2015-2018ãã. Ðàáîòàåò ïî ñîâìåñòèòåëüñòâó â Áåëãîñóíèâåðñèòåòå ïðîôåññîðîì ñ 2001ã. Ïîäãîòîâèë 7 êàíäèäàòîâ íàóê.

À.Â. Òóçèêîâ – ïðåäñòàâèòåëü Áåëàðóñè â ìåæäóíàðîäíîé àññîöèàöèè ïî ðàñïîçíàâàíèþ îáðàçîâ (IAPR).

À.Â. Òóçèêîâ âõîäèò â ñîñòàâ ðåäêîëëåãèè æóðíàëîâ “Äîêëàäû ÍÀÍ Áåëàðóñè”, “Âåñòè ÍÀÍ Áåëàðóñè, ñåð. ôèç.-ìàò. íàóê”, ÿâëÿåòñÿ ãëàâíûì ðåäàêòîðîì æóðíàëà “Èíôîðìàòèêà”, ðåöåíçåíòîì íåñêîëüêèõ ìåæäóíàðîäíûõ æóðíàëîâ. Îí – ïðåäñåäàòåëü ñîâåòà ïî çàùèòå äîêòîðñêèõ äèññåðòàöèé ïðè ÎÈÏÈ ÍÀÍ Áåëàðóñè.


Êîíòàêòíàÿ èíôîðìàöèÿ
òåë.: +(375 17) 270-21-40
e-mail: tuzikov@newman.bas-net.by 
http://uiip.bas-net.by/personal/tuz/index.php

Àäðåñ:
óë. Ñóðãàíîâà, 6  220012, ã. Ìèíñê, Áåëàðóñü

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Ïîëíûé ñïèñîê ïóáëèêàöèé (pdf) 

Èçáðàííûå ïóáëèêàöèè 

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Öèôðîâàÿ òðàíñôîðìàöèÿ. Îñíîâíûå ïîíÿòèÿ è òåðìèíîëîãèÿ: ñá. ñòàòåé. Ðåäêîë.: À.Â. Òóçèêîâ è äð. Íàöèîíàëüíàÿ àêàäåìèÿ íàóê Áåëàðóñè, Îáúåäèíåííûé èíñòèòóò ïðîáëåì èíôîðìàòèêè. Ìèíñê: Áåëàðóñêàÿ íàâóêà, 2020. - 267ñ.

Ïåðñïåêòèâíûå òåõíè÷åñêèå ñðåäñòâà è òåõíîëîãèè äëÿ ðàçâèòèÿ êîñìè÷åñêîé îòðàñëè: ðåçóëüòàòû ðåàëèçàöèè ïðîãðàììû Ñîþçíîãî ãîñóäàðñòâà ”Ðàçðàáîòêà êîñìè÷åñêèõ è íàçåìíûõ ñðåäñòâ îáåñïå÷åíèÿ ïîòðåáèòåëåé Ðîññèè è Áåëàðóñè èíôîðìàöèåé äèñòàíöèîííîãî çîíäèðîâàíèÿ Çåìëè” (“Ìîíèòîðèíã-ÑÔ). Ðåäñîâåò: Ìàêàðîâ Ì.È., Òóçèêîâ À.Â. è äð. Ìèíñê: Áåëàðóñêàÿ íàâóêà, 2019. - 557ñ.

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À. Àíäðèàíîâ, È. Êàøèí, À. Òóçèêîâ. Ðàçðàáîòêà íîâûõ èíãèáèòîðîâ ÂÈ× ìåòîäàìè ìîëåêóëÿðíîãî ìîäåëèðîâàíèÿ. Lambert Academic Publishing, 2018. – 127p.

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Êèáåðíåòèêà è èíôîðìàòèêà â Íàöèîíàëüíîé àêàäåìèè íàóê Áåëàðóñè: î÷åðêè ðàçâèòèÿ. Îáúåäèíåííûé èíñòèòóò ïðîáëåì èíôîðìàòèêè ÍÀÍ Áåëàðóñè. Íàó÷. ðåä.: Ñ.Â. Àáëàìåéêî, À.Â. Òóçèêîâ, Î.È. Ñåìåíêîâ. – Ìèíñê: Òåõíîëîãèÿ, 2015 – 348ñ.

Ñ.À. Êîðåíÿêî, Î.È. Ñåìåíêîâ, À.Â. Òóçèêîâ. Êîñìè÷åñêèå ñðåäñòâà è òåõíîëîãèè. Îñíîâíûå ðåçóëüòàòû ðåàëèçàöèè áåëîðóññêîé ÷àñòè íàó÷íî-òåõíè÷åñêîé ïðîãðàììû Ñîþçíîãî ãîñóäàðñòâà “Êîñìîñ-ÍÒ”. Ìèíñê, ÎÈÏÈ ÍÀÍ Áåëàðóñè, 2013. – 114ñ.

Ñ.Â. Àáëàìåéêî, Â.Â. Àíèùåíêî, Â.À. Ëàïèöêèé, À.Â. Òóçèêîâ. Ìåäèöèíñêèå èíôîðìàöèîííûå òåõíîëîãèè è ñèñòåìû. Ìèíñê: ÎÈÏÈ ÍÀÍ Áåëàðóñè, 2007. – 176ñ.

À.Â. Òóçèêîâ, Ñ.À Øåéíèí, Ä.Â. Æóê. Ìàòåìàòè÷åñêàÿ ìîðôîëîãèÿ, ìîìåíòû, ñòåðåîoáðàáîòêà: èçáðàííûå âîïðîñû îáðàáîòêè è àíàëèçà öèôðîâûõ èçîáðàæåíèé. Ìèíñê, Áåëîðóñ. íàóêà, 2006.-198ñ.

À.Â. Òóçèêîâ. Àíàëèç ñèììåòðè÷íîñòè è ñðàâíåíèå îáúåêòîâ íà îñíîâå ñëîæåíèÿ Ìèíêîâñêîãî.- Ìèíñê, Èíñòèòóò òåõíè÷åñêîé êèáåðíåòèêè ÍÀÍ Áåëàðóñè, 1998. – 176 c.


Ñòàòüè.

Andrianov A.M., Nikolaev G.I., Shuldov N.A., Bosko I.P., Anischenko A.I., Tuzikov A.V. Application of deep learning and molecular modeling to identify small drug-like compounds as potential HIV-1 entry inhibitors. J. Biomol. Struct. Dyn. 2021. 1-19. doi: 10.1080/07391102.2021.1905559 (IF 3,39)

A.M. Andrianov, Yu. V. Kornoushenko, A.D. Karpenko, I.P. Bosko, A.V. Tuzikov. Computational discovery of small drug-like compounds as potential inhibitors of SARS-CoV-2 main protease. Journal of Biomolecular Structure and Dynamics, vol. 39, n. 15, 2021, 5779-5791. https://doi.org/10.1080/07391102.2020.1792989 (IF 3,39).

A.Y. Hadarovich, D. Chakravarty, A.V. Tuzikov, N. Ben-Tal, P.J. Kundrotas, and I.A. Vakser. Structural motifs in protein cores and at protein-protein interfaces are different. Protein Science, vol. 30, n. 2, 2021, 281-390. https://doi.org/10.1002/pro.3996. (IF = 3,876)

V.A. Kovalev, V.A. Liauchuk, D.M. Voynov, A.V. Tuzikov. Biomedical Image Recognition in Pulmonology and Oncology with the Use of Deep Learning. Pattern Recognit. Image Anal., vol. 31, n. 1, 2021, 144–162. https://doi.org/10.1134/S1054661821010120

Alexander M. Andrianov, Grigory I. Nikolaev, Yuri V. Kornoushenko, Wei Xu, Shibo Jiang, Alexander V. Tuzikov. In Silico Identification of Novel Aromatic Compounds as Potential HIV-1 Entry Inhibitors Mimicking Cellular Receptor CD4. Viruses, 11(8), 2019, 21p. https://doi.org/10.3390/v11080746 (IF 3,811)

R.S. Sergeev, I.S. Kavaliou, U.V. Sataneuski, A. Gabrielian, A. Rosenthal, M. Tartakovsky, A.V. Tuzikov. Genome-wide Analysis of MDR and XDR Tuberculosis from Belarus: Machine-learning Approach. IEEE/ACM Transactions on Computational Biology and Bioinformatics, vol. 16, n. 4, 2019, 1398-1408. DOI: 10.1109/TCBB.2017.2720669 (IF 2,896)

Anna Hadarovich, Ivan Anishchenko, Alexander V. Tuzikov, Petras J. Kundrotas, Ilya A. Vakser. Gene ontology improves template selection in comparative protein docking. Proteins: Structure, Function, Bioinformatics, vol. 87, n. 3, 2019, 245-253. DOI: 10.1002/prot.25645 (IF 2,274).

A.M. Andrianov, I.A. Kashyn, A.V. Tuzikov. Potential HIV-1 fusion inhibitors mimicking gp41-specific broadly neutralizing antibody 10E8: in silico discovery and prediction of antiviral potency. Journal of Bioinformatics and Computational Biology, vol. 16, n. 2, 2018.

Alex Rosenthal, Andrei Gabrielian, Eric Engle, etc. The TB Portals: an Open-Access, Web-Based Platform for Global Drug-Resistant-Tuberculosis Data Sharing and Analysis. Journal of Clinical Microbiology, vol. 77, n. 1, 2017, 3261-3282.

Alexander M. Andrianov, Ivan A. Kashyn, Alexander V. Tuzikov. Computational identification of novel entry inhibitor scaffolds mimicking primary receptor CD4 of HIV-1 gp120, Journal of Molecular Modeling, vol. 23, n. 1, 2017.

Tatsiana Kirys, Anatoly M. Ruvinsky, Deepak Singla, Alexander V. Tuzikov, Petras J. Kundrotas, Ilya A. Vakser. Simulated unbound structures for benchmarking in protein docking in Dockground resource. BMC Bioinformatics, 16:243, 2015.

Alexander M. Andrianov, Ivan A. Kashyn, Alexander V. Tuzikov. Computational discovery of novel HIV-1 entry inhibitors based on potent and broad neutralizing antibody VRC01. Journal of Molecular Graphics and Modelling, n 61, 2015, 262-271.

A.M. Andrianov, I.À. Kashyn, A.V. Tuzikov. Discovery of novel anti-HIV-1 agents based on a broadly neutralizing antibody against the envelope gp120 V3 loop: a computational study. Journal of Biomolecular Structure and Dynamics, vol. 32, n. 12, 2014, 1993-2004.

Ivan Anishchenko, Petras J. Kundrotas, Alexander V. Tuzikov, Ilya A. Vakser. Protein models: The grand challenge of protein docking. Proteins: Structure, Function, Bioinformatics, vol. 82, n. 2, 2014, 278-287.

Anatoly M. Ruvinsky, Tatsiana Kirys, Alexander V. Tuzikov, Ilya A. Vakser. Ensemble-based characterization of unbound and bound states on protein energy landscape. Protein Science, vol. 22, n 6, 2013, 734-744.

A.M. Ruvinsky, T. Kirys, A.V. Tuzikov, I.A. Vakser. Side-Chain Conformational Changes upon Protein-Protein Association. Journal of Molecular Biology, 2011, vol. 408, n. 2, 356-365.

A.M. Andrianov, I. Anishchenko, and A.V. Tuzikov. Discovery of Novel Promising Targets for Anti-AIDS Drug Developments by Computer Modeling: Application to the HIV-1 gp120 V3 Loop. J. Chem. Inf. Model., 51 (10), 2011, 2760–2767.

V. Hancharenka, A. Tuzikov, V. Arkhipau, A. Kryvanos. Preoperative planning of pelvic and lower limbs surgery by CT image processing. Pattern Recognition and Image Analysis, vol. 19, N 1, 2009, 109-113.

D. Sanko, A. Tuzikov. The Description and Visualization of Vascular Tree from 3D MR Brain Angiography Images. Pattern Recognition and Image Analysis, vol. 16, N 1, 2006, 54-57.

E.V. Snezhko, A.V. Tuzikov. External Force Generation for Object Segmentation on 3D Ultrasound Images Using Simplex Meshes. Pattern Recognition and Image Analysis, vol. 16, N 1, 2006, 89-92.

V. Goncharenko, A. Tuzikov. Watershed Segmentation with Chamfer Metric. Lecture Notes in Computer Science, vol. 4245, 2006, 518-529.

A.L. Bogush, A.V. Tuzikov. 3D Object Volume Measurement Using Freehand Ultrasound, 14th Scandinavian Conference on Image Analysis, 19-22 June 2005, Joensuu, Finland; Lecture Notes in Computer Science, vol. 3544, 2005, 1066 – 1075

A.V. Tuzikov, S.A. Sheynin, P.V. Vasiliev. Computation of volume and surface body moments. Pattern Recognition, vol. 36, N 11, 2003, 2521-2529.

S.A. Sheynin, A.V. Tuzikov. Moment computation for objects with spline curve boundary. IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 25, N 10, 2003, 1317-1322.

A.V. Tuzikov, O. Colliot, I. Bloch. Evaluation of the symmetry plane in 3D MR brain images. Pattern Recognition Letters, vol. 24, N 14, 2003, 2219--2233.

S.A. Sheynin, A.V. Tuzikov, P.V. Vasiliev. Volume computation from non-parallel cross-section measurements. Pattern Recognition and Image Analysis, no.1, vol.13, 2003, p. 174-176.

A. Tuzikov, J. B.T.M. Roerdink and H. J. A. M. Heijmans. Similarity measures for convex polyhedra based on Minkowski addition, Pattern Recognition, v. 33, N 6, 2000, 979--995.

H. J. A. M. Heijmans and A. Tuzikov. Similarity and symmetry measures for convex shapes using Minkowski addition. IEEE Transactions on on Pattern Analysis and Machine Intelligence, v. 20, N 9, 1998, 980 -- 993.

A. Tuzikov, M. Makhaniok, R. Maenner. Bicriterion scheduling of identical processing time jobs by uniform processors. Computers & Operations Research, v. 25, N 1, 1998, 31--35.