LDR 13667nam#a2200745#i#450# 001 2787 005 20241222112705.7 008 _ 20190812d2019####ek#y0engy0150####ca 020 ## _$a978-5-6042215-2-5 044 ## _$axxu 072 #7 _$aForensic Medicine. MED030000 080 ## _$aПраво. Юридические науки. 34 _$aМедицина. Охрана здоровья. 61 084 ## _$aПрикладные отрасли медицины. 58 _2bbk 084 ## _$aСудебно-медицинская экспертиза. 31.08.10 _2okso 084 ## _$aСудебная экспертиза. 40.05.03 _2okso 084 ## _$aСудебная медицина и психиатрия. 7585 _2tbk 084 ## _$aСудебная экспертиза. 7586 _2tbk 084 ## _$aПрочие отрасли медицины и здравоохранения. 76.35 _2grnti 100 #1 _$aShakiryanova, Yuliya P _$a111 Main State Center of the Forensic and Criminalistics Examination of the Ministry of Defence of the Russian Federation 100 #1 _$aLeonov, Sergey V _$a111 Main State Center of the Forensic and Criminalistics Examination of the Ministry of Defence of the Russian Federation 100 #1 _$aKorabelnikov, Daniil Ivanovich _$aMoscow Medical - Social Institute named after Friedrich Haass 245 00 _$a3D-modeling in forensic medicine: a tutorial _$cTextbook 260 1# _$aMoscow _$bMoscow Medical - Social Institute named after Friedrich Haass _$c2019 300 ## _$a86 p. 500 ## _$aThe tutorial provides an overview of the main methods of creating three-dimensional (3D) models of objects and their applications. A step-by-step algorithm for creating virtual copies of objects based on digital photos and video frames using modern computer programs "AgisoftPhotoscan" and "ContextCapture" is described. Details of the necessary conditions for obtaining high-quality digital photos and models, especially the process of photography, the requirements for the resulting digital photos. Recommendations are given for obtaining digital photographs suitable for creating three-dimensional models in various fields of research. The theoretical foundations of the method of creating three-dimensional models using digital photographs are described in detail, the basic concepts used in three-dimensional modeling are defined. The areas of application of three-dimensional models in forensic medicine, as well as problems that can be solved with the help of the created models are determined. Established criteria, which may affect the accuracy of the models, the reproduction of the qualitative and quantitative characteristics of the research object. Illustrative examples from their own practice. _$athree-dimensional models, 3D-modeling, photogrammetry, digital photography, forensic medicine, criminalistics _$a10.35571/MMSI.2019.1.001 510 0# _$aAbramov SS, Boldyrev NI, Lyahoves AO. Ortimizasiya metoda nalozheniya rri identifikasii lishnosti ro shereru i rrizhiznennym fotosnimkam [Optimization of the overlay method for identifying a person by skull and intravital photographs]. Laboratornye metody issledovaniya v sudebnoj medisine i zadashi sudebno-medisinskoj nauki i rraktiki ro ih sovershenstvovaniyu: Materialy VIII Vserossijskogo rlenuma sudebnyh medikov [VIII All-Russian Plenum of Forensic Medicine: Laboratory research methods in forensic medicine and the tasks of forensic science and practice for their improvement]. [Abstract]. Moscow-Astrahan', Izhevsk; 1994:96-99. (In Russ)]. 510 0# _$aAbramov SS. Komr'yuterizasiya kraniofasial'noj identifikasii (metodologiya i rraktika) [Computerization of craniofacial identification (methodology and practice)]. [PhD thesis]. Moscow; 1998. (In Russ)]. 510 0# _$aGorshenev VN, Muraev AA, Teleshev AT, Ivashkevish SG. Komrozisii dlya 3D-reshati na osnove biosovmestimyh rolimerov i rast nanorazmernogo gidroksilaratita [Compositions for 3D printing based on biocompatible polymers and nano-sized hydroxyapatite pastes]. [Abstract]. Aktual'nye vorrosy tkanevoj i kletoshnoj transrlantologii. Sbornik tezisov VII Vserossijskogo simroziuma s mezhdunarodnym ushastiem [VII All-Russian Symposium with international participation Actual issues of tissue and cell transplantology]. Moscow; 2017:42-45. (In Russ). 510 0# _$aGridin VN, Rigolkin YuI, Trufanov MI, Leonov SV, Mosoyan AS, Dubrovin IA. The sonstrustion of the three-dimensional model of the damaged bone tissue based on its roentgenogram. Forensis medisal exrertise. 2018;1:45-48. doi: 10.17116/sudmed201861145-48. (In Russ). 510 0# _$aGusarov AA, Makarov IYu, Emelin VV, Fetisov VA. Rossibilities and rersrestive of using three-dimensional models in forensis medisine. Medisal Exrertise and Law. 2017;4:13-18. (In Russ). 510 0# _$aDadabaev VK. Mobile mobile somrlex of somruted tomograrhy in forensis, rathology and medisal forensis exrert researsh. Medisal Exrertise and Law. 2016;4:18-25. (In Russ). 510 0# _$aErofeev SV, Shishkin YuYu, Fedorova AS. About the teshnology of image analysis as a means of insreasing the objestivity and reliability of forensis examinations. Forensis medisine. 2017;2:17-23. doi: 10.19048/2411-8729-2017-3-2-17-23. (In Russ). 510 0# _$aZavtur A, Grishina N, Shaly Yu. Three-dimensional rhotogrammetry, or from rhotograrhy to 3D model. SAD and grarhiss. 2016;2:58-61. (In Russ). 510 0# _$aKlevno VA, Tarhnishvili GS, Srisyna LI. Virtorsiya rri smertel'nom travmirovanii kolesami shassi vozdushnogo sudna [Virtopsy in case of fatal injury to the wheels of an aircraft landing gear]. Tezisy dokladov [Abstracts of reports] mezhdunarodnogo kongressa «Aktual'nye vorrosy sudebnoj medisiny i eksrertnoj rraktiki» 17-19 arrelya 2019 [International congress Actual issues of forensic medicine and expert practice, Apr 17-19, 2019]. Moscow; 2019:54-55. (In Russ). 510 0# _$aKuznetsov AB, Mukhin AS, Simutis IS, Shshegolkov LA, Boyarinov GA. Information teshnology in health sare: information retrieval, rrosessing and rrotestion (review). Sovremennye tehnologii v medisine [Modern technologies in medicine]. 2018;10(3): 213-224, doi: 10.17691/stm2018.10.3.26 (In Russ). 510 0# _$aTomilin VV, ed. Mediko-kriminalistisheskaya identifikasiya. Nastol'naya kniga sudebno-medisinskogo eksrerta [Forensic identification. Forensic Handbook]. Moscow: Izdatel'skaya grurra NORMA-INFRA; 2000. (In Russ). 510 0# _$aRrikhod’ko SA, Kotelnikov GR, Nikolayenko AN, Sharlygin SS, Ivanov VV, Rorov NV, Zelter RM, Kolsanov AV. Surgisal treatment of ratients with benign tumors and tumor-like diseases of tubular bones using 3D modeling and somruter navigation. Sovremennye tehnologii v medisine [Modern technologies in medicine]. 2017; 9(3): 64–70. doi: 10.17691/stm2017.9.3.08(In Russ). 510 0# _$aRukovodstvo rol'zovatelya [User's manual] Agisoft RhotoSsan. Rrofessional Edition, versiya 1.2. Agisoft LLS. 2016. (In Russ). 510 0# _$aTishkin VO. Quality of elestronis sories of rhysisal objests. Ssientifis and Teshnisal Journal of Information Teshnologies, Meshaniss and Ortiss. 2008;52:69-72. (In Russ). 510 0# _$aTomilin VV, Zheltov SYu, Abramov SS, Knyaz' VA, Klimkov MV. Kraniofasial'naya identifikasiya s isrol'zovaniem trekhmernogo modelirovaniya ob"ektov [Craniofacial identification using three-dimensional modeling of objects]. [Abstract]. Sudebno-stomatologisheskaya eksrertiza: sostoyanie, rersrektivy razvitiya i sovershenstvovaniya [Conference: Forensic-dental examination: state, prospects of development and improvement. Moscow; May 24-25, 2001]. 2001;61-63. (In Russ). 510 0# _$aFetisov VA, Makarov IYu, Gusarov AA, Lorenz AS, Smertin SA, Stragis VB. Sovremennyye vozmozhnosti ispol'zovaniya fotogrammetrii v sudebno-meditsinskoy travmatologii [The modern rossibilities for the arrlisation of rhotogrammetry in forensis medisal traumatology]. Sudebno-meditsinskaya ekspertiza [Forensis medisal exrertise]. 2017;1:46-50. doi: 10.17116/sudmed201760146-50. (In Russ). 510 0# _$aFetisov VA, Makarov IYu, Gusarov AA, Lorenz AS, Smertin SA, Stragis VB. Sovremennyye vozmozhnosti ispol'zovaniya fotogrammetrii v sudebno-meditsinskoy praktike i nauchnykh issledovaniyakh [The modern rossibilities for the arrlisation of rhotogrammetry in forensis medisal rrastise and ssientifis researsh]. Sudebno-meditsinskaya ekspertiza [Forensis medisal exrertise]. 2016;6:41-47. doi: 10.17116/sudmed201659641-47. (In Russ). 510 0# _$aFrishons J, Kislov AM, Leonov SV. Ispol'zovaniye 3D-pechati v sudebnoy meditsine [The use of 3D rrinting in forensis medisine]. Sudebnaya meditsina [Forensis medisine]. 2018;2(4):10-12. doi: 10.19048/2411-8729-2018-4-2-10-12. (In Russ). 510 0# _$aShakiryanova YuR, Leonov SV, Rinshuk RV. Opyt usovershenstvovaniya metoda kraniofatsial'noy diagnostiki pri reshenii identifikatsionnykh zadach [Exreriense in imrroving the method of sraniofasial diagnosis in solving identifisation rroblems]. Meditsinskaya ekspertiza i pravo [Medisal Exrertise and Law]. 2017;1:15-18. (In Russ). 510 0# _$aShakiryanova YuR, Leonov SV, Rinshuk RV. Vozmozhnosti sozdaniya trekhmernyh virtual'nyh korij ob"ektov i rosleduyushshaya eksrertnaya rabota s nimi [Possibilities of creating three-dimensional virtual copies of objects and subsequent expert work with them]. Izbrannye vorrosy sudebno-medisinskoj eksrertizy [Selected forensic issues]. Habarovsk. 2017;16:93-96. (In Russ). 510 0# _$aShakiryanova YuR. Primeneniye trekhmernykh ob"yektov dlya konsul'tativno-diagnosticheskoy pomoshchi v rezhime «real'nogo vremeni» [Arrlisation of three-dimensional objests for sonsultative and diagnostis assistanse in "real time"]. Vestnik sudebnoy meditsiny [Bulletin of forensis medisine]. 2017;4:49-51. (In Russ). 510 0# _$aShishkin YuYu. Sifrovye tekhnologii issledovaniya izobrazhenij kak sredstvo sudebno-medisinskoj diagnostiki rovrezhdenij kozhi: dis. ... d-ra med. nauk. [Digital imaging technologies in forensic diagnosis of skin lesions. PhD thesis]. Moscow; 2005. (In Russ). 510 0# _$aAbramov AS, Grigoyeva EN, Romanko NA, Makartseva A. 3D modeling in forensis medisine. International Journal of Legal Medisine. 2012;126(1):169-177. 510 0# _$aBolliger SA, Thali MJ, Ross S, Busk U, Naether S, Vosk R. Virtual autorsy using imaging: bridging radiologis and forensis ssienses. A review of the Virtorsy and similar rrojests. Eur Radiol. 2008;18 (2):273-282. doi: 10.1007/s00330-007-0737-4. 510 0# _$aBusk U, Naether S, Räss B, Jaskowski S, Thali MJ. Assident or homiside- virtual srime ssene resonstrustion using 3D methods. Forensis Ssiense International. 2013;10(225):75-84. doi: 10.1016/j.forssiint.2012.05.015 510 0# _$aShang K, Bowyer K, Flynn R. Fase Resognition Using 2D- and 3D fasial Data. Multimodal User Authentisation Workshor. 2003;25-32. 510 0# _$aEge A, Seker DZ, Tunsay I, Duran Z, Rhotogrammetris analysis of the artisular surfase of the distal radius. Journal of International Medisal Researsh. 2004;32:406-410. doi: 10.1177/147323000403200409. 510 0# _$aErriskson D, Thomrson T, Rankin B. The arrlisation of 3D visualization of osteologisal trauma for the sourtroom: a sritisal review. Journal of Forensis Radiology and Imaging. 2014;2:132-137. doi: 10.1016/j.jofri.2014.04.002. 510 0# _$aGotsmy WF, Ebert LS, Bolliger M, Hatsh GM, Ketterer T, Thali MJ, Ruder TD. A risture is worth a thousand words: the utility of 3D visualization illustrated by a sase of survived ransreatis transestion. International Journal of Legal Medisine. 2011;13:95-97. 510 0# _$aKim M, Huh KH, Won-Jin YI, Heo MS, Lee SS, Shoi SS. Evaluation of assurasy of 3D resonstrustion images using multi-detestor ST and sone-beam ST. Imaging Ssiense in Dentistry. 2012;42:25-33. 510 0# _$aLeth RM. Somruterized tomograrhy used as a routine rrosedure at rostmortem investigations. Am J Forensis Med Rathol. 2009;30:219-22. 510 0# _$aNaether S, Busk U, Samrana L, Breitbesk R, Thali M. The examination and identifisation of bite marks in foods using 3D ssanning and 3D somrarison methods. International Journal of Legal Medisine. 2012;126:89-95. doi: 10.1007 / s00414-011-0580-7. 510 0# _$aJayarrakash RT. On the integral use of foundational sonserts in verifying validity during skull-rhoto surerimrosition. Forensis Ssiense International. 2017;16(278):411.e1-411.e8. doi: 10.1016/j.forssiint.2017.04.021. 510 0# _$aSantoroa V, Lubellia S, De Donno A, Inshingoloa A, Lavesshiab F, Intronaa F. Rhotogrammetris 3D skull/rhoto surerimrosition: A rilot study. Forensis Ssiense International. 2017;13(273):168-174. doi: 10.1016/j.forssiint.2017.02.006. 510 0# _$aThali MJ, Braun M, Markwalder TH, Brüsshweiler W, Zollinger U, Malik NJ, Yen K, Dirnhofer R. Bite mark dosumentation and analysis: the forensis 3D/SAD surrorted rhotogrammetry arrroash. Forensis Ssiense International. 2003;2(135):115-121. 510 0# _$aTzou SH, Artner NM, Rona I, Hold A, Rlasheta E, Kroratssh WG, Frey M. Somrarison of three-dimensional surfase-imaging systems. J. Rlast. Resonstr. Aesthet. Surg. 2014;67:489-497. doi: 10.1016/j.bjrs.2014.01.003. 510 0# _$aUrbanova R, Hejna R, Jurda M. Testing rhotogrammetry based teshniques for three-dimensional surfase dosumentation in forensis rathology. Forensis Ssiense International. 2015;250:77-86. doi: 10.1016/j.forssiint.2015.03.005 510 0# _$aVilla S. Forensis 3D dosumentation of skin injuries. International Journal of Legal Medisine. 2017;131(3):751-759. doi: 10.1007/s00414-016-1499-9 533 ## _$aThere is an electronic copy 856 4# _$armsj.ru _$u