НАУЧНИ И МЕТОДОЛОГИЧНИ ОСНОВИ НА СЪДЕБНО - БАЛИСТИЧНАТА ЕКСПЕРТИЗА
Ключови думи :
изследвания при съдебно-балистична експертизаАбстракт
СЪДЪРЖАНИЕ
1. Научни основи на идентификационните изследвания при съдебно-балистична експертиза
1.1. Основни методи, използвани при съдебни-балистични експертизи
1.2. Особености на идентификационното изследване при съдебно-балистична експертиза
1.3. Използване на инструментални и специални методи за експертно балистично криминалистично изследване
2. Автоматизирани системи за идентификация в балистичната експертиза
3. Заключение
Сваляния
Данните за свалянията все още не са налични.
Литература (библиография)
[1]. Дмитриевский А. А., Лысенко Л. Н., “Внешная Баллистика“//М. Машиностроение, 2009, 126 с.
[2]. Обзор баллистических программ, 1.1. Applied Ballistics Analytics /Электронный ресурс/, http://rifleaccuracychannel.com
[3]. Song, J., Vorburger, T.V., Ballou, S., Thompson, R.M., Yen, J., Renegar, T.B., Zheng, A., Silver, R.M., Ols, M., "The National Ballistics Imaging Comparison (NBIC) Project," Forensic Sci. Int. 216, pp. 168-182 (2012); DOI:10.1016/j.forsciint.2011.09.016.
[4]. Pratyashee Changmai, Kangkana Bora, Rsuresh Suresh, Lipi B. Mahanta, Nabamita Deb, On the Study of Automated Identification of Firearms Through Associated Striations, November 2019 DOI: 10.12783/ballistics2019/33156 Conference: 31st International Symposium on Ballistics 2019: Volume 1: Exterior Ballistics, Interior Ballistics, Launch Dynamics, and Others.
[5]. G. Li, Image processing for the positive identification of forensic ballistic specimens,, in: Proceedings of 6th Interna-tional Conference of Information Fusion, Cairns, Queensland, Australia, 2003, pp. 1494–1498 (2003).
[6]. Hamby J 1999 The history of firearm and toolmark identification AFTE J. 31 225–41.
[7]. IBIS Operation Manual, Forensic Technology Inc., Montreal, Canada http://www.fti-ibis.com
[8]. J. Song1, W. Chu1, T. V. Vorburger, R. Thompson, T. B. Renegar, Development of ballistics identification—from image comparison to topography measurement in surface metrology, Measurement Science And Technology, Meas. Sci. Technol. 23 (2012) 054010 (6pp).
[9]. Anthony J. Bertino, Patricia Nolan Bertino, Forensic Science: Fundamentals and Investigations, 2012, ISBN-13: 978-0-538-73155-3.
[10]. Федоренко В. А., Илясов Ю. В., Применение баллистического идентификационного комплекса «КОНДОР» при экспертных исследованиях и в учебном процессе, https://sud-expertiza.ru/library/ekspertiza-kompleksa-kondor
[11]. T. V. Vorburger, J Song and N. Petraco, Topography measurements and applications in ballistics and tool mark identifications, December 2015, Surface Topography Metrology and Properties 4(1):013002Surf. Topogr.: Metrol. Prop. 4 (2016) 013002.
[12]. Junfeng J. Song, Surface and Topography Metrology in Firearm Evidence Identification and Engineering Surface Quality Control, School of Engineering, University of Warwick April, 2017.
[13]. http://www.bnti.ru/des.asp?itm=5235&tbl=01.02.02.
[14]. https://vuzlit.ru/974787/abis_tais
[15]. V. Pashinin, P. Kosyrev, V. Tatarinov, N. Posohov, Тhe Express Detection of Explosives, Civil SecurityTechnology, Vol. 13, 2016, No. 1 (47), ISSN 1996-8493.
[16]. Michael J. Kangas, Raychelle M. Burks, Jordyn Atwater, Rachel M. Lukowicz, Pat Williams and Andrea E. Holmes, Colorimetric Sensor Arrays for the Detection and Identification of Chemical Weapons and Explosives, Crit Rev Anal Chem. 2017 Mar 4; 47(2): 138–153.
[17]. Берова Джульетта Михайловна, Тенденции использования современных методов производства судебно-баллистических экспертиз, Бизнес в законе. Экономико-юридический журнал, 1’2016, 144-146
[18]. Юматов В. А., Полякова А. В. Возможности идентификации нарезного огнестрельного оружия по следам на деформированных пулях // Вестник Нижего-родского университета им. Н.И. Лобачевского. 2018.№ 6. С. 169-175.
[19]. Jonathan Pope, Validation and Implementation of the Evofinder Automated Ballistic Identification System at the DC Department of Forensic Sciences, Abstracts/Forensic Science International: Synergy 1 (2019) S1-S15.
[2]. Обзор баллистических программ, 1.1. Applied Ballistics Analytics /Электронный ресурс/, http://rifleaccuracychannel.com
[3]. Song, J., Vorburger, T.V., Ballou, S., Thompson, R.M., Yen, J., Renegar, T.B., Zheng, A., Silver, R.M., Ols, M., "The National Ballistics Imaging Comparison (NBIC) Project," Forensic Sci. Int. 216, pp. 168-182 (2012); DOI:10.1016/j.forsciint.2011.09.016.
[4]. Pratyashee Changmai, Kangkana Bora, Rsuresh Suresh, Lipi B. Mahanta, Nabamita Deb, On the Study of Automated Identification of Firearms Through Associated Striations, November 2019 DOI: 10.12783/ballistics2019/33156 Conference: 31st International Symposium on Ballistics 2019: Volume 1: Exterior Ballistics, Interior Ballistics, Launch Dynamics, and Others.
[5]. G. Li, Image processing for the positive identification of forensic ballistic specimens,, in: Proceedings of 6th Interna-tional Conference of Information Fusion, Cairns, Queensland, Australia, 2003, pp. 1494–1498 (2003).
[6]. Hamby J 1999 The history of firearm and toolmark identification AFTE J. 31 225–41.
[7]. IBIS Operation Manual, Forensic Technology Inc., Montreal, Canada http://www.fti-ibis.com
[8]. J. Song1, W. Chu1, T. V. Vorburger, R. Thompson, T. B. Renegar, Development of ballistics identification—from image comparison to topography measurement in surface metrology, Measurement Science And Technology, Meas. Sci. Technol. 23 (2012) 054010 (6pp).
[9]. Anthony J. Bertino, Patricia Nolan Bertino, Forensic Science: Fundamentals and Investigations, 2012, ISBN-13: 978-0-538-73155-3.
[10]. Федоренко В. А., Илясов Ю. В., Применение баллистического идентификационного комплекса «КОНДОР» при экспертных исследованиях и в учебном процессе, https://sud-expertiza.ru/library/ekspertiza-kompleksa-kondor
[11]. T. V. Vorburger, J Song and N. Petraco, Topography measurements and applications in ballistics and tool mark identifications, December 2015, Surface Topography Metrology and Properties 4(1):013002Surf. Topogr.: Metrol. Prop. 4 (2016) 013002.
[12]. Junfeng J. Song, Surface and Topography Metrology in Firearm Evidence Identification and Engineering Surface Quality Control, School of Engineering, University of Warwick April, 2017.
[13]. http://www.bnti.ru/des.asp?itm=5235&tbl=01.02.02.
[14]. https://vuzlit.ru/974787/abis_tais
[15]. V. Pashinin, P. Kosyrev, V. Tatarinov, N. Posohov, Тhe Express Detection of Explosives, Civil SecurityTechnology, Vol. 13, 2016, No. 1 (47), ISSN 1996-8493.
[16]. Michael J. Kangas, Raychelle M. Burks, Jordyn Atwater, Rachel M. Lukowicz, Pat Williams and Andrea E. Holmes, Colorimetric Sensor Arrays for the Detection and Identification of Chemical Weapons and Explosives, Crit Rev Anal Chem. 2017 Mar 4; 47(2): 138–153.
[17]. Берова Джульетта Михайловна, Тенденции использования современных методов производства судебно-баллистических экспертиз, Бизнес в законе. Экономико-юридический журнал, 1’2016, 144-146
[18]. Юматов В. А., Полякова А. В. Возможности идентификации нарезного огнестрельного оружия по следам на деформированных пулях // Вестник Нижего-родского университета им. Н.И. Лобачевского. 2018.№ 6. С. 169-175.
[19]. Jonathan Pope, Validation and Implementation of the Evofinder Automated Ballistic Identification System at the DC Department of Forensic Sciences, Abstracts/Forensic Science International: Synergy 1 (2019) S1-S15.
Файлове за сваляне
Публикуван
2020-12-20
Брой
Раздел (Секция)
Компютърни науки и комуникации - рецензирани публикации. ISSN: 1314-7846
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Как да цитирате
НАУЧНИ И МЕТОДОЛОГИЧНИ ОСНОВИ НА СЪДЕБНО - БАЛИСТИЧНАТА ЕКСПЕРТИЗА. (2020). КОМПЮТЪРНИ НАУКИ И КОМУНИКАЦИИ, 9(1), 56-84. https://csc.bfu.bg/index.php/CSC/article/view/242
