from 01.01.2023 until now
Moskva, Moscow, Russian Federation
UDC 343.983.22
Virtualization of expert-forensic activity began about two decades ago and continues to this day in the form of the use of advanced digital technologies. It is important to take into account that errors in expert studies, especially identification ones, during which the identity of a forensically significant object is established, are unacceptable, and therefore the leading role in the digital processing of forensically significant information is assigned to the compliance of the technological solution with the basic provisions of the theory of forensic identification. It should be noted that the examinations differ from each other not only in the objects of study, but also in the degree and nature of the transfer of identification features. Thus, using the example of identification forensic ballistic examination, it is necessary to take into account the absence of an optimal identification set of features in one identification field, which, of course, partly complicates the transfer of the identification study process to an electronic format and is, in turn, a significant obstacle to the technical and forensic improvement of currently used automated ballistic identification systems. The question arises as to how possible the digital processing of forensically significant information is within the framework of forensic ballistic examination, taking into account the basic provisions of the theory of forensic identification.
forensic examination, virtualization, forensic ballistics examination, digital processing, forensically significant information, PAPILON ADIS, ABIS, bullet, sleeve
1. Gordiyevskikh V. M. The essence, structure and classification of modern virtualization technologies // Bulletin of the Shadrinsk State Pedagogical Institute. 2015. No. 1 (25). P. 124–132. (In Russ.)
2. Frolova T. O. Application of software and automated systems in the study of objects of various types/ kinds of forensic examination: prospects for their development // Polytechnic youth magazine. 2023. No. 5 (82). P. 1–10. (In Russ.)
3. Ustyuzhanina D. V., Dmitrieva L. V. Using the domestic GIMP program based on Linux software in the production of portrait examinations // Technical and forensic support for the disclosure and investigation of crimes: collection of scientific papers of the All-Russian scientific and practical conference, held as part of the business program of the International Exhibition of Means of Ensuring National Security “Interpolitex-2022”. Moscow: Kikot Moscow University of the Ministry of Internal Affairs of Russia, 2022. P. 230–234. (In Russ.)
4. Shimkin V. N. Application of automated fingerprint identification systems (ADIS) in solving and investigating crimes // Actual problems of modern science: state, development trends: collection of materials of the V All-Russian scientific and practical conference. Cherkessk: Federal State Budgetary Educational Institution of Higher Education “North Caucasian State Academy”, 2022. P. 277–280. (In Russ.)
5. Dudnikova E. V. Prospects for the development of fingerprint systems using artificial intelligence // Forensic science without borders: traditions and innovations: materials of the international scientific and practical conference. St. Petersburg: St. Petersburg University of the Ministry of Internal Affairs of Russia, 2024. P. 145–149. (In Russ.)
6. Vladimirov V. Yu., Danilov I. A., Ilyin N. N. Artificial intelligence in the fight against serial crimes. Scientific development into practice // Proceedings of the Academy of Management of the Ministry of Internal Affairs of Russia. 2024. No. 4 (72). P. 139–150. (In Russ.)
7. Sharipov H. H. Use of information technologies in conducting genomic examination // International journal of humanitarian and natural sciences. 2020. No. 10-4. P. 148–151. (In Russ.)
8. Averyanova T. V., Belkin R. S., Korukhov Yu. G., Rossinskaya E. R. Forensic science: a textbook for universities / ed. R. S. Belkin. 2nd ed. M., 2004, 992 p. (In Russ.)
9. Starovoytov V. I. Identification suitability of traces of odorous substances in human blood // Bulletin of Tula State University. Economic and legal sciences. 2013. No. 4-2. P. 375–386. (In Russ.)
10. Rossinskaya E. R. Selected. Moscow: Norma, 2019. 680 p. (In Russ.)
11. Methodological and procedural aspects of forensic odorology. Moscow, 1992. 85 p. (In Russ.)
12. Kuznetsov A. V. Justification of rational methods and means of forming, accumulating, exchanging and verifying information on bullet-proof vestibules in solving and investigating crimes: author’s abstract. dis. … Cand. of Law. Khabarovsk, 2008. 33 p. (In Russ.)
13. Vladimirov V. Yu. Cooperation or corruption. Beyond reason?! // State scientific and technical policy in the field of forensic support of law enforcement activities: a collection of scientific articles based on the materials of the international scientific and practical conference. Part 1. Moscow: Academy of Management of the Ministry of Internal Affairs of Russia, 2023. P. 342–349. (In Russ.)
14. Vladimirov V. Yu. Digitalization of forensic ballistic information. Phantom or reality? // Technical and forensic support for solving and investigating crimes: a collection of articles based on the results of the international scientific and practical conference held within the framework of the business program of the International Exhibition “Interpolitex-2019” / compiled by I. N. Gorbulinskaya. Moscow: Moscow University of the Ministry of Internal Affairs of Russia named after V. Ya. Kikot, 2020. P. 14–17. (In Russ.)
15. Kuznetsov A. V. Justification of rational methods and means of formation, accumulation, exchange and verification of information on bullet-proof vestiges in the detection and investigation of crimes: dis. ... Cand. of Law. Khabarovsk, 2008. 185 p. (In Russ.)
