GENERALIZED ALGORITHM FOR DISTRIBUTION OF RESOURCES OF A COMPUTER IMAGE GENERATOR ACCORDING TO A 3D-MODEL OF THE TERRITORY
Abstract and keywords
Abstract (English):
The development of modern software systems that use computer graphics algorithms in real time to create 3D-models of the terrain expands the range of training tasks available to the Customer for training pilots on aviation simulators. Particular attention is paid to training pilots in the skills of solving navigation problems while flying over certain 3D terrain, using visual references in the form of three-dimensional models of reference objects. To achieve this goal, it is necessary to solve several important aspects: the selection of 3D-objects on the terrain as reference points, the development of an information resource algorithm and the optimal distribution of computer image generator resources throughout the 3D-model of the terrain to ensure the possibility of synthesizing a sufficient number of 3D-models reference objects in real time. Solutions are presented for modeling a terrain area of sufficient size for distributing information resources and training the pilot to solve navigation problems.

Keywords:
computer image generator, first level segment, 3D-model of reference objects, aviation simulator
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References

1. Roganov V.R. Modelirovanie vneshnej sredy dlya aviacionnogo trenazhyora: monografiya. M.: Aj Pi Ar Media, 2022. 177 s.

2. Lapshin E.V., Kemalov B.K., Kuatov B.Zh. Proektirovanie aviacionnyh trenazherov s rasparallelivaniem vychislitel'nyh processov // Nadezhnost' i kachestvo slozhnyh sistem. 2016. № 4 (16). S. 128–141.

3. Mamontov E.V. Chelovecheskij faktor i bezopasnost' poletov pri upravlenii vozdushnym dvizheniem // Nadezhnost' i kachestvo slozhnyh sistem 2022. № 1 (37). S. 41–45.

4. Roganov V.R. Modelirovanie processa sinteza 3D-modeli rajona poletov bol'shogo razmera s pomoshch'yu imitatora vizual'noj obstanovki aviacionnogo trenazhera // Radioelektronnaya tekhnika / pod red. V.A. Sergeeva. Ul'yanovsk: UGTU, 2022. S. 208–217.

5. Godunov A.I., Sushchik D.M. Obrabotka i analiz poletnoj informacii o pilotirovanii letchikom letatel'nogo apparata // Trudy mezhdunarodnogo simpoziuma «Nadezhnost' i kachestvo». 2016. T. 2. S. 230–233.

6. Nekotorye aspekty kachestva sinteza 3D-izobrazhenij dlya specializirovannyh kognitivnyh obuchayushchih sred / M.Yu. Miheev [i dr.] // Nadezhnost' i kachestvo slozhnyh sistem. 2018. № 4 (24). S. 100–107.

7. Kuvshinova O.A., Roganov V.R. Osobennosti modelirovaniya rajona poletov dlya imitatorov vizual'noj obstanovki trenazherov operatorov bespilotnyh apparatov // Cifrovizaciya agropromyshlennogo kompleksa: sb. nauch. statej III Mezhdunar. nauch.-prakt. konf. 2022. S. 528–530.

8. Modernisation of Endoscopic Equipment Using 3D Indicators / V. Roganov [et al.] // Applied Computer Systems. 2018. Vol. 23. № 1. P. 75–80. DOI:https://doi.org/10.2478/acss-2018-0010.

9. Zadachi modelirovaniya rajona poletov dlya aviacionnyh trenazherov i operatorov bespilotnyh letatel'nyh apparatov / V.I. Marchuk [i dr.] // Nadezhnost' i kachestvo slozhnyh sistem. 2021. № 3 (35). S. 80–86.

10. Digital entrepreneurship and education: Support for innovative projects // E.N. Muraya [et al.] // International Journal of Advanced Trends in Computer Science and Engineering. 2019. № 101. Vol. 8. Iss. 6. P. 3304–3311.

11. Chetvergova M.V., Roganov V.R., Syomochkin A.V. Ispol'zovanie optiko-apparatno-programmnyh kompleksov dlya obucheniya upravleniya podvizhnymi ob"ektami // Sovremennye problemy nauki i obrazovaniya. 2014. № 6. S. 174.

12. Sovershenstvovanie ergaticheskih programmno-tekhnicheskih kompleksov «Aviacionnyj trenazher» za schet dobavleniya uchebnyh situacij, svyazannyh s resheniem zadach samoletovozhdeniya / V.R. Roganov [i dr.] // Nadezhnost' i kachestvo slozhnyh sistem. 2020. № 2 (30). S. 96–105.

13. Lapshin E.V., Kemalov B.K., Kuatov B.Zh. Proektirovanie aviacionnyh trenazherov s rasparallelivaniem vychislitel'nyh processov // Nadezhnost' i kachestvo slozhnyh sistem. 2016. № 4 (16). S. 128–141.

14. Vyatkin S.I., Dolgovesov B.S. Combined method of visualization of functionally defined surfaces and three-dimensional textures // Optoelectronics, Instrumentation and Data Processing. 2019. Vol. 55. № 2. P. 172–180.

15. Kemalov B.K., Kuatov B.Zh., Yurkov N.K. Formirovanie modeliruyushchej sredy aviacionnogo trenazhera // Nadezhnost' i kachestvo slozhnyh sistem. 2015. № 1 (9). S. 9–16.

16. Roganov V.R., Kuvshinova O.A., Gvozdeva I.G. Programmnyj kompleks dlya rascheta segmentov modeli rajona poleta: sv-vo o reg. programmy dlya EVM RU 2023685349, 27.11.2023. Zayavka ot 22.11.2023.

17. Kuvshinova O.A., Kuvshinova E.V. Primenenie celochislennogo issledovaniya dlya polucheniya segmentov v 3D-modeli rajonov poleta // Vestnik PGUAS: stroitel'stvo, nauka i obrazovanie. 2023. № 2 (17). S. 84–89.

18. Gurin L.S., Dymarskij Ya.S., Merkulov A.D. Zadachi i metody optimal'nogo raspredeleniya resursov. M.: Sovetskoe radio, 1968. 479 s.

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