Moskva, Moscow, Russian Federation
Russian Federation
S 2008 g. parallel'no s otkrytoy Vserossiyskoy studencheskoy olimpiadoy MITHT organizuet i provodit ezhegodnyy Vserossiyskiy studencheskiy konkurs «Innovacionnye razrabotki». Celi konkursa: vyyavlenie novyh idey (predpochtitel'no v oblasti graficheskih disciplin); vnedrenie sovremennyh informacionnyh tehnologiy v inzhenernoe obrazovanie; razvitie sotrudnichestva vysshey shkoly i proizvodstva. Dlya sravneniya proshedshih konkursov mezhdu soboy v kachestve kriteriev prinyaty: kolichestvo proektov (n), predstavlennyh na konkurs, i chislo vuzov (k), predstaviteli kotoryh uchastvovali v konkurse. Integral'nyy pokazatel' — ∑, ravnyy ∑ = n + k, neobhodim dlya sravneniya uspeshnosti organizacii i provedeniya ezhegodnyh konkursov. S 2008 po 2015 g. vklyuchitel'no predstavitelyami 15 vuzov bylo dolozheno 47 rabot. Neizmenno pervoe mesto zanimali samye interesnye proekty. V stat'e opisany vosem' luchshih rabot. Sredi 47 proektov, uchastvovavshih v konkurse, chut' bol'she treti (17) posvyascheny 3D-modelirovaniyu, SAPR i ih elementam, vtoruyu tret' sostavlyayut sleduyuschie tri napravleniya: 1) geometriya; 2) podvizhnoy sostav zheleznyh dorog; 3) dvigateli, kompressory, turbiny i ih chasti. Po kazhdomu ih treh napravleniy — po pyat' rabot, vsego pyatnadcat'. Po dva proekta byli predstavleny v sleduyuschih razdelah: avtomobili i peredvizhnye mehanizmy; energosberegayuschie ustanovki; signalizaciya. V vos'mi konkursah prinyali uchastie 36 rukovoditeley proektov, 23 iz nih libo zanimali prizovye mesta, libo podgotovili neskol'ko rabot na konkurs. Sam fakt uchastiya v konkurse «Innovacionnye razrabotki» govorit o dostatochno vysokom urovne izobretatel'skoy raboty v vuze. Tol'ko 25% vuzov-uchastnikov VSO po graficheskim disciplinam smogli prinyat' uchastie v konkurse — 15 vuzov iz primerno 60. V vuzah, zanimayuschih pervye strochki v reytinge, izobretatel'skaya rabota nahoditsya na dolzhnoy vysote, po krayney mere, na kafedrah, prinimayuschih uchastie v konkurse.
tender, project, innovative developments, geometry, fractal, CAD system, 3D model, engines, compressors, turbines, cars, piston-rodless devices
С 2008 г. параллельно с открытой Всероссийской студенческой олимпиадой МИТХТ им. М.В. Ломоносова организует и проводит ежегодный Всероссийский студенческий конкурс «Инновационные разработки».
Цели конкурса:
- выявление новых идей (предпочтительно в области графических дисциплин);
- внедрение современных информационных технологий в инженерное образование;
- развитие сотрудничества высшей школы и производства.
В соответствии с положением для участия в конкурсе необходимы в основном два момента.
- Создать что-то новое, не важно, в какой отрасли знаний. В «Положении о конкурсе» отмечено: «Предметом конкурса является привлечение инновационных проектов в самых широких областях науки и техники, их экспертиза, отбор и продвижение лучших».
- В состав авторского коллектива обязательно должны входить студенты. «Участниками конкурса огут быть как отдельные студенты, так и творческие коллективы из студентов, возглавляемые преподавателями или научными сотрудниками. Количество руководителей работы не должно быть более двух, а соотношение “студенты/руководители” должно быть больше или равно единице (исключение: один студент/2 руководителя)».
Одним из важнейших вопросов при проведении любого конкурса является: «А судьи кто?» Судьи в данном случае — это наиболее квалифицированные руководители проектов, представленных на конкурс, а также некоторое число специально приглашенных лиц, обычно профессоров. Постоянный член жюри — профессор Николай Андреевич Сальков из МГАХИ им. В.И. Сурикова, несколько раз был членом жюри профессор Юрий Борисович Парвулюсов из МИИГАиКа и другие «незаинтересованные» члены жюри, т.е. судьи из вузов, представители которых не принимают участия в конкурсе.
1. Antipin D.Ya. Obosnovanie tekhnicheskikh resheniy dlinnobaznykh platform dlya kontreylernykh perevozok [Justification of technical solutions for the long-wheelbase platforms piggyback]. Problemy i perspektivy razvitiya vagonostroeniya [Problems and prospects of development of railcar]. Bryansk: 2006. pp. 3-5.
2. Antipin D.Ya. Obosnovanie ispol´zovaniya dannykh global´nogo pozitsionirovaniya v sistemakh prinuditel´nogo naklona kuzovov passazhirskikh vagonov [Obosnovanie use of global positioning data in passenger cars tilting body systems]. Informatsionnye tekhnologii i innovatsii na transporte [Information Technology and Innovation in Transport]. 2016, pp. 80-87.
3. Baranov D.E. Razrabotka programmnogo prilozheniya dlya sinkhronizatsii bazy dannykh spravochnika materialov i sortamentov [Development of software applications to synchronize database of materials and assortments handbook]. Inzhenernyy vestnik Dona [Engineering Don Gazette]. 2013, V. 25, I. 2, p. 55.
4. Baranov D.E. Razrabotka programmnogo prilozheniya dlya sinkhronizatsii bazy dannykh spravochnika materialov ASKON [Development of software applications for the directory database synchronization materials ASCON]. Rossiya molodaya: peredovye tekhnologii - v promyshlennost´ [Young Russia: advanced technology - in the industry]. 2011, I. 1, pp. 253-255.
5. Boykov A.A. Ispol´zovanie komp´yuternoy sistemy dlya metodicheskogo obespecheniya graficheskikh kursov [Using the computer system for the methodical maintenance of graphic courses]. Geometriya i grafika [Geometry and Graphics]. 2013, V. 1, I. 2, pp. 52-53. DOIhttps://doi.org/10.12237/791.
6. Boykov A.A. Komp´yuternye sredstva podderzhki uchebnykh kursov graficheskikh distsiplin [Computer training courses graphical tools support disciplines]. Geometriya i grafika [Geometry and Graphics]. 2013, V. 1, I. 2, pp. 29-30. DOIhttps://doi.org/10.12237/784.
7. Boykov A.A.Razrabotka metodov obucheniya i kontrolya v avtomatizirovannom uchebnom komplekse [Razrabotka training and control methods in an automated training complex]. Vestnik komp´yuternykh i informatsionnykh tekhnologiy [Herald of computer and information technologies]. 2008, I. 7, pp. 47-49.
8. Boykov A.A. Primenenie shablonov dlya analiza geometricheskikh postroeniy pri reshenii zadach nachertatel´noy geometrii v avtomatizirovannoy sisteme [Application templates for analyzing the geometric constructions for solving problems of descriptive geometry in the automated system]. Vestnik komp´yuternykh i informatsionnykh tekhnologiy [Herald of computer and information technologies]. 2011, I. 3, pp. 29-35.
9. Buglaev V.T. Konstruktivno-tekhnologicheskoe sovershenstvovanie uplotneniy v protochnoy chasti turbomashin [Structural and technological improvement of the seals in the flowing part of turbomachinery]. Spravochnik. Inzhenernyy zhurnal s prilozheniem [Directory. Engineers with the application log]. 2009, I. 10, pp. 27-29.
10. Vorob´ev V.I. Ustroystvo dlya upravleniya naklonom kuzova zheleznodorozhnogo transportnogo sredstva [The device for controlling the tilt of the body of a railway vehicle]. Patent of invention RUS 156447 19.03.2015.
11. Galimova L.V. Analiz effektivnosti energosberegayushchey sistemy trigeneratsii [Analysis of the effectiveness of energyefficient trigeneration system]. Kholodil´naya tekhnika [Refrigeration]. 2012, I. 3, pp. 16-19.
12. Galimova L.V. Apparaturnoe oformlenie energosberegayushchey sistemy razdeleniyavozdukha [Energy-saving hardware design razdeleniyavozduha system]. Kholodil´naya tekhnika [Refrigeration]. 2015, I. 2, pp. 45-48. Available at: http://elibrary.ru/contents.asp?issueid=1141115&;selid=20263378
13. Galimova L.V., R.B. Slavin. Kondensator energosberegayushchey sistemy [Kondensator energy-saving system]. Patent of invention RUS 92095 13.10.2009.
14. Galimova L.V. Energosberegayushchaya sistema na baze paroturbinnoy ustanovki i absorbtsionnoy bromistolitievoy kholodil´noy mashiny novogo pokoleniya [Energy-saving system based on steam-turbine plant and a new generation of lithium bromide absorption chiller]. Kholodil´naya tekhnika [Refrigeration]. 2007, I. 2, pp. 42-43.
15. Gogolev I.G. Struktura potoka v mezhstupenchatom zazore pri peremennykh rezhimakh raboty modeli otbornogo otseka parovoy turbiny [The structure of the flow in the interstage gap under variable operating conditions choice model steam turbine compartment]. Vestnik Bryanskogo gosudarstvennogo tekhnicheskogo universiteta [Herald Bryansk State Technical University]. 2009, I. 1, pp. 43-49.
16. Zhikharev L.A. Obobshchenie na trekhmernoe prostranstvo fraktalov Pifagora i Kokha [The generalization to three-dimensional space fractal Pythagoras and Koch]. Geometriya i grafika [Geometry and Graphics]. 2015, V. 3, I. 3, pp. 24-37. DOIhttps://doi.org/10.12237/14417.
17. Ivanov G.S. Fraktal´naya geometricheskaya model´ mikropoverkhnosti. [Fractal geometry model microsurface]. Geometriya i grafika [Geometry and Graphics]. 2016, V. 4, I. 1, pp. 4-11. DOI:https://doi.org/10.12237/18053.
18. Konfederatov I.Ya. Istoriya energeticheskoy tekhniki SSSR [History of the USSR energy technology]. Teplotekhnika [Heat]. Gosenergoizdat Publ., Moscow, 1957, V. 2, 480 p.
19. Mal´gavko D.S. Programma sravneniya dvukh spetsifikatsiy, razrabotannykh v SAPR KOMPAS [comparing the two program specifications developed in CAD KOMPAS]. Navigator v mire nauki i obrazovaniya [The navigator in the world of science and education]. 2012, I. 4-7, p. 584.
20. Mal´gavko D.S. Programma sravneniya dvukh chertezhey, razrabotannykh v SAPR KOMPAS [comparing the programs of the two drawings developed in CAD KOMPAS]. Navigator v mire nauki i obrazovaniya [The navigator in the world of science and education]. 2012, I. 4-7, p. 583.
21. Mitrakov A.S. Metodika otsenki urovnya komforta passazhiroskikh poezdov, oborudovannykh sistemami prinuditel´nogo naklona kuzova v krivykh [Methods of assessing the level of comfort passazhiroskih trains equipped with tilting body systems in the curves]. Tekhnologicheskoe obespechenie remonta i povyshenie dinamicheskikh kachestv zheleznodorozhnogo podvizhnogo sostava [Technological maintenance repair and improvement of the dynamic properties of the railway rolling stock]. 2015, I. 1, pp. 139-145.
22. Mitrakov A.S. Otsenka komforta i bezopasnosti passazhirov v poezde, oborudovannom sistemoy prinuditel´nogo naklona kuzova v krivykh [Evaluation of comfort and safety of passengers on the train, equipped with tilting system of the body curves in]. Nauka i obrazovanie transportu [Science and education for transport]. 2015, I. 1, pp. 19-23.
23. Motyanko T.A. Issledovanie dinamicheskoy nagruzhennosti verkhney ramy kuzova vagona-samosvala (dumpkara) [A study of the dynamic loading of the upper frame body-dump wagon (dumpcar)]. Vestnik Bryanskogo gosudarstvennogo tekhnicheskogo universiteta [Herald Bryansk State Technical University]. 2014, I. 4, pp. 20-23.
24. Motyanko T.A. Issledovanie dinamicheskoy nagruzhennosti chetyrekhosnogo vagona-samosvala [Study dynamic loading of the four-car-truck]. Trudy X mezhdunarodnoy nauchnoprakticheskoy konferentsii [Proceedings of the X International scientific-practical conference]. 2014, pp. 73-74. Available at: Trans-mech-art-chem
25. Pakhomov Yu.A. Mekhanizm preobrazovaniya vozvratnopostupatel´nogo dvizheniya porshnya vo vrashchatel´noe dvizhenie vala dvigatelya vnutrennego sgoraniya [The mechanism of conversion of reciprocating piston motion into rotary motion of the shaft of the internal combustion engine]. Patent of invention RF № 2339828 27.11.2008.
26. Chudakova E.V .Otsenka ustoychivosti dvukhetazhnogo passazhirskogo vagona ot oprokidyvaniya pri prokhozhdenii v krivykh uchastkakh puti [Otsenka stability of double-decker passenger car from tipping over when passing curved sections of the path in the]. Byulleten´ nauchnykh rabot Bryanskogo filiala MIIT [Bulletin of scientific works of the Bryansk branch of MIIT]. 2013, I. 1, pp. 25-28.
27. Shakhov D.S. Ispol´zovanie 3D-fraktalov na nanourovne [Using 3D-fractals at the nanoscale]. 2013. Available at: http://m-rush.ru/glavnaya1/item/287-ispolzovanie-3-dfraktalovna-nanourovne.html tmpl=component&print=1
28. Shakhov D.S. Fraktal´naya molekula [Fractal molecule]. 2013. Available at: http://m-rush.ru/glavnaya1/item/289-fraktalnaya-molekula.html
29. Shorokhov S.G. Obosnovanie komp´yuternoy modeli soudareniya passazhirskogo poezda s prepyatstviem [Justification of a computer model of a passenger train collision with an obstacle]. Prioritetnye napravleniya razvitiya nauki, tekhniki i tekhnologii [Priority directions of development of science, engineering and technology]. 2016, pp. 321-324.
30. Yanishevskaya A.G. Ispol´zovanie informatsionnykh tekhnologiy pri podgotovke inzhenerov mashinostroitel´nykh spetsial´nostey [Use of information technology in the preparation of engineering specialties engineers]. Nauchnye trudy (Vestnik MATI) [Proceedings (MATI Herald)]. 2011, I. 18, p. 338.
31. Yanishevskaya A.G. Geometricheskoe modelirovanie v SAPR [Geometric Modeling in CAD]. Federal´noe agentstvo po obrazovaniyu. Gos. obrazovatel´noe uchrezhdenie vysshego prof. obrazovaniya «Omskiy gos. tekhnicheskiy un-t» [Federal Agency for Education. Gos. institution of higher prof. education "Omsk State. Technical Univ."]. Omsk. 2007.
32. Yanishevskaya A.G. Istoriya i razvitie SAPR [The history and development of CAD]. Federal´noe agentstvo po obrazovaniyu. Gos. obrazovatel´noe uchrezhdenie vysshego prof. obrazovaniya «Omskiy gos. tekhnicheskiy un-t» [Federal Agency for Education. Gos. institution of higher prof. education "Omsk State. Technical Univ."]. Omsk. 2008.
