Semantic Network Modeling

A method of developing of information systematization of the subject domain of automated systems for technical preparation of production is proposed. A network semantic model of the knowledge base of a machine-building enterprise is formed taking into account all possible operations.

To solve the problem of integrating computer-aided design, managing technological and organizational-economic processes, the concept of localized surfaces is used, which are the main elements of the information structure of an enterprise and combine five types of relationships: material, dimensional, temporal, informational and economic properties.

1. Kaptelinina, E . A . Improving the efficiency of technical preparation of tool production based on the influence of surface properties of parts [Povyshenie effektivnosti tekhnicheskoi podgotovki instrumentalnogo proizvodstva na osnove ucheta vliyaniya sboistv poverkhnostei detalei], Moscow, Stankin publ 2004, 23 p .

2. . Kulikov, D . D ., Mitrofanov, S . P. Prospects for development of CAD of technological processes [Perspektivy razvitiya SAPR tekhnologicheskih protsessov]. Izvestiya vuzov. Priborostroenie, 2000, Iss. 1—2, pp . 126— 131 .

3. . Popov, A . P., Popova, T. A . Optimization of Technological Processes . World of Transport and Transportation, Vol . 13, 2015, Iss . 5, pp . 16—25 .

4. . Popov, A. P., Popova, T. A. Continuity in the Design of a Complex of Technical Means . World of Transport and Transportation, Vol . 12, 2014, Iss . 5, pp . 124—129 .

5. . Kapitanov, A. V., Feofanov, A. N ., Popov, A. P. Architecture of integrated automated production systems [Arkhitektura integrirovannyh avtomatizirovannyh proizvodstvennyh system] . Tekhnologiya mashinostroeniya, 2014, Iss. 4, pp . 63-67 .

6. . Kaptelinina, E . А. Formation of the semantic network model of the ASTPP knowledge base [Formirovanie semanticheskoi setevoi modeli bazy znanii ASTPP] . Collection of works of ICTIRAS. Moscow, Janus-K publ ., 2004, pp . 53-57 .

7. . Mitrofanov, V G ., Omelchenko, I . S ., Sirotkin, O . S . Informational-technological environment of machinebuilding production — models of knowledge representation [Informatsionno-tekhnologicheskaya sreda mashinostroitelnogo proizvodstva — modeli predstavleniya znanii] . Problemy mashinostroeniya i avtomatizatsii, 2014, Iss . 4, pp . 48—53 .

8. . Masyagin, V. B . Mathematical modeling of technological processes of machining: Guidelines [Matematicheskoe modelirovanie tekhnologicheskih protsessov mekhanicheskoi obrabotki: Metodicheskie ukazaniya], Omsk, OmGTU publ., 2001, 30 p.

9. . Kapitanov, A. V, Omelchenko, I . S ., Popov, A. P., Sirotkin, O . S. Network mathematical models in optimization of the automated control system of a machine-building enterprise [Setevye matematicheskie modeli v optimizatsii ASUmashinostroitelnym predpriyatiem]. Problemy mashinostroeniya i avtomatizatsii, 2014, Iss. 1, pp . 53—56 .

10. . Shreider, Yu . A. Systems and models [Sistemy imodeli], Moscow, Nauka publ ., 1982, 152 p .

11. . Tsvetkov, V D . Multilevel synthesis of structural models of technological processes for machining parts in computer-aided design systems . D .Sc . (Eng) thesis [Mnogourovneviy sintez strukturnyh modelei tekhnologicheskih protsessov obrabotki detalei v avtomatizirovannyh sistemeh proektirovaniya. Dis... dok. tekh. nauk]. Minsk, 1979, 420 p .

12. . Chelischev, B . E . About theoretical foundations of modeling of automation of design processes [O teoreticheskih osnovah modelirovaniya avtomatizatsii protsessov proektirovaniya] . Questions of the theory of automation of technological design: Collection of works of NIAT. Moscow, 1980, pp . 21—33 .

13. . Rachkov, M . Yu . Technical automation equipment: Study guide [Tekhnicheskie sredstva avtomatizatsii: Ucheb. posobie] . 2nd ed ., ster. Moscow, MGIU, 2009, 185 p .

14. . Krizhanovsky, A . A ., Smirnov, A. V. Approach to automated construction of general-purpose lexical ontology based on Wiktionary data [Podhod k avtomatizirovannomu postroeniyu obshetselevoi leksicheskoi ontologii na osnove dannyh Wiktionary] . Izvestia RAN. Theory and control systems, 2013, Iss. 2, pp . 53—63 .

15. . Selevtsov, L . I ., Selevtsov, A. L. Automation of technological processes: Textbook [Avtomatizatsiya tekhnologicheskih protessov: Uchebnik] . 3rd ed . , ster. Moscow, Academia publ. , 2014, 352 p.

16. . Riyves, Yu. E. Specialized computer-aided design of route-operating technological processes [Spetsializirovannaya sistema avtomatizirovannogo proektirovaniya marshrutno-operatsionnyh tekhnologicheskih protsessov] . Avtomatizirovannie i sovremennie tekhnologii, 1992, Iss . 9, pp . 39—41 .

17. . Mitrofanov, V G . , Kapitanov, A V , Popov, A. P. Design of automated machine-building industries: Monograph [Proektirovanie avtomatizirovannyh mashinostroitelnyh proizvodstv] . Tolyatti, Onyx publ. , 2013, 282 p.

18. . Popov, A. P. Design of automatic control systems for machine tools . Russian Engineering Research, 2014, Iss . 4, pp . 243—245 .

19. . Dobransky J . , Baron, P. , Vojnova, E., Mandul’ak, D . Optimization of the production and logistics processes based on computer simulation tools . Key engineering materials, 2016, Vol . 669, pp . 532—540.