Synthesis of database “Specialized computer networks” for the objects of oil and gas complex
DOI:
https://doi.org/10.15587/1729-4061.2014.24538Keywords:
specialized computer networks, fieldbus networks, INTERBUS, CAN, PROFIBUS, Foundation FieldbusAbstract
In today’s world there are over a hundred different specialized computer networks. Detailed information about them in media is virtually absent. Nowadays, information about specialized computer networks is not generalized and structured. When upgrading, enterprises need to choose effective solutions for particular process sections.
However, there is no methodological framework for effective solution of this problem. The structure of the knowledge base “specialized computer networks” and its mathematical model is given. The basic characteristics and features of specialized digital networks INTERBUS, CAN, CAN Kingdom, PROFIBUS-PA, Foundation Fieldbus H1 are presented in the paper. The developed knowledge base facilitates the structured formation of information about specialized computer networks. Also, it enables enterprise automation experts to select an optimal specialized computer network for a particular control object.References
- Кругляк, К. В. Промышленные сети: цели и средства [Текст] / К. В. Кругляк // Современные технологии автоматизации. – 2002. – № 4. – С. 6–17.
- Сахнюк, А. А. Промышленные сети [Текст] / А. А. Сахнюк, А. М. Литвин // Передовые технологии и технические решения. – 2004. – № 2. – С. 6–8.
- Satynarayana, S. Performance of H1 Network in Wind Turbine Generator with Foundation Fieldbus [Text] / S. Satynarayana, M. Sailaja // International Journal of Engineering Science and Technology. – 2012. – № 4 (7). – P. 27–32.
- Shu, Z. Study of Practical DNC System Based on CAN Fieldbus [Text] / Z. Shu // Journal of Dalian Jiaotong University. – 2009. – № 30 (1). – P. 9–12.
- Muresan, N. Communication Between Intelligent Devices in LONWorks Control Networks [Text] / N. Muresan, B. Orza, A. Vlaicu // Acta Technica Napocensis- Electronica-Telecomunicatii. – 2010. – № 51 (4). – P. 57–63.
- Chauhan, A. A. Designing of MODBUS for Continues Process Control [Text] / A. A. Chauhan, A. R. Mahajan // International Journal of Advanced Engineering Science and Technology. – 2011. – № 3 (1). – P. 24–28.
- Vaijapurkar, S. S. Implementation Strategy for Optical Fiber Modbus-TCP Based Nuclear Radiation Detection Instrument for Nuclear Emergency [Text] / S. S. Vaijapurkar, S. M. Kate // International Journal of Engineering Trends and Technology. – 2012. – № 3 (3). – P. 462–465.
- Peng, J. Application of IEEE 802.1P in Industrial Ethernet [Text] / J. Peng, Z. Shu, Q. Ying // Journal of Nanchang University Engineering & Technology. – 2009. – № 31 (1). – P. 49–52.
- Сахнюк, А. А. Межсетевое взаимодействие в промышленных сетях [Текст] / А. А. Сахнюк // Передовые технологии и технические решения. – 2004. – № 3. – С. 6–11.
- Семенцов, Г. Н. Автоматизація процесу буріння свердловин [Текст]: навч. пос. / Г. Н. Семенцов. – Івано-Франківськ: ІФДТУНГ, 1999. – 300 с.
- Бабчук, С. М. Метод ідентифікації спеціалізованих комп’ютерних мереж для об’єктів нафтогазового комплексу [Текст] / С. М. Бабчук // Восточно-Европейский журнал передовых технологий. – 2013. – Т. 3, № 4 (63). – С. 48–51.
- Kruhliak, K. (2002). Industrial networks: objectives and means. Modern technologies of automation, 4, 6–17.
- Sakhniuk, A. (2004). Industrial networks. Advanced Technologies and Technical Solutions, 2, 6–8.
- Satynarayana, S., Sailaja, M. (2012). Performance of H1 network ing wind turbine generator with Foundation Fieldbus. International Journal of Engineering Science and Technology, 4, 27–32.
- Zhu, S. (2009). Study of practical DNC system based on CAN Fieldbus. Journal of Dalian Jiaotong University, 30, 9–12.
- Muresan, N. (2010). Communication Between Intelligent Devices in LONWorks Control Networks. Electronics and Telecommunications, 4, 57–63.
- Chauhan, A., Mahajan, A. (2011). Designing of Modbus for continues process control. International Journal of Advanced Engineering Science and Technology, 3, 24–28.
- Vaijapurkar, S., Kate, S. (2012). Implementation strategy for optical fiber Modbus-TCP based nuclear radiation detection instrument for nuclear emergency. International Journal of Engineering Trends and Technology, 3, 462–465.
- Peng, J., Shu, Z., Ying, Q. (2009). Application of IEEE 802.1P in Industrial Ethernet. Journal of Nanchang University Engineering & Technology, 31, 49–52.
- Sakhniuk, A. (2004). Internetwork interrelation in industrial networks. Advanced technologies and technical solutions, 3, 6–11.
- Sementsov, H. (1999). Automation of the process of well drilling: study guide. IFSTUOG, 300.
- Babchuk, S. (2013). Method of identification of dedicated computer networks for computer systems of objects of oil and gas complex. Eastern-European Journal of Enterprise Technologies, Vol. 3, № 4 (63), 48–51.
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