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Tytuł artykułu

Design of an Adaptive Scheduling Algorithm for a Warp Knitting Machine Industrial Wireless Network Based on Fuzzy Control

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Warianty tytułu
PL
Projekt adaptacyjnego algorytmu planowania dla osnowarki oparty na teorii zbiorów rozmytych
Języki publikacji
EN
Abstrakty
EN
Aiming at resolving the technical bottlenecks existing in current warp knitting machine control systems, such as the distributed industrial wireless networked control system, in this study the architecture of a warp knitting machine industrial wireless networked control system based on the WIA-PA international standard is proposed which provides a design idea for building a „smart factory”. Secondly, according to the WIA-PA specification, an allocation plan of time slots in a super-frame for intra-cluster and inter-cluster communication is given. Third, in order to enhance the real-time access of equipment, expand the network capacity, and reduce the energy consumption of the system, based on the carrier sense multiple access (CSMA) mechanism supported by IEEE STD 802.1 5.4:2006, an adjustment algorithm of the super-frame structure based on fuzzy control was designed. The effectiveness of the design method was verified by simulation.
PL
Mając na celu rozwiązanie technicznych wąskich gardeł istniejących w obecnych systemach sterowania maszynami do dziania osnowowego zaproponowano projekt adaptacyjnego algorytmu planowania dla osnowarki oparty na teorii zbiorów rozmytych spełniający wymagania międzynarodowego standardu WIA-PA. Skuteczność metody projektowania zweryfikowano za pomocą symulacji.
Rocznik
Strony
75--80
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
  • Sanming University, College of Mechanical and Electrical Engineering, Sanming, Fujian 365004, China
autor
  • Sanming University, College of Mechanical and Electrical Engineering, Sanming, Fujian 365004, China
autor
  • Sanming University, College of Mechanical and Electrical Engineering, Sanming, Fujian 365004, China
Bibliografia
  • 1. Zhang Q, Jiang G, Xia L. Development of Key Technologies for Warp-Knitting Machine CNC System. China Textile Leader 2013; 4: 77-80.
  • 2. Akyildiz IF, Kasimoglu IH. Wireless Sensor and Actor Networks: Research Challenges [J]. Ad Hoc Networks 2004; (2):351-367.
  • 3. Chen J, Cao X, Cheng P, et al. Distributed Collaborative Control for Industrial Automation with Wireless Sensor and Actuator Networks. IEEE Transactions on Industrial Electronics 2010; 57(12): 4219-4230.
  • 4. Liang W, Zhang X. Chapter 14: WIA-PA: System Architecture and Communication Protocol of Industrial Wireless Network for Process Automation. Instrument Standardization & Metrology 2009; (2): 30-36.
  • 5. Peng Y. Application Status of Industrial Wireless Technology in Our Country[J]. Automation Panorama 2010; (3): 32-33.
  • 6. Industrial Communication Networks -Fieldbus Specifications-WirelessHART Communication Network and Communication Profile, IEC/PAS 62591/Ed. 1, Jul. 18, 2008.
  • 7. ISA100.11a Release 1 Status. [Online]. Available: www.isa.org/source/ISA100.11a_Release1_Status.ppt.
  • 8. Industrial communication networks-Fieldbus specifications-WIA-PA communication network and communication profile, IEC/PAS 62601/Ed. 1, Jan. 12, 2009.
  • 9. Mahmood D, Khan Z A, Qasim U, et al. Analyzing and Evaluating Contention Access Period of Slotted CSMA/CA For IEEE802. 15.4. Procedia Computer Science 2014; 34: 204-211.
  • 10. Ziouva E, Antonakopoulos T. CSMA/CA Performance under High Traffic Conditions: Throughput and Delay Analysis. Computer Communications 2002; 25(3): 313-321.
  • 11. Yang D, Gidlund M, Shen W, et al. CCA-Embedded TDMA Enabling Acyclic Traffic in Industrial Wireless Sensor Networks. Ad Hoc Networks 2013; 11(3):1105-1121.
  • 12. Lu Z, Guang-wei B, Hang S, et al. Priority-Based IEEE 802.15.4 CSMA/CA Mechanism for WSNs. Journal of China Uaiversities of Posts & Telecommunications 2013.
  • 13. Huynh VV, Jang YM. Huynhvisible light communication. V V Multi-parameters based CSMA/CA for priority International Conference on Ubiquitous and Future Networks, 2012: 13-14.
  • 14. Tang Z, Cheng M, Zeng P, et al. Real-Time Communication in WIA-PA Industrial Wireless Networks. Proceedings of 2010 3rd Computer Science and Information Technology. Chengdu: IEEE, 2010: 600-605.
  • 15. SI BO EN. WIA_PA Industrial Wireless Control Network Data Transmission Scheduling. Beijing: Beijing University of Chemical Technology, 2015: 47-48.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2987b596-cac4-4e39-8d03-48c85beaf820
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