การจัดผังสถานที่ก่อสร้างสำหรับสิ่งอำนวยความสะดวกชั่วคราวในระบบพิกัดฉาก
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Published:
Jul 18, 2018
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Abstract
การจัดผังสถานที่ก่อสร้างเป็นการวางตำแหน่งของสิ่งอำนวยความสะดวกชั่วคราวต่าง ๆ ที่ต้องใช้ในระหว่างการก่อสร้าง ได้อย่างมีประสิทธิภาพและปลอดภัยในการทำงาน อย่างไรก็ตามการพิจารณาหาตำแหน่งที่เหมาะสมและสอดคล้องกับข้อจำกัดที่มีเป็นปัญหาที่ยากยิ่ง เนื่องจากมีรูปแบบการจัดวางที่เป็นไปได้จำนวนมาก แม้จะอาศัยประสบการณ์ของวิศวกรก็อาจพิจารณาได้ไม่ครอบคลุม การวิจัยนี้ได้พัฒนาแบบจำลองของปัญหาการจัดผังสถานที่ก่อสร้างขึ้น โดยใช้ระบบพิกัดฉากในการแบ่งพื้นที่เพื่อให้มีความละเอียดสมจริง และยังได้พัฒนาวิธีการหาคำตอบด้วย Particle Swarm Optimization ผลทดสอบสรุปว่าโปรแกรมต้นแบบสามารถให้คำตอบที่มีประสิทธิภาพดีขึ้นกว่าวิธีแบบเดิมที่ใช้เป็นตัวเปรียบเทียบ
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บทความวิจัย (Research Article)
References
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[18] Yan X, Zhang C, Luo W, Li W, Chen W, Liu H. Solve Traveling Salesman Problem Using Particle Swarm Optimization Algorithm. International Journal of Computer Science. 2012; 9:
[2] Yeh I.C. Construction-Site Layout Using Annealed Neural Network. Journal of Computing in Civil Engineering. 1995; 9(3): 201–208.
[3] Hegazy T, Elbeltagi E. EvoSite: Evolution-Based Model for Site Layout Planning. Journal of Computing in Civil Engineering. 1999; 13(3): 198–206.
[4] Ning X, Lam K.C., Lam M.C.K. Dynamic Construction Site Layout Planning Using Max-Min Ant System. Automation in Construction. 2010; 19(1): 55–65.
[5] Zouein P.P., Tommelein I.D. Dynamic Layout Planning Using a Hybrid Incremental Solution Method. Journal of Construction Engineering and Management. 1999; 125(6): 400–408.
[6] Li H, Love P.E.D. Genetic Search for Solving Construction Site-Level Unequal-Area Facility Layout Problems. Automation in Construction. 2000; 9(2): 217–226.
[7] Liggett R.S. Automated Facilities Layout: Past, Present and Future. Automation in Construction. 2000; 9(2): 197–215.
[8] Li H, Love P.E.D. Site-Level Facilities Layout Using Genetic Algorithms. Journal of Computing in Civil Engineering. 1998; 12(4): 227–231.
[9] Mawdesley M, Al-jibouri S, Yang H. Genetic Algorithms for Construction Site Layout in Project Planning. Journal of Construction Engineering and Management. 2002; 128(5): 418–426.
[10] El Rayes K. Dynamic Site Layout Planning Using Approximate Dynamic Programming. Journal of Computing in Civil Engineering. 2009; 23(2): 119–127.
[11] Zhang H, Wang J.Y. Particle Swarm Optimization for Construction Site Unequal-Area Layout. Journal of Construction Engineering and Management. 2008; 134(9): 739–748.
[12] Zouein P.P., Harmanani H, Hajar A. Genetic Algorithm for Solving Site Layout Problem with Unequal-Size and Constrained Facilities. Journal of Computing in Civil Engineering. 2002; 16(2): 143–151.
[13] Easa S, Hossain K. New Mathematical Optimization Model for Construction Site Layout. Journal of Construction Engineering and Management. 2008; 134(8): 653–662.
[14] Park M, Yang Y, Lee S.H., Han S, Ji S. Floor-Level Construction Material Layout Planning Model Considering Actual Travel Path. Journal of Construction Engineering and Management. 2012; 138(7): 905–915.
[15] Sanad H, Ammar M, Ibrahim M. Optimal Construction Site Layout Considering Safety and Environmental Aspects. Journal of Construction Engineering and Management. 2008; 134 (7): 536–544.
[16] Sadeghpour F, Moselhi O, Alkass S. A CAD-Based Model for Site Planning. Automation in Construction. 2004; 13(6): 701–715.
[17] Eberhart R.C., Kennedy J. A New Optimizer Using Particle Swarm Theory. In: Proceedings of the Sixth International Symposium on Micro Machine and Human Science, New York, NY; 1995: 1. p. 39–43.
[18] Yan X, Zhang C, Luo W, Li W, Chen W, Liu H. Solve Traveling Salesman Problem Using Particle Swarm Optimization Algorithm. International Journal of Computer Science. 2012; 9: