Optimizing waste collection time in Zabol city in reducing environmental hazards by relying on colonial competition algorithm and GIS

Document Type : Research Article

Authors

1 Assistant Professor of Geomorphology, Zabol University, Iran

2 Associate Professor of Geography and Urban Planning, Zabol University, Iran

3 MSc student in Geography and Urban Planning, Zabol University, Iran

4 Assistant Professor of Geomorphology and Urban Planning, University of sistan &baluchestan.Zahadan.Iran

Abstract

Over the past decade, municipal waste production has increased dramatically due to increasing global population and the rate urbanization. Therefore, one of the important issues that has been used in recent years and has been discussed to increase the efficiency and productivity of transportation systems is the discussion of routing of waste transportation machines. In addition, poor management and inappropriate collection and storage since it creates environmental problems in the urban ecosystem is considered a global challenge, as the presentation of these urban services has been significantly neglected due to lack of sufficient data and information. The aim of this study was to provide an appropriate solution for proper collection of waste in 40 neighborhoods of Zabul city to minimize the time of mission and increase the satisfaction of citizens of such urban services. The research method is descriptive and applied studies based on attribution algenomy and field studies. In order to conduct this study, metaheuristic algorithm of colonial competition and Arc GIS software was used and all the related programming was done in MATLAB software environment. The results indicated that colonial competitive algorithm with 20 replications at 15 replications with a time equal to 4.11 seconds with 71% confidence coefficient was obtained in the best possible state and showed the order of the best intersections. Confidence coefficient was obtained in the best possible state and showed the order of the best intersections. Confidence coefficient was obtained in the best possible state and showed the order of the best intersections.

Keywords

References

اسنتز، آنتونی؛ 2005. برنامه‌ریزی مسیر بهینه و کارا برای محیط‌های ناشناخته، ترجمه اکتای حسن‌زاده. انتشارات کتاب سبز.
بزی، خدارحم؛ 1393. مکان‌یابی دفن زباله در شهر زابل با استفاده از روش AHP، فصلنامه کاوش‌های جغرافیایی.3 (1): 143-119.
حسین زاده، سید رضا؛ خسروی بیگی، رضا؛ ایستگلدی، مصطفی؛ شمس‌الدینی، رضا؛ 1390. ارزیابی پایداری زیست‌محیطی در نواحی شهری با استفاده از فن تصمیم‌گیری چند معیاره تخصیص خطی (مطالعه موردی: شهر بندر ترکمن). مجله مطالعات برنامه‌ریزی سکونتگاه‌های انسانی. ۶(۱۶). ۳۱-۵۱.
خمر، غلامعلی؛ پاسبان، وحید؛ نگاره، مژگان؛ 1396. کاربرد الگوریتم اجتماع مورچه در مسیریابی بهینه گروه‌های امدادی بین‌شهری. مجله حمل‌ونقل شهری.
ذوالفقاری، اکرم؛ کرکه­آبادی، زینب؛ 1391. مسیریابی هوشمند اکیپ‌های امدادی با استفاده از الگوریتم تئوری بازی‌ها (نمونه موردی شهر سمنان). فصلنامه مهندسی حمل‌ونقل. سال پنجم. شماره 1. تهران.
رهنما، محمدرحیم؛ سپهری، ندا؛ 1930. ارزیابی شاخص‌های شهر اکولوژیک در شهر چناران در راستای توسعه پایدار با روش Emergy. نشریه جغرافیا و مخاطرات محیطی. ۸(۲۹). ۲۱۹-۲۳۶.
صابری، جواد؛ سعدی مسگری، محمد؛ 1389. مسیریابی بهینه بر اساس معیار زمان با توجه به شرایط متغیر ترافیکی. مجله مهندسی حمل‌ونقل. سال اول. شماره چهارم. صص 53- 65.
عمرانی، قاسم علی؛ 1395. مدیریت زباله‌های شهری. مرکز تحقیقات و تعلیمات حفاظت و بهداشت‌کار. 1395.
یوسفی، مجید؛ رحمتی، فرهاد؛ 1390. یک الگوریتم بهبودیافته جمعیت مورچگان برای حل مسئله مسیریابی وسیله نقلیه همراه با دریافت و تحویل هم‌زمان کالا. پژوهشنامه حمل‌ونقل. سال هشتم. شماره2. تهران.
 
Abdoli, M. A., 1998. Disposal and recycling management of municipal solid waste in Iran. Tehran: Organization of national municipalities.
Atashpaz- Gargari, E. & Lucas, C., 2007. Imperical competitive algorithm: an algorithm for optimization inspired by imperialistic competition, Evolutionary Computation, CEC 2007. IEEE Congress on, IEEE, 4661- 4667.
Athashpaz- Gargari, E., 2009. Imperialist Competitive Algorithm development and its applications, M.S. Thesis, University of Tehran (in Persian).
Cormen, T.H., Leiserson, C. E., Rivest, R.L and Stein, C., 2001. Introduction  to algorithms, MIT Press and McGraw- Hill, pp 588- 601.
Issam A.Al- Khatib, Hassan A. Arafat, Thabet Basheer, Hadeel Shawahneh, Ammar Salahat, Jaafar Eid and Wasif Ali., 2007. rends and problem of solid waste management in developing countries: Acase study in seven palestin district, Waste management pages 1919- 1910.
Kavesh, A., & Talatahari, S., 2010. Optimum design of skeletal structures using imperialist competitive algorithm. Computers & Structures, 88 (21), 1220 – 1229.
Khabbazi, A., Atashpaz- Gargari, E., & Lucas, C., 2009. Imperialist competitive algorithm for minimum bit error rate beamforming. International Journal of Bio- Inspired Computation, 1 (1-2), 125- 133.
M.K.Ghose, A.K. Dikishit, S.k.Shrma., 2006. A GIS Based transportation model for solid waste disposal- Acase study on Asansol municipality, Waste management, p 1293- 1287.
Pellegrini, P., 2005. Application of two nearest neighbor approachesto a rich vehicle routing problem, TR/IRIDIA..15, IRIDIA,Universite Librede Bruxelles, Brussels, Belgium.
Preygal, A. (1999). Path finding: A comparison of algorithms, Management Science, Matthews.
Tuzkaya, U. R. and Onut, S., 2008. “A fuzzy analytic network process based approach to
Zeller Vanessa, Towa Edgar, Degrez Marc, Achten Wouter M. J., 2019. Urban waste flows and their potential for a circular economy model at city-region level, Waste Management, Volume 83, January, Pp. 83-94.
 
Send comment about this article
CAPTCHA Image

Files

History

  • Receive Date: 29 August 2020
  • Revise Date: 07 March 2021
  • Accept Date: 20 March 2021

Share

How to cite

Statistics