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وحید حاجی پور

وحید حاجی پور


تاریخ انتشار : Publish : نسخه قابل چاپ Print

دانشکده مهندسی

گروه مهندسی صنایع

 

جلسه دفاع از رساله برای دریافت درجه دکتری در رشته مهندسی صنایع

عنوان:

طراحی و بهینه­ سازی مسئله مکان‏یابی محدود شده پایا

استاد راهنما:

پرویز فتاحی

 

استاد مشاور:

رضا زنجیرانی فراهانی

 

اساتید داور:

دکتر جمال ارکات

دکتر هیوا فاروقی

دکتر جواد بهنامیان

 

نگارش:

وحید حاجی پور

 

زمان: 24 فروردین­ماه 1395 ساعت 12
مکان: آمفی تئاتر دانشکده مهندسی

 

چكيده:

امروزه افزايش سطح نوآوري، کاهش دوره عمر محصولات و از بين رفتن مرز بين کشورها باعث شده است که طراحي، توليد و پخش محصولات و خدمات به صورت پيوسته و با اهداف گوناگوني دنبال شود و عواملي مهمي چون انواع ريسک­ها در طراحي­هاي کلان براي زنجيره­ها در نظر گرفته شوند. روند گردش مالی شرکت­ها و گزارشات تولید ناخالص ملی آن­ها نشان­ دهنده این امر است که خصوصا در کشورهای توسعه یافته، صنایع خدماتی به طور فزاینده­ای نقش پراهمیت­تری نسبت به همتایان تولیدی بازی می‏کنند. در ساز و کار طراحی شبکه­ ها تامین اغلب تسهیلات خدماتی و تولیدی به دلایل مختلف ممکن است آماده به کار نباشند، از جمله از دلایل می­توان به انواع فاجعه­ های طبیعی، وقایع مخرب (برقی، انرژی و نیرو) و حتی کمبود موقتی ظرفیت اشاره کرد. امروزه با توجه به این امور، هدف سیستم­ها تنها از بعد هزینه­ای نباید بررسی شود لذا سیستم تسهیلاتی می­بایست با صرفه اقتصادی و همچنین قابل اطمینان باشند. لذا مسئله مکان‏یابی پایای تسهیلات مورد مطالعه قرار می‏ گیرد. در کاربردهای دنیای واقعی ممکن است محدودیت­های مختلفی در استقرار تسهیل و یا در مسیر سفر جهت رسیدن به مقصد وجود داشته باشد که اغلب این محدودیت­ها ناشی از فاکتورهای محیطی و جغرافیایی است. در این راستا، مسئله مکان‏یابی محدود شده[1] مورد مطالعه است. از سوی دیگر افزایش نیازهای مشتریان در محیط­های رقابتی و تاثیر زیاد پارامترهایی همچون قیمت، زمان تحویل محصول، کیفیت محصول، تنوع محصولات و غیره در تقاضای مشتریان جهت خرید کالا یا خدمات، سازمان­ها را بر آن داشته تا مطالعات دقیق­تر و جدی‏تری روی رفتار مشتریان نسبت پارامترهای مختلف انجام دهند. لذا در این رساله از تئوری­های پایایی، صف و قیمت‏ گذاری در مدل­سازی مسائل بهره جستیم.

در این رساله، هفت مدل ریاضی برای مسئله مکان‏یابی تسهیلات محدود شده ارایه شده است. از جمله مهمترین جنبه‏ هایی که در مسائل در نظر گرفته شده می­ توان به قیمت­گذاری، قابلیت اطمینان، جنبه­ های زیست محیطی، عدم قطعیت­ها و ارایه خدمات در لایه ­های مختلف اشاره نمود. با توجه به موارد اشاره شده در سه بخش اصلی هفت مدل ارایه شده تشریح می­گردد. در بخش اول، دو مدل ریاضی در حوزه مسئله مکان‏یابی تسهیلات محدود شده پایا ارایه می­گردد. در بخش دوم، مسئله مکان­یابی- قیمت­ گذاری محدود شده شده پایا شامل دو مدل ریاضی ارایه می­گردد. در نهایت، بخش سوم، مسائل مکان­یابی تسهیلات محدود شده چندلایه­ای شامل سه مدل ریاضی را ارایه می­نماید. هدف مکان‏یابی و تخصیص m تسهیل بین n متقاضی، تعیین قیمت بهینه ارایه خدمت، تعیین تعداد خدمت دهنده­ های بهینه در هر تسهیل و تعیین طرفیت بهینه مراکز خدمت­ دهی می­ باشد که علاوه بر کمینه شدن کل هزینه سیستم، قابلیت اطمینان تسهیلات بیشینه گردد، زمان انتظار مشتریان در سیستم کمینه گردد، بیکاری تسهیلات کمینه گردد و اثرات مخرب زیست محیطی نیز کمینه گردد.

مدل­های پيشنهاد شده از دسته مسائل برنامه­ريزي غير خطي عدد صحيح می­باشد که به دلیل پیچیدگی مسئله در ابعاد بزرگ و اثبات NP-hard بودن آن در ادبیات، به منظور حل مدل­های مختلف از رویکردهای مختلف نظیر الگوريتم­های فراابتکاری چندهدفه شامل الگوریتم جریان آب چندهدفه[2] (MOWFA)، الگوریتم بهینه­سازی میرایی ارتعاش چندهدفه[3] (MOVDO)، الگوریتم جستجوی هارمونی چندهدفه[4] (MOHSA)، الگوریتم رقابت استعماری چندهدفه[5] (MOICA)، الگوریتم ژنتیک رتبه‏بندی نامغلوب­ها[6] (NRGA)، الگوریتم ژنتیک مرتب­سازی نامغلوب­ها[7] (NSGA-II)، الگوریتم ژنتیک چندهدفه[8] (MOGA)، الگوریتم شبیه ­سازی تبرید چندهدفه[9] (MOSA)، یک رویکرد شبیه سازی و نرم­افزار GAMS بهره جسته‏ ایم. در نهایت، برای اثبات عملکرد مناسب روش­های حل ارایه شده در مدل­های مربوطه، این روش­ها بر روی مسائل آزمایشی تولید شده با ابعاد مختلف مورد تجزیه و تحلیل قرار گرفته است.

 

واژه­ های کلیدی: مسئله مکان‏یابی تسهیلات محدود شده، قابلیت اطمینان، عدم قطعیت، قیمت­گذاری، تئوری صف، بهینه­ سازی چندهدفه. 

 

Abstract:

One of the most important strategic decisions that affect the success of an organization, is to locate the facility in an appropriate place. Nowadays, increasing innovation level, decreasing product life cycle, and globalization lead to following design and manufacturing of products/services continuously with different goals and main factors such as risks have been considered in supply chains design. Facilities are characterized on a continuum spectrum from manufacturing facilities at one end and service facilities at the other end. In terms of trends in enterprise turn-over and gross domestic products (GDP) of nations, service industries play an increasingly more important role than their manufacturing counterparts.

Since during designing of the networks, the facilities may be unavailable because of disasters, destructive events (such electrical, energy, and etc), and lack of capacity, the network design should not be considered only based on economic goals and reliability concern should be regarded beside financial aspect of designing. In this manner, reliable facility location problem is an attractive issue. With regarding real world applications, there are various limitations in locating facilities which are the consequence of environmental and geographical factors. So, restricted facility location can be studied in this area. In other hand, increasing in competitiveness and impacts of elements such as price, lead time, quality of service, variety of products/services and etc leads companies to study the behavior of their customers accurately.  Hence, in this thesis reliability, queuing and pricing concepts are used in modeling the problem.

This thesis presents seven mathematical models for restricted facility location problem in which different aspects such as pricing, reliability; environmental concerns, uncertainty, and multiple services are provided. First and second models formulated reliable congested facility location problem (RCFLP). Third one presents congested location-pricing problem (CLPP). Fourth and fifth models developed multi-layer congested facility location problem (MLCFLP). Sixth one formulated multi-layer congested location-pricing problem (MLCLPP). The last model presented reliable congested location-pricing problem (RCLPP). A bi-objective non-linear integer mathematical model for reliable network service location problem with random demand. The concentration of this article is to present a new mathematical model in reliable facility location problem with immobile servers with congested regions. The goal is to find the facilities both inexpensive and also reliable. Therefore, a bi-objective mathematical programming model is presented in which total cost and reliability of system are simultaneously optimized. The aim is locating and assigning of m facilities among n demand nodes, the optimal price of servicing, determining the optimum number of servers in each facility and determining the capacity of facilities so that besides minimizing total cost, the maximum reliability, minimum lead time, minimum idle time and minimum destructive environment impacts can be achieved.

Since the proposed models are nonlinear integer programming models which are NP-hard and with respect to their complexity, several multi-objective metaheuristic algorithms such as Multi-objective Water Flow Algorithm (MOWFA), Multi-objective Vibration Damping Optimization (MOVDO) Algorithm, Multi-objective Harmony Search Algorithm (MOHSA), Multi-objective Imperialist Competitive Algorithm (MOICA), Multi-objective Non-dominated Ranking Genetic Algorithm (NRGA), Multi-objective Non-dominated Sorting Genetic Algorithm (NSGA-II), Multi-objective Genetic Algorithm (MOGA), Multi-objective Simulated Annealing (MOSA) Algorithm, simulation approach have been proposed. As the outputs of metaheuristic algorithms are strongly depend on input parameters, design of experiments, response surface methodology (RSM) and Taguchi method is used. Finally, to approve the efficiency of proposed models, these approaches have been analysed for several numerical examples with different size. 

There are many real life applications of the proposed model such as: automated teller machines, communication networks, vending machines, local clinics, hospitals and medical centers, emergency medical service (EMS) systems, rescue helicopter locations, rescue centers, relief distribution centers and reconstruction center locations, education system consists of kindergartens, guidance schools and high schools, police stations, truck terminals, hotels, city logistics terminals, parks, bus stops, press delivery networks, locating post boxes, and the like.

Since the proposed model is NP-hard, a multi-objective water flow-like algorithm (MOWFLA) is presented to solve the model. To demonstrate the performance of the proposed algorithm, different test problems are first generated; then, multi-objective genetic algorithm as best-developed algorithm in the literature and GAMS software, integrating the objectives with LP-metric method, are applied to justify the applicability of the proposed MOWFLA. According to objective function values (OFVs) and computational time (CPUT) metrics, the results show that the proposed algorithm are capable to solve proposed congested facility location problem in large size problems.

 

Key Words: Restricited facility location, Reliability, Uncertianity, Pricing, Queuing theory, Multi-objective Optimization.  

 

 

 

Vahid Hajipour

17th Baharestan, Jannat Abad Avenue  Tehran, 1478785559, IRAN

Phone: +98 9198870710 (Mobile)

Email:   v.hajipour@basu.ac.ir                vahid.hajipour@gmail.com

 

 Brief Biography

 

Vahid Hajipour is PhD in the department of Industrial Engineering at Bu-Ali Sina University in Iran. He is also a visiting professor of Industrial Engineering at the Islamic Azad University (IAU). He holds both MS and BS in Industrial Engineering from the IAU. Dr. Hajipour is a member of the Iranian National Elite Foundation and Young Researchers Club. He is the recipient of the 2011, 2013, 2014, and 2015 Distinguished Young Researcher Award. His areas of interest include queuing theory, facility location modelling, supply chain network design, reliability theory, multi-objective optimization, computational intelligence, and fuzzy sets theory. Dr. Hajipour has published one book and more than 50 papers in reputable academic journals and conferences such as Computers & Operations Research, Applied Mathematical Modelling, Computer and Industrial Engineering, IEEE Transaction of Engineering Management, Journal of Intelligent Manufacturing, Applied Soft Computing, International Journal of System Science, Engineering Optimization, Measurement, International Journal of Advanced Manufacturing Technology, and among others.

 

 Academic Experiences

 

1.      Visiting Professor, Faculty of Industrial Engineering, Alzahra University, Tehran, Iran, January 2016- Now. http://www.alzahra.ac.ir/English/  

2.      Visiting Professor, Faculty of Industrial Engineering, Damavand Branch, Islamic Azad University, Tehran, Iran, September 2014- Now.  http://www.damavandiau.ac.ir/en/Index.html  

3.      Visiting Professor, Industrial Engineering Department, Faculty of Engineering, Bu-Ali Sina University, Hamedan, Iran, February 2013- February 2015. http://www.basu.ac.ir/english/index.html

4.      Visiting Professor, Faculty of Industrial and Mechanical Engineering, Qazvin Branch, Islamic Azad University, Qazvin, Iran, February 2013- February 2014.  http://www.qiau.ac.ir/en/ & http://www.researchtop.com/Teacher/View/424  

5.      Visiting Professor, Kar University, Khoramdareh Branch, Zanjan, Iran, February 2013-

September 2014. http://www.kar.ac.ir/#

6.      Visiting Professor, Scientific and Practical Center of Science and Education, Qazvin Branch, Qazvin, Iran, September 2011- September 2013. http://www.quast.ac.ir/index.php

7.      Visiting Professor, Kowsar University of Qazvin, Qazvin, Iran, September 2012- February 2013. http://www.kowsar.ac.ir/

8.      Research Assistant, Faculty of Industrial and Mechanical Engineering, Qazvin Branch, Islamic Azad University, Qazvin, Iran, February 2011- April 2012.  http://www.qiau.ac.ir/en/  

9.      Teaching Assistant, Faculty of Industrial and Mechanical Engineering, Qazvin Branch, Islamic Azad University, Qazvin, Iran, February 2007- February 2011.  http://www.qiau.ac.ir/en/

 

 Technical Experiences

 

1.      Member of ERP Education Committee, Fanap Co., Tehran, Iran, Jan. 2016-Now. 

2.      Product Owner of Knowledge Management System, Fanap Co., Tehran, Iran, December 2015-Now. 

3.      Product Owner of HSE System, Fanap Co., Tehran, Iran, December 2014-Now. 

4.      Director Manager, Poyeshgaran Borna Co., Iran, September 2012-Now.

5.      Quality Assurance Manager, Millangsazan Co., Tehran, Iran, May 2009-October 2014. 

6.      Production Planning Expert, Tehran Arneg Co., Qazvin, Iran, 2010.

7.      Project Control Expert, Borna Co., Qazvin, Iran, 2009-2012.

 

 Educations

 

o    Ph.D., Industrial Engineering Department, Faculty of Engineering, Bu-Ali Sina University, Hamedan, Iran, September 2012-April 2016. [Current GPA: 18.28 of 20]

 Ph.D. Thesis Subject: Design and Optimization of Reliable Restricted Facility Location Problem

 Supervisor Professor: Parviz Fattahi, Associate Professor

 Advisor Professor: Reza Zanjirani Farahani, Associate Professor

 

o    M.Sc. in Industrial Engineering, Industrial Branch, Islamic Azad University of Qazvin, Iran, September 2011. [Total GPA: 19.27 of 20]

 M.S. Thesis Subject: Multi-Objective Facility Location Problem with Different

Queue Rules Using Meta-Heuristic Algorithms

 Supervisor Professor: Seyed Hamid Reza Pasandideh, Assistant Professor

 Advisor Professor: Mehdi Seifbarghy, Associate Professor &                        Seyed Taghi Akhavan Niaki, Professor

 

o    B.Sc. in Industrial Engineering, Industrial Production Branch, Islamic Azad University of Qazvin, Iran, February 2009. [Total GPA: 17.87 of 20].

 Thesis Subject: A Feasibility Study in Crankshaft Manufacturing

 Supervisor Professor: Esmaeil Mehdizadeh, Assistant Professor

 

o    High School Diploma in Mathematics and Physics, Sadra High School, Qazvin, Iran, July 2003.

 

 Journal Publications 

 

Accepted Manuscript

 

 

1.      Tavakkoli-Moghaddam R., Noshafagh S.V., Taleizadeh A.A., Hajipour V., Mahmoudi A.,

“Pricing and Location Decisions in Multi-objective Facility Location Problem with

M/M/m/k Queuing Systems”, To Appear in Engineering Optimization.  

2.      Kheirkhah A.S., Nobari A., Hajipour V., “Optimizing Reliability and Costs in Aggregate Production Planning Problem: A multi-objective imperialist competitive algorithm” (In Farsi), To Appear in Journal of Industrial Engineering Research in Production Systems.

3.      Fattahi P., Hajipour V., “Design and Optimization of multi-objective multi-layer congested facility location problem with Environmental Considerations” (In Farsi), To Appear in International Journal of Industrial Engineering and Production Management.

4.      Mehdizadeh E., Hajipour V., Mohammadizadeh M.R., “A bi-objective multi-item capacitated lot-sizing model: Two Pareto-based meta-heuristic algorithms”, To Appear in International Journal of Management Science and Engineering Management. Link

5.      Fattahi P., Hajipour V., “A Bi-objective Congested Network Location Problem to Optimize

Reliability and Cost of System” (In Farsi), To Appear in Sharif Journal of Science and Technology. 

 

 

 

2016

 

6.      Hajipour V., Fattahi P., Tavana M., Di Caprio D. “Multi-Objective Multi-Layer Congested Facility Location-Allocation Problem Optimization with Pareto-based Meta-heuristics”, Applied Mathematical Modelling, Vol. 40, Issue 7-8, pp. 4948-4969, 2016.  Link

7.      Hajipour V., Zanjirani Farahani R., Fattahi P., “Bi-objective Vibration Damping

Optimization for Congested Location-pricing Problem”, Computers & Operations Research, Vol. 70, pp. 87-100, 2016. Link

 

2015

 

8.      Mehdizadeh E., Hajipour V., Mahmoudi A., “Optimizing Bi-objective Pricing-queuinglocation Problem” (In Farsi), Sharif Journal of Science and Technology, Vol. 31, No. 1, pp. 93-105, 2015. Link

9.      Khodakarami V., Hajipour V., Hassani M.R., “A Novel Heuristic Approach to Simplify Initial Graph of Maximum Flow Problem” (In Farsi), Journal of Industrial Engineering Research in Production Systems, Vol. 3, No. 5, pp. 107-119, 2015. Link

10.  Hajipour V., Kheirkhah A.S., Tavana M., Absi N., “Novel Pareto-based Meta-heuristics for Solving Multi-objective Multi-item Capacitated Lot-sizing Problems”, International Journal of Advanced Manufacturing Technology, Vol. 80, pp. 31-45, 2015. Link 

11.  Mehdizadeh E., Moalemian A., Hajipour V., “A Vibration Damping Optimization to Maximize Net Present Value for Resource-constrained Project Scheduling Problem under

Fuzzy Environment” (In Farsi), International Journal of Industrial Engineering and Production Management, Vol. 25, No. 4, pp. 389-401, 2015. Link

12.  Fattahi P., Hajipour V., Nobari A., “A Bi-objective Continuous Review Inventory Control Model: Pareto-based Meta-heuristic Algorithms”, Applied Soft Computing, Vol. 32, pp. 211-223, 2015. Link

13.  Zaretalab A., Hajipour V., Sharifi M., Shahriari M.R., “A Knowledge-based Archive Multiobjective Simulated Annealing Algorithm to Optimize Series–parallel System with Choice of Redundancy Strategies”, Computer and Industrial Engineering, Vol. 80, pp. 33-44, 2015. Link

14.  Alaghebandha M., Hajipour V., “A Soft Computing-based Approach to Optimize QueuingInventory Control Problem”, International Journal of System Science, Vol. 46, No. 6, 2015. Link

 

2014

 

15.  Mousavi M., Hajipour V., Niaki S.T.A., Aalikar N., “A multi-product multi-period inventory control problem under inflation and discount: a parameter-tuned particle swarm optimization algorithm”, International Journal of Advanced Manufacturing Technology, Vol. 70, pp. 1739-1756, 2014. Link

16.  Alinezhad A.R., Hajipour V., Mahmoudi A., “Optimizing Queuing-Inventory Problems under Uncertainty: A Fuzzy Mathematical Programming”, (In Farsi), Journal of Industrial Management, Vol. 9, No. 27, pp. 18-32, 2014. Link  

17.  Hajipour V., Fattahi P., Nobari A., “A Hybrid Ant Colony Optimization Algorithm to Optimize Capacitated Lot-sizing Problem”, Journal of Industrial and Systems Engineering, Vol. 7, No. 1, pp. 1-20, 2014. Link

18.  Hajipour V., Niaki S.T.A., Borji S., Kangi F., “A Novel Hybrid Approach to Analyze Cost of Quality: Balanced Scorecard and Fuzzy Logic”, International Journal of Engineering: Transactions A, Vol. 27, No. 10, pp. 1611-1618, 2014. Link

19.  Hajipour V., Khodakarami V., Tavana M., “The Redundancy Queuing-LocationAllocation Problem: A Novel Approach”, IEEE Transactions on Engineering Management, Vol. 61, No. 3, pp. 534-544, 2014. Link

20.  Hajipour V., Rahmati S.H.A., Pasandideh S.H.R., Niaki S.T.A., “A Multi-Objective Harmony Search Algorithm to Optimize Multi-Server Location-Allocation Problem in

Congested Systems”, Computer and Industrial Engineering, Vol. 72, pp. 187-197, 2014. Link

21.  Afshar-Nadjafi B., Parsanejad A., Hajipour V., Nobari A., “Solution Procedure for Generalized Recourse Investment Problem with Discounted Cash Flows and Progress

Payment", Scientia Iranica: Transaction E, Vol. 21, No. 6, pp. 2436-2447, 2014. Link  

22.  Hajipour V., Mehdizadeh E., Tavakkoli-Moghaddam R., “A Novel Pareto-based Multiobjective Vibration Damping Optimization Algorithm to Solve Multi-objective Optimization Problems”, Scientia Iranica: Transaction E, Vol. 21, No. 6, pp. 2368-2378, 2014. Link

 

 

2013

 

23.  Hatami-Marbini A., Tavana M., Hajipour V., Kangi F., Kazemi A., “An Extended Compromise Ratio Method for Fuzzy Multi-Attribute Group Decision Making Problem with SWOT Analysis”, Applied Soft Computing, Vol. 13, No. 8, 3459-3472, 2013. Link

24.  Hajipour V., Kazemi A., Mousavi M., “A Fuzzy Expert System to Increase Accuracy and

Precision in Measurement System Analysis”, Measurement, Vol. 46, No. 8, 2770-2780, 2013. Link

25.  Rahmati S.H.A., Hajipour V., Niaki S.T.A., “A Soft-computing Pareto-based MetaHeuristic Algorithm for a Multi-Objective Multi-Server Facility Location Problem”,

Applied Soft Computing, 13, 1728–1740, 2013. Link

26.  Mousavi M., Hajipour V., Niaki S.T.A., Aalikar N., “Optimizing Multi-item Multi-period Inventory Control System with Discounted Cash Flow and Inflation Approaches: Two Calibrated Meta-heuristic Algorithms”, Applied Mathematical Modelling, Vol. 37, No. 4, pp. 2241-2256, February 2013. Link

27.  Kazemi A., Hajipour V., “A Fuzzy Approach to Increase Accuracy and Precision in Measurement System Analysis”, Economic Computation and Economic Cybernetics Studies and Research, Vol. 47, No. 2, pp. 171-187, 2013. Link

28.  Pasandideh S.H.R, Niaki S.T.A., Hajipour V., “A Multi-Objective Facility Location Model with Batch Arrivals: Two Parametric-Tuned Meta-heuristic Algorithms”, Journal of Intelligent Manufacturing, 24, 331-348, 2013. Link

 

2012

 

29.  Hajipour V., Pasandideh S.H.R, “Proposing an Adaptive Particle Swarm Optimization for a Novel Bi-Objective Queuing Facility Location Model”, Economic Computation and Economic Cybernetics Studies and Research, No. 3, pp. 223-240, 2012. Link  

30.  Alaghebandha M., Pasandideh S.H.R., Hajipour V., “A Continuous Review inventory Control Model within Batch Arrival Queuing Framework: A Parameter-Tuned Imperialist

Competitive Algorithm”, Journal of Optimization in Industrial Engineering, Vol. 5, No. 11, pp. 11-24, September 2012. Link

31.  Mehdizadeh E., Hajipour V., Mahmoudi A., “A Hybrid Approach to Analyze Productivity by using Drum-Buffer-Rope Concept and Fuzzy Expert System”, American Journal of Scientific Research, Vol. 53, pp. 101-111, 2012. Link

 

2011

 

32. Mehdizadeh E., Tavaros M.R., Hajipour V., “A New hybrid Algorithm to Optimize Stochastic-Fuzzy Capacitated Multi-Facility Location-Allocation Problem”, Journal of Optimization in Industrial Engineering, Vol. 4, No. 7, pp. 71-80, 2011. Link  

 

2010

 

33. Kazemi A., Halleh H., Hajipour V., Rahmati S.H.A., “Developing a Method for Increasing

Accuracy and Precision in Measurement System Analysis: Fuzzy Approach”, Journal of Optimization in Industrial Engineering, Vol. 3, No. 6, pp. 25-32, 2010. Link

 

 

 International Conference Papers

 

34.  Hajipour V., Jabbari Y., Akhgar M., “Traceable Closed-Loop Supply Chain Network Design”, In Proceeding of 12th International Industrial Engineering Conference, Tehran, Iran, 25-26 January 2016.

35.  Parsanejad A., Hajipour V., “MORIP”, In Proceeding of 12th International Industrial Engineering Conference, Tehran, Iran, 25-26 January 2016.

36.  Fattahi P., Hajipour V., “Multi-objective Congested Facility Location Design with Environmental Considerations: A Simulation Approach”, In Proceeding of the 4th International Logistics & Supply Chain Conference, Tehran, Iran, 7-8 January 2015.

37.  Hajipour V., Akhgar M., Jabbari Y., “A Bi-objective Closed-loop Green Supply Chain Network Design Model with Internet Sales”, In Proceeding of the 4th International Logistics & Supply Chain Conference, Tehran, Iran, 7-8 January 2015.

38.  Nobari A., Kheirkhah A.S., Hajipour V., “An Approach to Estimate Efficiency Based on

Fuzzy Chance Data Envelopment Analysis Method”, In Proceeding of 11th International Industrial Engineering Conference, Tehran, Iran, 7-8 January 2015.

39.  Fattahi P., Hajipour V., “Optimizing Reliable Network Location Problem for Congested Facilities”, In Proceeding of 10th International Industrial Engineering Conference, Tehran, Iran, 27-28 January 2014. Link

40.  Hajipour V., Noshafagh S.V., Tavakkoli-Moghaddam R., “A Novel Pareto-Based MetaHeuristic Algorithm to Optimize Multi-Facility Location-Allocation Problem”, World Academy of Science, Engineering and Technology, 79, In Proceeding of International Conference on Industrial and Information Engineering, Stockholm, 833-836, 2013. Link

41.  Hajipour V., Mehdizadeh E., Tavakkoli-Moghaddam R., “A Vibration Damping-based Multi-objective Optimization Algorithm: MOVDO”, In Proceeding of 13th Iranian Conference of Fuzzy systems, Tehran, Iran, 27-29 August 2013. 

42.  Hajipour V., Mehdizadeh E., “A Novel Vibration Damping-based Multi-objective

Optimization Algorithm: MOVDO”, In Proceeding of 5th International Conference on Operation Research, Tabriz, Iran, May 2012. 

43.  Mehdizadeh E., Mohamadizadeh M., Hajipour V., “A Multi-Item Lot-sizing model with

Safety Stock, Shortage and Different Production Manners”, In Proceeding of 8th

International Industrial Engineering Conference, Tehran, Iran, February 15-16, 2012. Link

44.  Hajipour V., Niaki STA, “A Mathematical Programming Facility Location Model within

Queuing Framework: A Harmony Search Approach” (In Farsi), In Proceeding of 8th

International Industrial Engineering Conference, Tehran, Iran, February 15-16, 2012. Link

45.  Hajipour V., Pasandideh S.H.R., “A New Multi-objective Model for Location-Allocation

Problem within Queuing Framework”, World Academy of Science, Engineering and Technology, 78, In Proceedings of International Conference on Industrial and Mechanical Engineering, Amesterdam, pp. 1665-1673, 2011.

46.  Chambari A.H., Rahmaty S.H., Hajipour V., Karimi A., “A Bi-Objective Model for

Location-Allocation Problem within Queuing Framework”, World Academy of Science, Engineering and Technology, 78, In Proceedings of International Conference on Industrial and Mechanical Engineering, Amesterdam, pp. 138 – 145, 2011. Link

47.  Jalali S., Hajipour V., Chambari A.H., “Pricing Policy and Warranty Length Relationship Using Fuzzy Approach”, World Academy of Science, Engineering and Technology, 78, In Proceedings of International Conference on Mechanical, Industrial, and Manufacturing Engineering, Amesterdam, pp. 326-330, 2011.

48.  Hajipour V., Pasandideh S.H.R., “A Bi-Objective Queuing Location-Allocation Problem with A Simulated Annealing for Congested Systems”, World Academy of Science, Engineering and Technology, 78, In Proceedings of International Conference on Industrial and Mechanical Engineering, Amesterdam, 1031-1036, 2011.

49.  Hajipour V., Halleh H., Rahmati S.H.A., Kazemi A., “Proposing Novel Fuzzy Considerations for Measurement System Analysis”, World Academy of Science, Engineering and Technology, 78, In Proceedings of International Conference on Fuzzy System and Neural Computing, Amesterdam, pp. 1658-1664, 2011.

 Books

 

1.      Kazemi A., Hajipour V., Nobari A., “Fuzzy Sets Theory: Modelling and Applications” (In

Farsi)”, AKU in Press, 2016.

2.      Fattahi P., Hajipour V., Nobari A., “Joint Optimization of Maintenance and Production Policies” (In Farsi)”, Bu-Ali University Publishing in Press, 2016.

 

 Research Projects

  

1.      A Fuzzy Expert System for Measurement System Analysis, Islamic Azad University, December 2014. 

2.      Optimizing Multi-objective Location-Pricing-Queuing problems, Islamic Azad University, October 2014.

3.      Optimizing Multi-layer Facility Location Problem within queuing framework: A Simulation Approach, Islamic Azad University, September 2014. 

4.      A Novel Approach to Analyze Cost of Quality, Executer, Young Researchers Club, September 2012.  

 

 Technical Projects

 

1.      ERP Solution of Midhco, Fanap Co., December 2014-Now. 

2.      Robotic Requirements of Industry Branches, Qazvin Industrial State Company, May 2014.

3.      Feasibility Study Projects, Tehran Industrial State Company, February 2013.

4.      Energy Structure Improvement Projects, Qazvin Industrial State Company, May 2012.

5.      Approved Survey Plan of TU5 Crankshaft Peugeot 206 from PSA Co., Millangsazan Co., Iran, 2011.

6.      Strategic Management by SWOT Analysis, IRIB, Iran, 2010.

7.      ISO 9001:2008 Implementation, Culture Office, Iran, 2010.

8.      Culture Development Codification of Qazvin, Iran, 2010.

9.      MRP-II System Analysis, Sepehr Electeric Co., Iran, 2008.

10.  Layout Implementation, Nikhan Khodro Co., Iran, 2007. 

11.  Maintenance System Analysis, Nikhan Khodro Co., Iran, 2008. 

12.  Scrap and Rework Project, Erish Khodro Co., Iran, 2008.

 

 

 Awards and Honors

 

1.     Distinguished Researcher Award at the Bu-Ali Sina University, Iran, 2015.    

2.     Distinguished Young Researcher and NODET Award at the Islamic Azad University, Iran, 2014 (Ranked 1st).   

3.     Distinguished Young Researcher Award at the Islamic Azad University, Iran, 2013 (Ranked 1st).

4.     Distinguished Young Researcher Award at the Islamic Azad University, Iran, 2011

(Ranked 2st).   

5.     Ranked 1st among 37 Master of Industrial Engineering Students, Qazvin Islamic Azad University, Iran, September 2011. 

6.     Ranked 2nd among the Bachelor of Industrial Engineering Students, Industrial Production Branch, Qazvin Islamic Azad University, Iran, February 2009. 

 

 Certificates & Presentations

 

1.      HSE-MS: 2010 Certification, IMQ Academy, December 2015.

2.      Certificate of Reviewing, International Journal of Electrical Power and Energy System, November 2015. 

3.      Certificate of Business Process Management (BPM), Fanap Co., December 2014. 

4.      Multi-objective Optimization by Pareto-based Meta-heuristics Presentation, Islamic Azad University of Qazvin, Iran, November 2014.

5.      Optimization by Meta-heuristics Presentation, Islamic Azad University of Qazvin, Iran, November 2014.

6.      Writing Scientific Papers Presentation, Bu-Ali Sina University, Iran, February 2013.

7.      Writing Scientific Papers Presentation, Kar University, Iran, December 2012.

8.      Certificate of Presentation in International Conference on Industrial and Information Engineering, Stockholm, Sweden, July 2013. 

9.      Writing Scientific Papers Certification, Young Researchers Club, Iran, February 2012.

10.  MATLAB Programming Certification, Young Researchers Club, Iran, March 2012.

11.  ISO TS 16949:2009 Certification, TUV, Academy Rheinland, May 2011.

12.  Internal Audit Certification, TUV, Academy Rheinland, May 2011.

13.  Certificate of Presentation in International Conference on Industrial and Mechanical Engineering, Amesterdam, Netherlands, July 2011. 

14.  Certificate of Presentation in International Conference on Fuzzy System and Neural Computing, Amesterdam, Netherlands, July 2011. 

15.  Enterprise Dynamic (ED) Certification, Young Researchers Club, Iran, December 2011.

16.  GAMS Certification, Young Researchers Club, Iran, February 2011.

17.  TRIZ Certification, Young Researchers Club, Iran, July 2011.

18.  Entrepreneurship Skills Certification, February 2011.

 

 Courses Taught 

 

o   Facilities Planning      o Feasibility Study

o   Multi Criteria Decision Making o Statistical Engineering o Research Methodology  o Inventory Control  o Fuzzy Sets Theory o Production Planning o Operations Research o Statistical Quality Control o Decision Analysis o Computer Programming o Probabilities Theory o Process Planning o Project Planning & Control

 

 Thesis Supervised

 

1.      Nosrati G., “A Review on Facility Location Modelling” (In Farsi), B.Sc. Thesis, Islamic Azad Univeristy, Damavand Branch, 2015. 

2.      Vaziri G., “Linear Programming with MATLAB” (In Farsi), B.Sc. Thesis, Islamic Azad Univeristy, Damavand Branch, 2015.  

3.      Tafahomi S., “Simulation Application in Industrial Engineering” (In Farsi), B.Sc. Thesis, Kar University, 2014. 

4.      Ghalbi R., “MATLAB Software Application in Industrial Engineering” (In Farsi), B.Sc. Thesis, Kar University, 2014. 

5.      Salehi S., “Flexibility and Agility in Manufacturing” (In Farsi), B.Sc. Thesis, Kar University, 2014. 

 

 Interested Areas of Research

 

             o Facility Location Modelling                                          o Fuzzy Set Theory

o Queuing Theory o Reliability Engineering o Computational Intelligence o Multi-objective Optimization

o Quality Techniques o Inventories and Production Control o Heuristic and Meta-heuristic Algorithms o Supply Chain Network Design

 

 

 Membership

 

1.      Member of Young Researchers Club, http://www.bpj.ir/  

2.      Member of National Organization for Development of Exceptional Talents (NODET), IRAN, http://www.bmn.ir/    

3.      Member of Professors in Industrial Engineering Association, Kharazmi Univeristy, Tehran,

IRAN, http://www.iekhu.ir/index.php  

 

 Technical Skills

 

1.      BPMN 2.0, Business Process Model and Notation (Process Modelling Software).  

2.      COMFAR (Feasibility Study Software).

3.      MS Office Package. 

4.      Minitab, SAS, and SPSS (Statistical Analysis Software). 

5.      P6 and MS Project (Project Control Software). 

6.      MATLAB (Programming Language)

7.      LINGO, GAMS, and CPLEX (Optimization Softwares) 

8.      Enterprise Dynamic, Arena, and Vensim (Simulation Softwares) 

 

 Languages

 

English:  Fluent 

Persian:  Native Language

 

 References

 

o   S.T.A. Niaki, Professor, Department of Industrial Engineering, Sharif University of

Technology. Email: Niaki@sharif.edu ; Website: http://sharif.ir/~niaki/

o   M. Tavana, Professor, Lindback Distinguished Chair of Information Systems and Decision Sciences La Salle University, Philadelphia, PA 19141, USA. Email: tavana@lasalle.edu ; Website:  www.tavana.us

 

 



[1] Restricted

[2] Multi-objective Water Flow Algorithm (MOWFA)

[3] Multi-objective Vibration Damping Optimization (MOVDO) Algorithm

[4] Multi-objective Harmony Search Algorithm (MOHSA)

[5] Multi-objective Imperialist Competitive Algorithm (MOICA)

[6] Multi-objective Non-dominated Ranking Genetic Algorithm (NRGA)

[7] Multi-objective Non-dominated Sorting Genetic Algorithm (NSGA-II)

[8] Multi-objective Genetic Algorithm (MOGA)

[9] Multi-objective Simulated Annealing (MOSA) Algorithm