Mohammad Mahdi Paydar

Mohammad Mahdi Paydar

محمد مهدی پایدار
Email:  paydar[at]nit.ac.ir

Assistant Professor
 
Qualifications

·Diploma of mathematics and physics, Shahed high school, Ghaemshahr, Iran. (2002), Overall G.P.A: 17.98/20.

·Bachelor of Engineering (B.E.), Department of Industrial Engineering, Mazandaran University of Science and Technology, Babol, Iran.  (2007), Overall G.P.A: 17.87/20.

·Master of Technology (M.Tech.), Department of Industrial Engineering, Mazandaran University of Science and Technology, Babol, Iran.(2009), Overall G.P.A: 18.92/20.

·Doctor of Philosophy (Ph.D) , School of Industrial Engineering, Iran University of Science and Technology, Tehran, Iran.( 2014), Overall G.P.A: 19.25/20.

 
Research Interests

Cellular manufacturing systems

Production planning

Supply chain management

Meta- heuristic algorithms (GA, SA, ...)

Petri nets

Design and Analysis of  Information Systems

 
Honors and Awards

Ranked 2st  as a Graduate at Mazandaran University of Science and Technology, 2007

Graduated, Ranked 1st at  Mazandaran University of Science and Technology, 2009

Best researcher at Mazandaran University of Science and Technology (2008, 2009)

Ranked 1st  as a Student at Iran University of Science and Technology, 2012

 
Previous and Present Positions
 
Professional Membership
Iranian Operations Research Society
 
Teaching Experiences

For Graduate Students

  • Supply Chain Management(SCM)
  • Facility Location
  • Multiple Criteria Decision Making(MCDM)
  • Management Information Systems(MIS)
  • Operations Management (OM)

For Undergraduate Students

  • Facility Planning and Plant Layout
  • Engineering Economy
  • Transportation Engineering Planning
  • Statistical Quality Control
  • Quality Management
  • Management Information Systems(MIS)
  • Production Planning
 
Publications

·      2008

1.      A flow matrix-based heuristic algorithm for cell formation and layout design in cellular manufacturing system, International Journal of Advanced Manufacturing Technology, 39(9-10), 943–953, 2008. Iraj Mahdavi, Babak Shirazi and Mohammad Mahdi Paydar.

2.      Designing a dynamic buyer-supplier coordination model in electronic Markets using stochastic Petri nets, International Journal of Information Systems and Supply Chain Management, 1(3), 1-20, 2008. Iraj Mahdavi, Shima Mohebbi, Namje Cho, Mohammad Mahdi Paydar and Nezam Mahdavi-Amiri.

3.      Applying multi-criteria decision methods and SWOT factors to analyze the role of information technology in industry development in Iran, Journal of Applied Science, 8(17), 2983-2990, 2008. Iraj Mahdavi, Hamed Fazlollahtabar, Mohammad Mahdi Paydar and armaghan Heidarzade.

·      2009

4.      Optimal layout selection using Petri net in an automated assembling shop, Journal of Operations and Logistic, 3(1), 1-10, 2009. Iraj Mahdavi, Babak Shirazi, Maghsud Solimanpur and Mohammad Mahdi Paydar.

5.      Genetic algorithm approach for solving a cell formation problem in cellular manufacturing, Expert Systems with Applications, 36(3), 6598–6604, 2009. Iraj Mahdavi, Mohammad Mahdi Paydar, Maghsud Solimanpur and Armaghan Heidarzade.

6.      Designing a mathematical model for cell formation problem using operation sequence, International Journal of Applied Operational Research, 1(1), 29-37, 2009, Mohammad Mahdi Paydar and Navid Sahebjamnia.

·      2010

7.      Designing a mathematical model for dynamic cellular manufacturing systems considering production planning and worker assignment, Computers and Mathematics with Applications, 60(4), 1014-1025, 2010, Iraj Mahdavi, Amin Aalaei, Mohammad Mahdi Paydar and Maghsud Solimanpur.

8.      Application of single depot multiple traveling salesman method to cell formation problems,  International Journal of Applied Decision Sciences, 3(4), 390-399, 2010, Mohammad Mahdi Paydar, Iraj Mahdavi and Szabat Kathryn.

9.      A Mathematical model for integrating cell formation problem with machine layout, International Journal of Industrial Engineering & Production Research, 21(2), 61-70, 2010, Iraj Mahdavi, Mohammad Mahdi Paydar, Maghsud Solimanpur and Mohammad Saidi-Mehrabad.

10.   Applying simulated annealing for designing cellular manufacturing systems using MDmTSP, Computers & Industrial Engineering, 59(4), 929-936, 2010, Mohammad Mahdi Paydar, Iraj Mahdavi, Iman Sharafeddin and Maghsud Solimanpur.

·      2011

11.  Applying fuzzy approach to develop Transient probability matrix for on-line variable quality monitoring, Computers & Industrial Engineering, 60(3), 420-425, 2011, Navid Sahebjamnia and Mohammad Mahdi Paydar.

12.  A fuzzy linear programming approach to layout design of dynamic cellular manufacturing systems with route selection and cell reconfiguration, International Journal of Management Science and Engineering Management, 6(3), 219-230, 2011, Reza Kia, Mohammad Mahdi Paydar, Mahnaz Alimardany Jondabeh, Nikbakhsh Javadian, Yousef Nejatbakhsh.

13.  Solving a new mathematical model for cellular manufacturing system: A fuzzy goal programming approach, Iranian Journal of Operations Research, 2(2), 35-47, 2011, Iraj Mahdavi, Mohammad Mahdi Paydar and Maghsud Solimanpur.

14.  Developing a Mathematical Model for Cell Formation in Cellular Manufacturing Systems, International Journal of Operational Research, 11(4), 408-424, 2011, Mohammad Mahdi Paydar, Iraj Mahdavi, Samaneh Valipoor khonakdari and Maghsud Solimanpur.

15.  Multi-Objective Cell Formation and Production Planning in Dynamic Virtual Cellular Manufacturing Systems, International Journal of Production Research, 49(21), 6517-6537, 2011, Iraj Mahdavi, Amin Aalaei, Mohammad Mahdi Paydar and Maghsud Solimanpur.

16.  An Efficient Algorithm to Solve Utilization-based Model for Cellular Manufacturing Systems, Journal of Industrial and Systems Engineering, 4(4), 209-223, 2011, Kaveh Fallahalipour*, Iraj Mahdavi, Ramin Shamsi, Mohammad Mahdi Paydar.

·      2012

17.  A new mathematical model for integrating all incidence matrices in multi-dimensional cellular manufacturing system, Journal of Manufacturing Systems, 31(2), 214-223, 2012, Iraj Mahdavi, Amin Aalaei, Mohammad Mahdi Paydar and Maghsud Solimanpur.

18.  Developing a mathematical model based on multiple traveling salesman problem for determining machine groups in a cell formation problem, Journal of Control Engineering and Technology, 2(4), 185-190, 2012, Mahdi Mohammadi, Mohammad Mahdi Paydar and Reza Kia.

·      2013

19.  A hybrid genetic-variable neighborhood search algorithm for the cell formation problem based on grouping efficacy, 40(4), 980-990, 2013, Computers & Operations Research, Mohammad Mahdi Paydar and Mohammad Saidi-Mehrabad.

20.  Fuzzy stochastic linear programming-based approach for multiple departures single destination multiple travelling salesman problem, International Journal of Operational Research,17(4),417- 435, 2013, Seyed Gholamreza Jalali Naini, Mohammad Mahdi Paydar, Javid Jouzdani and Mohammad Fathian.

21.  Designing a new integrated model for dynamic cellular manufacturing systems with production planning and intra-cell layout, International Journal of Applied Decision Sciences, 6(2), 117-143, 2013, Mohammad Mahdi Paydar and Mohammad Saidi-Mehrabad and Reza Kia.

22.  Production Planning and Worker Training in Dynamic Manufacturing Systems, Journal of Manufacturing Systems, 32(2), 308-314, 2013, Mohammad Saidi-Mehrabad, Mohammad Mahdi Paydar and Amin Aalaei.

23.  A simulated annealing for intra-cell layout design of dynamic cellular manufacturing systems with route selection, purchasing machines and cell reconfiguration, Asia-Pacific Journal of Operational Research, , 30(4), 1-41, 2013, Reza Kia, Nikbakhsh Javadian, Mohammad Mahdi Paydar and Mohammad Saidi-Mehrabad.

·      2014

24.  Data envelopment analysis in cellular manufacturing systems considering worker assignment, International Journal of Services and Operations Management,18(3), 258-280, 2014, Amin Aalaei, Mohammad Mahdi Paydar and Mohammad Saidi-Mehrabad. 

25.  A robust optimization model for generalized cell formation problem considering machine layout and supplier selection, International Journal of Computer Integrated Manufacturing, 27(8), 772-786, 2014. Mohammad Mahdi Paydar, Mohammad Saidi-Mehrabad and Ebrahim Teimoury.

26.  Manufacturing Cell Configuration Considering Worker Interest Concept Applying a Bi-Objective Programming Approach, International Journal of Industrial Engineering & Production Research, 25(1), 41-53, 2014. Iraj Mahdavi, Behrang Bootaki and Mohammd Mahdi Paydar.

27. Design a bi-objective mathematical model for cellular manufacturing systems considering variable failure rate of machines, International Journal of Production Research, 52(24), 7401-7415, 2014, Mohammad Sadegh Yadollahi, Iraj Mahdavi, Mohammad Mahdi Paydar and Javid Jouzdani.

28. A hybrid GA-AUGMECON method to solve a cubic cell formation problem considering different worker skills, Computers & Industrial Engineering, 75, 31-40,  2014, Behrang Bootaki, Iraj Mahdavi and Mohammad Mahdi Paydar.

·      2015

29.  Revised multi-choice goal programming for integrated supply chain design and dynamic virtual cell formation with fuzzy parameters, International Journal of Computer Integrated Manufacturing, 28(3), 251-265, 2015. Mohammad Mahdi Paydar and Mohammad Saidi-Mehrabad.

30. New bi-objective robust design-based utilisation towards dynamic cell formation problem with fuzzy random demands, International Journal of Computer Integrated Manufacturing, 28(6), 577-592. 2015. Behrang Bootaki, Iraj Mahdavi and Mohammad Mahdi Paydar.

31. A Fuzzy Multi-Objective Model For Logistic Planning In Disaster Relief Operations, International Journal of Industrial Engineering & Production Research, 26(3), 213-227, 2015, Iraj Mahdavi, Mohammad Mahdi Paydar, Golnaz Shahabnia and Javid Jouzdani

·      2016

32. A probabilistic model toward a permutation flow shop scheduling problem with imperfect jobs, International Journal of Management Science and Engineering Management, 11(3),186-193, 2016, Behrang Bootaki and Mohammad Mahdi Paydar.

33. New criteria for configuration of cellular manufacturing considering product mix variation, Computers & Industrial Engineering, 98, 413-426, 2016, Behrang Bootaki, Iraj Mahdavi and Mohammad Mahdi Paydar.

34. A genetic algorithm for a bi-objective mathematical model for dynamic virtual cell formation problem, Journal of Industrial Engineering International, 12(3), 343-359, 2016, Mostafa Moradgholi, Mohammad Mahdi Paydar, Iraj Mahdavi and Javid Jouzdani.

35. A fuzzy stochastic multi-objective optimization model to configure a supply chain considering new product development, Applied Mathematical Modelling, 7545- 7570, 40(17), 2016, Zahra Alizadeh Afrouzy, Seyyed Hadi Nasseri, Iraj Mahdavi and Mohammad Mahdi Paydar.

 

 
Supervised Dissertations and Theses
 
Research Projects
 
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