توضیحات استاد
- سوابق تحصیلي
پسا دکتری: مهندسی صنایع، دانشگاه ویندزور (کانادا)
پسا دکتری: مدیریت صنعتی، دانشگاه شهید بهشتی
دکتري: مهندسي صنايع (مهندسي صنايع)، دانشگاه صنعتي اميرکبير
فرصت مطالعاتی دانشگاه پلی تکنیک والنسیا (اسپانیا)
کارشناسي ارشد: مهندسي صنايع (مهندسي مالي)، دانشگاه صنعتي اميرکبير
کارشناسي: مهندسي صنايع (توليد صنعتي)، دانشگاه علوم و فنون مازندران
3- دستاوردها
1- پژوهشگر برتر استان البرز در سال 1394
2- پژوهشگر برتر دانشگاه خوارزمی در سال 1393
3- فارغالتحصیل برتر کل دانشگاه امیرکبیر در سال 1389
4- عضو بنیاد ملی نخبگان
4- عضویت ها
1- Associate Editor in European Journal of Industrial Engineering
2- ٍEditorial Board in International Journal of Supply and Operations Research
3- Researcher in Production Operations Management Research Lab (Canada)
5- سوابق پژوهشی
5-1- مقالات در مجلات (ISI)
5-1-1- پذیرش شده
[1] B. Naderi, Ruben Ruiz, Distributed permutation flowshop scheduling problems, Computers and Operations Research 37 (2010) 754 – 768.
[2] B. Naderi, M. Zandieh, H.A.M.A. Shirazi, Modeling and scheduling a case of flexible flowshops to minimize total weighted tardiness, Computers and Industrial Engineering 57 (2009) 1258–1267.
[3] B. Naderi, Ruben Ruiz, M. Zandieh, Algorithms for a realistic variant of flowshop scheduling, Computers and Operations Research 37 (2010) 236–246.
[4] B. Naderi, S.M.T. Fatemi Ghomi, M. Aminnayeri, M. Zandieh, A contribution and new heuristics for open shop scheduling, Computers and Operations Research 137 (2010) 213–221.
[5] B. Naderi, A. Ahmadi Javid, F. Jolai, Permutation flowshops with transportation times: mathematical models and solution methods, International Journal of Advanced Manufacturing Technology, 46 (2010) 631–647.
[6] B. Naderi, M. Zandieh, S.M.T. Fatemi Ghomi, Scheduling job shop problems with sequence dependent setup times, International Journal of Production Research 47(21) (2009) 5959–5976.
[7] B. Naderi, M. Khalili, R. Tavakkoli-Moghaddam, A hybrid artificial immune algorithm for a realistic variant of job shops to minimize the total completion time, Computers and Industrial Engineering 56 (2009) 1494–1501.
[8] B. Naderi, R. Tavakkoli-Moghaddam, M. Khalili, Electromagnetism-like mechanism and simulated annealing algorithms for flowshop scheduling problems minimizing the total weighted tardiness and makespan, Knowledge-Based Systems, 23 (2010) 77–85.
[9] B. Naderi, M. Zandieh, V. Roshanaei, Scheduling hybrid flowshops with sequence dependent setup times to minimize makespan and maximum tardiness, International Journal of Advanced Manufacturing Technology 41 (2009) 1186–1198.
[10] B. Naderi, M. Zandieh, S.M.T. Fatemi Ghomi, A Study on integrating sequence dependent setup time flexible flow line and preventive maintenance scheduling, Journal of Intelligent Manufacturing 20 (2009) 683–694.
[11] R. Tavakkoli-Moghaddam, M. Khalili, B. Naderi, A hybridization of simulated annealing and electromagnetic-like mechanism for job shop problems with machine availability and sequence-dependent setup times to minimize total weighted tardiness, Soft Computing 13 (2009) 995–1006.
[12] B. Naderi, M. Zandieh, S. M. T. Fatemi Ghomi, Scheduling sequence dependent setup time job shops with preventive maintenance, International Journal of Advanced Manufacturing Technology 43 (2009) 170–181.
[13] B. Naderi, M. Zandieh , A. Khaleghi Ghoshe Balaghi, V. Roshanaei, An improved simulated annealing for hybrid flowshops with sequence-dependent setup and transportation times to minimize total completion time and total tardiness, Expert systems with applications 36 (2009) 9625–9633.
[14] V. Roshanaei, B. Naderi, F. Jolai, M. Khalili, A variable neighborhood search for job shop scheduling with setup times to minimize makespan, Future Generation Computer Systems 25 (2009) 654–661.
[15] B. Naderi, S.M.T. Fatemi Ghomi, M. Aminnayeri, A high performing metaheuristic for job shop scheduling with sequence dependent setup times, Applied Soft Computing 10(3) (2010) 703–710.
[16] B. Naderi, M. Khalili, M.T. Taghavifard, V. Roshanaei, A Variable Neighborhood Search for Hybrid Flexible Flowshops with Setup Times Minimizing Total Completion Time. Journal of Applied Sciences, 8 (2008) 2843-2850.
[17] A, Rad, B. Naderi, M. Soltani, Clustering and ranking university majors using data mining and AHP algorithms: a case study in Iran, Expert Systems with Applications, 38(1) (2011) 755–763.
[18] B. Naderi, S.M.T. Fatemi Ghomi, M. Aminnayeri, M. Zandieh, A study on open shop scheduling to minimize total tardiness, International Journal of Production Research, 49(15) (2011) 4657–4678.
[19] B. Naderi, S.M.T. Fatemi Ghomi, M. Aminnayeri, M. Zandieh, Modeling and scheduling open shops with sequence-dependent setup times to minimize total completion time, International Journal of Advanced Manufacturing Technology, 53 (2011) 751–760.
[20] B. Naderi, S.M.T. Fatemi Ghomi, M. Aminnayeri, M. Zandieh, Scheduling open shops with parallel machines to minimize total completion time, Journal of Computational and Applied Mathematics, 235(5) (2011) 1275–1287.
[21] K. Rahmani, M.Molavi, B. Naderi, M. Soltani, A hybridization of simulated annealing and electromagnetic algorithms for flowshop problems with skipping probability, Journal of Applied Sciences, 9 (2009) 2438-2444.
[22] B. Naderi, M. Zandieh, M. Aminnayeri, Incorporating periodic preventive maintenance into flexible flowshop scheduling problems, Applied Soft Computing, 11(2) (2011) 2094–2101.
[23] B. Naderi, Nasser Salmasi, Permutation flowshops in group scheduling with sequence-dependent setup times, European Journal of Industrial Engineering 6(2) (2012) 177–198.
[24] B. Naderi, M. Aminnayeri, M. Piri, M.H. Haeri Yazdi, Multi-objective no-wait flowshop scheduling problems: Models and algorithms, International Journal of Production Research, 50(10) (2012) 2592–2608.
[25] B. Naderi, M. Mousakhani, M. Khalili, Scheduling multi-objective open shop scheduling using a hybrid immune algorithm, International Journal of Advanced manufacturing Technology, 66 (2013) 895–905.
[26] B. Naderi, M. Yazdani, A real multi-objective bin packing problem: a case study of an engine assembly line, The Arabian Journal of Science and Engineering 39 (2014) 5271-5277.
[27] B. Naderi, M. Khalili, A. Arshadi Khamseh, Mathematical models and a hunting search algorithm for the no-wait flowshop scheduling with parallel machines, International Journal of Production Research 52(9) (2014) 2667-2681.
[28] B. Naderi, M. Zandieh, Modeling and scheduling no-wait open shop problems, International Journal of Production Economics 158 (2014) 256-266.
[29] A. Arshadi Khamseh, F. Soleimani, B. Naderi, Pricing decisions for complementary products with firm’s different market powers in fuzzy environments, Journal of Intelligent and Fuzzy Systems, 27(5) (2014) 2327-2340.
[30] B. Naderi, M. Zandieh, M. Yazdani, Polynomial time approximation algorithms for proportionate open shop scheduling, International Transactions in Operational Research, 21(6) (2014) 1031-1044.
[31] B. Naderi, Sh. Gohari, M. Yazdani, Hybrid flexible flowshop problems: models and solution methods, Applied Mathematical Model, 38(24) (2014) 5767-5780.
[32] M. Madani-Esfahani, R. Tavakkoli-Moghaddam, B. Naderi, Multiple cross-docks scheduling using two meta-heuristic algorithms, Computers and Industrial Engineering, 74 (2014) 129–138.
[33] B. Naderi, R. Ruben, A scatter search algorithm for the distributed permutation flowshop scheduling problem, European Journal of Operational Research, 239 (2014) 323-334.
[34] B. Naderi, M. Yazdani, A model and imperialist competitive algorithm for hybrid flow shops with sublots and setup times, Journal of Manufacturing Systems, 33 (2014) 647-653.
[35] B. Naderi, A. Azab, Modeling and heuristics for scheduling of distributed job shops, Expert Systems with Applications, 41 (2014) 7754-7763.
[36] H. Pourvaziri, B. Naderi, A hybrid multi-population genetic algorithm for the dynamic facility layout problem, Applied Soft Computing, 24 (2014) 457-469.
[37] Z. Ardalan, S. Karimi, O. Poursabzi, B. Naderi, A novel imperialist competitive algorithm for generalized traveling salesman problems, Applied Soft Computing, 26 (2015) 546-555.
[38] F. Soleimani, A. Arshadi Khamseh, B. Naderi, Optimal pricing in a dual-channel supply chain under simultaneous demand and production cost disruptions, Annals of Operations Research, (2014) DOI: 10.1007/s10479-014-1675-6.
[39] M. Khalili, B. Naderi, A bi-objective imperialist competitive algorithm for no-wait flexible flow lines with sequence dependent setup times, International Journal of Advanced Manufacturing Technology, 76 (2014) 461-469.
[40] S. Khalifezadeh, M. Seif Barghi, B. Naderi, Solving a fuzzy multi objective model of a production-distribution system using metaheuristic based approaches, Journal of Intelligent Manufacturing Systems, (2014) DOI: 10.1007/s10845-014-0964-x.
[41] M. Yazdani, Sh. Gohari, B. Naderi, Multi-factory parallel machine problems: improved mathematical models and artificial bee colony algorithm, Computers and Industrial Engineering, 81 (2015) 36-45.
[42] M. Yazdani, B. Naderi, M. Mousakhani, A model and metaheuristic for truck scheduling in multi-door cross-dock problems, Intelligent Automation and Soft Computing 4 (2015) 633-644.
[43] S. Khalifezadeh, M. Seif Barghi, B. Naderi, A four-echelon supply chain network design with shortage: Mathematical modeling and solution methods, Journal of Manufacturing Systems 35 (2015) 164-175.
[44] A. Mortezavi, A. Arshadi Khamseh, B. Naderi, A novel chaotic imperialist competitive algorithm for production and air transportation scheduling problems, Neural Computing and Applications, 26 (2015) 1709-1723.
[45] A.A. Tofighian, B. Naderi, Modeling and solving multi objective project selection and scheduling problems, Computers and Industrial Engineering, 83 (2015) 30-38.
[46] B. Naderi, A. Azab, An improved model and novel simulated annealing for distributed job shop problems, International Journal of Advanced Manufacturing Technology, 81 (2015) 693-703.
[47] O. Poursabzi, M. Mohammadi, B. Naderi, A new genetic algorithm-based heuristic to solve the synchronized and integrated lot sizing and scheduling problem in the job shop environment, Caspian Journal of Applied Science Research, 3(2014) 29-42.
[48] R. Esmaeilbeigi, B. Naderi, P. Charkhgard, The type E simple assembly line balancing problem: A mixed integer linear programing formulation, Computers and Operations Research, 64 (2015) 168-177.
[49] M.Aminnayeri, B. Naderi, Novel properties along with solution methods for permutation flowshop scheduling, Scientica Iranica (2015).
[50] M. Keshtzari, B. Naderi, M. Mehdizadeh, An improved mathematical model and a hybrid metaheuristic for truck scheduling in cross-dock problems, Computers and Industrial Engineering, 39 (2015) 197-204.
[51] R. Esmaeilbeigi, B. Naderi, P. Charkhgard, New formulations for the setup assembly line balancing and scheduling problem, OR Spectrum 38 (2016) 493-518.
[52] Z. Ardalan, S. Karimi, B. Naderi, A. Arshadikhamseh, Supply chain networks design with multi-mode demand satisfaction policy, Computers and Industrial Engineering, 96 (2016) 108-117.
[53] S. Karimi, Z. Ardalan, B. Naderi, M. Mohammadi, Scheduling flexible job-shops with transportation times: mathematical models and a hybrid imperialist competitive algorithm, Applied Mathematical Modeelling, -- (2016).
[54] M. Yazdani, B. Naderi, Sh. Rahmani, Sh. Rahmani, Truck routing and scheduling for cross-docking in the supply chain: model and solution method, Rairo – Operations Research, -, (2016).
5-2- مقالات علمی و پژوهشی
[1] B. Naderi, M. Zandieh, S.M.T. Fatemi Ghomi, An iterated greedy algorithm for flexible flow lines with sequence dependent setup times to minimize total weighted completion time, Journal of Optimization in Industrial Engineering, 3 (2009) 33-37.
[2] F. Jolai, M. Zandieh, B. Naderi, A memetic algorithm for hybrid flowshops with flexible machine availability constraints, Journal of Optimization in Industrial Engineering, 3 (2009) 59-64.
[3] M. Khalili, M.J. Tarokh, B. Naderi, Using electromagnetism algorithm for determining number of kanbans in a multi-stage supply chain systems, Journal of Optimization in Industrial Engineering, 6 (2010) 63-72.
[4] B. Naderi, E. Najafi, M. Yazdani, An electromagnetism-like metaheuristic for open shop problems with no buffer, Journal of Industrial Engineering International, 8 (2012) 1-8.
[5] M.Naderi-Beni, Reza Tavakkoli-Moghaddam, B. Naderi, Ehsan Ghobadian, A. Pourrousta, A two-phase fuzzy programming model for a complex bi-objective no-wait flow shop scheduling, International Journal of Industrial Engineering Computations 3 (2012) 617–626.
[6] P. Ghahremani, B. Naderi, Solution algorithms for the project selection and scheduling problem with resource constraints and time dependent returns, International Journal of Industrial and Systems Engineering, (2014).
[7] B. Naderi, H. Sadeghi, A Multi-objective Simulated Annealing Algorithm for Solving the Flexible no-wait Flowshop Scheduling Problem with Transportation, International Journal of Industrial and Systems Engineering 11 (2012) 33-41.
[8] E. Najafi, B. Naderi, H. Sadeghi, M. Yazdani, A mathematical model and a solution method for hybrid flow Shop scheduling, Journal of Optimization in Industrial Engineering 10 (2012) 65-72.
[9] B. Naderi, The project portfolio selection and scheduling problem: mathematical model and algorithms, Journal of Optimization in Industrial Engineering 13 (2013) 65-72.
[10] M. Khalili, B. Naderi, Multi-objective job shop scheduling problem with sequence dependent setup times using a novel metaheuristic, International Journal of Intelligent Engineering Informatics, (2014).
[11] F. Sadeghi Naieni Fard, B. Naderi, A. A. Akbari, Production scheduling and customer orders assignment in a three-level supply chain, ISRN Industrial Engineering, (2014), DOI: 10.1155/2014/163637.
[12] B. Naderi, M. Dabiri, M. Yazdani, Alireza Arshadi Khamseh, Availability analysis for a specific assembly system with intermediate buffers: a case study, Research Journal of Recent Sciences, (2014).
[13] B. Naderi, A. Arshadi, Scheduling a variant of flowshop problems to minimize total tardiness, Technical Journal of Engineering and Applied Sciences, 3(22) (2013) 3142-3149.
[14] B. Naderi, Shadi Rahmani, Shabnam Rahmani, A multi-objective iterated greedy algorithm for truck scheduling in cross-dock problems, Journal of Industrial Engineering (2014), DOI: 10.1155/2014/128542.
[15] B. Naderi, V. Roshanaei, No-idle time scheduling of open shops: modeling and metaheuristic solution methods, International Journal of Supply and Operations Management, 1(1) (2014) 54-68.
[16] A. Khaiamim, A. Mirzazadeh, B. Naderi, A fuzzy model for portfolio updating with transaction cost: A case study in Tehran Exchange, Journal of Operational Research and its Applications, 11(2), (2014) 75-93, (In Farsi).
[17] Z. Salami, B. Naderi, R. Tavakkoli-Moghgaddam, A Multi-Choice Goal Programming for R&D Project Portfolio Selection in the Automotive Manufacturing Industries, Industrial Management Prespective, 9 (2013) 147-167, (In Farsi).
[18] S. Golchin, M. Sharifi, B. Naderi, Batch scheduling in hybrid flow shop problems, Journal of Industrial Engineering and Management, (2015), (In Farsi).
[19] B. Naderi, Modeling and scheduling university course timetabling problems, International Journal of Research in Industrial Engineering, (2015), (In Farsi).
[20] Z. Majd, M. Mohammadi, B. Naderi, Solving the multi-objective flexible job shop scheduling problem by the population-based algorithms, Applied Mathematics in Engineering, Management and Technology, 3 (2015) 148-155.
[21] A. Qharaei, B. Naderi, M. Mohammadi, Optimization of rewards in single machine scheduling in the rewards-driven systems, Management Science Letters, 5 (2015) 629-638.
[22] B. Naderi, A. Azab, Modeling and scheduling a flexible manufacturing cell with parallel processing capability, CIRP Journal of Manufacturing Science and Technology, 11 (2015) 18–27.
[23] O. Takbiri, M. Mohammadi, B. Naderi, The efficiency of bank branches, Management Science Letters, 5 (2015) 1111–1116.
[24] M.A. Barati, M. Mohammadi, B. Naderi, Multi-period fuzzy mean-semi variance portfolio selection problem with transaction cost and minimum transaction lots using genetic algorithm, International Journal of Industrial Engineering Computations, 7 (2016) 217–228.
[25] H. Pouralikhani, M. Mohammadi, B. Naderi, Joint production planning, pricing and inventory control for deteriorating items, International Journal of Service and Operations Management, 2016.
[26] A. Aghazadeh, M. Mohammadi, B. Naderi, Robust bi-objective cost-effective, multi-period, location-allocation organ transplant supply chain, International Journal of Logistics Systems and Management, - (2016).
[27] M. Nouri, M. Mohammadi, B. Naderi, Optimizing Flexible Manufacturing System: A Developed Computer Simulation Model International Journal of Engineering, - (2016).
[28] B. Naderi, Mixed no-wait hybrid flowshop scheduling: models and algorithm, Journal of Industrial Management Studies, - (2016), (In Farsi).
5-3- مقالات کنفرانسی
[1] R. Ruiz, B. Naderi, Variable Neighborhood Descent methods for the Distributed Permutation Flowshop Problem, Multi-Disciplinary Scheduling Conference (MISTA), 2009; Dublin; Ireland.
[2] B. Naderi, M. Jenabi, S.M.T. Fatemi Ghomi, Davoud Talebi, An electromagnetism-like Metaheuristic for Sequence Dependent Open Shop Scheduling, The IEEE Fifth International Conference on Bio-Inspired Computing: Theories and Applications (BIC-TA 2010) University of Hunan, Changsha, China.
[3] M. Jenabi, B. Naderi, S.M.T. Fatemi Ghomi, A bi-objective case of no-wait flowshops, The IEEE Fifth International Conference on Bio-Inspired Computing: Theories and Applications (BIC-TA 2010) University of Hunan, Changsha, China.
[4] R. Tavakkoli-Moghaddam, M. Khalili, B. Naderi, Solving a variable neighborhood search method for a flowshop scheduling problem to minimize makespan, Proceedings of the 1st International Conference on Applied Operational Research (ICAOR), 2008; Armenia.
[5] B. Naderi, S. M. H. Salimi, K. Booroshan, A hybrid model for production innovation process with value engineering, International Conference on Problem Solving Strategy and Techniques, 2006; Tehran, Iran (In Farsi).
[6] M. Khalili, B. Naderi, M. B. Aryanejad, An immune algorithm for flexible flowshops with transportation times, International Conference of Iranian Operations Research Society, 2008; Kish Island, Iran (In Farsi).
[7] M. Khalili, B. Naderi, R. Tavakkoli-Moghaddam, Flowshop problems with travel times to minimize mean completion time using advanced metaheuristics, International Conference of Iranian Operations Research Society, 2008 ; Kish Island, Iran (In Farsi).
[8] M. Khalili, B. Naderi, An immune algorithm to minimize mean completion time for flowshops with transportation times, National Conference of supply and procurement in projects, 2008; Tehran, Iran (In Farsi).
[9] B. Naderi, M.S.T. Fatemi Ghomi, Solving hybrid flowshops with sequence-dependent setup times, Annual Conference of Industrial Engineering, 2009; Amirkabir University, Tehran, Iran.
[10] S. Khalifeh Zadeh, M. Seif Barghi, B. Naderi, A particle swarm optimization for solving an integrated production-distribution problem, International Conference on nonlinear modeling and optimization, 2012; Shomal University, Mazandaran, Iran (In Farsi).
[11] M. Keshtzari, B. Naderi, E. Mehdizadeh, A hybrid metaheuristic for truck scheduling in crossdocks, 9th International Conference of Industrial Engineering, 2013, Tehran, Iran (In Farsi).
[12] M. Matani, B. Naderi, S. Avakh, 6th International Conference of Iranian Operations Research Institute, 2013, Mazandaran, Iran (In Farsi).
[13] M. Samanipour, B. Naderi, A multi-objective artificial bee colony algorithm for group scheduling in flow shop, 10th International Conference of Industrial Engineering, 2014, Tehran, Iran (In Farsi).
[14] S.M. Sajadi, R. Tavakkoli-Moghaddam, B. Naderi, A branch-and-bound procedure for renewable and non-renewable resource constrained project selection and scheduling problem, 10th International Conference of Industrial Engineering, 2014, Tehran, Iran (In Farsi).
[15] R. Ruben, B. Naderi, Scatter search based methods for a distributed flow shop scheduling problem, 14th International Conference on Project Management and Scheduling, 2014, Munich, Germany.
[16] B. Naderi, A. Azab, A variable neighborhood search metaheuristic for cellular manufacturing with multitask machine tools, 2th International Conference on Ramp-Up Management, 2014, Aachen, Germany.
[17] A. Azab, B. Naderi, Greedy heuristics for distributed job shop problems, 2th International Conference on Ramp-Up Management, 2014, Aachen, Germany.
[18] A. Azab, B. Naderi, Modeling Reconfigurable Manufacturing Technology, 9th CIRP Conference on Intelligent Computation in Manufacturing Engineering, 2014, Naples, Italy.
[19] S. Golchin, B. Naderi, A model for hybrid flow shops with batch scheduling, National Conference on Researches of Industrial Engineering, 2014, Hamedan, Iran (In Farsi).
[20] M. Selsipour, B. Naderi, National Conference on Researches of Industrial Engineering, 2014, Hamedan, Iran (In Farsi).
[21] A.H. Hoseini, B. Naderi, A model for financial supply chain in uncertain situations, 11th International Journal of Industrial Engineering Conference, 2015, Tehran, Iran (In Farsi).
[22] M. Mahabadipour, B. Naderi, M. Mohammadi, Modeling an assembly flow-shop with sequence dependent setup times to minimize sum of holding and delay costs, 11th International Journal of Industrial Engineering Conference, 2015, Tehran, Iran (In Farsi).
5-4- کتاب:
1- مدیریت و کنترل موجودی دکتر آریاننژاد، ایرانپور، کیانفر، نادری انتشارات دانشگاه آزاد اسلامی
6- سوابق طرحهای پژوهشی
1- اولويتبندي تخصصهاي مورد نياز کشور بنیاد شهید
2- مدل تلفیقی EFQM و BSC ایرانخودرو
3- برنامهریزی و ظرفیتسنجی فعالیتهای Logistics خط تولید یک سالن ایرانخودرو
4- مدل استقرار چرخه مدیریت دانش در یک واحد صنعتی سازمان هوا و فضا
بیوگرافی
تحصیلات
برخی از دروس ارائه شده تاکنون
- تئوري توالي عمليات ,
- روش تحقيق وسمينار ,
- مباحث منتخب ,
- تئوري توالي عمليات ,
- برنامه ريزي متغييرهاي صحيح ,
- روش تحقيق و سمينار ,
- روش هاي آماري ,
- برنامه ريزي متغييرهاي صحيح ,
- الگوريتم هاي فرا ابتكاري ,
- مديريت مالي ,
- احتمال و آمار مهندسي ,
- روشهاي آماري ,
- كاربرد الگوريتم هاي فرا ابتكاري ,
- پروژه ,