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  • دکتری (1388)

    مهندسی صنایع

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  • مدلسازي رياضي و رويکردهاي الگوريتميک در زمينه:‏ ‏-‏ مهندسي لجستيک و شبکه تامين ‏-‏ برنامه ريزي توليد و زمانبندي عمليات ‏ ‏-‏ مکانيابي تسهيلات ‏-‏ مديريت درآمد و قيمت گذاري ‏-‏ مسائل گروه‌بندي
  • تصميم گيری چندشاخصه داده محور و توسعه روش‌هاي جديد در تصميم‌گيري چند شاخصه و کاربرد ‏آنها در مسائل ‏تصميم‌گيري
  • هوش محاسباتي و توسعه الگوريتمهاي الهام گرفته از طبيعت براي حل مسايل مهندسي
  • بهينه سازي ترکيبي و الگوريتمهاي تقريبي
  • مدلهاي احتمالي و بهينه‌سازي مبتني بر شبيه‌سازي

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    رزومه

    A bi-objective simulation-based optimization approach for optimizing price, warranty, and spare part production decisions under imperfect repair

    Mohsen Afsahi, Ali Husseinzadeh Kashan, Bakhtiar Ostadi
    Journal PapersInternational Journal of Information Technology & Decision Making , 2021 March 2, {Pages }

    Abstract

    This paper proposes an efficient methodology based on the Monte-Carlosimulationbased bi-objective optimization, to determine base-warranty and extended warranty parameters based on the product lifecycle. The first objective, which is from the manufacturer’s perspective, maximizes the profit while the second objective minimizes the expected number of failures that occurred during the out-of-warranty period. The manufacturer can rectify failed products via minimal repair, imperfect repair and perfect repair. The optimization model has decision variables including the product price, base warranty length, extended warranty length, extended warranty price, product failure rate, imperfect repair level, and spare part production rate in each tim

    A hybrid approach for joint optimization of base and extended warranty decisions considering out-of-warranty products

    Mohsen Afsahi, Ali Husseinzadeh Kashan, Bakhtiar Ostadi
    Journal PapersApplied Mathematical Modelling , 2021 February 11, {Pages }

    Abstract

    In practice, manufacturers who offer base and extended warranty should make simultaneous decisions on product pricing, spare part pricing for out-of-warranty products, base and extended warranty policy, and spare part inventory management. Previous studies neither considered the influence of out-of-warranty products as one of the main sources of manufacturers’ profit nor optimized these decisions in an integrated model. In this paper, these challenges are addressed by introducing an optimization model to maximize the manufacturer's profit. A new math-heuristic algorithm is proposed for solving the model using the hybridization of metaheuristic algorithms with a developed dynamic programming algorithm. To generate a new solution within the

    A multi-objective model for resource allocation in disaster situations to enhance the organizational resilience and maximize the value of business continuity with considering?…

    Bakhtiar Ostadi, Mohammad Mahdi Seifi, Ali Husseinzadeh Kashan
    Journal PapersProceedings of the Institution of Mechanical Engineers, Part O: Journal of Risk and Reliability , 2021 February 5, {Pages 1748006X21991027 }

    Abstract

    Industry-related risks are increasing due to the growing expansion of industries. Each of these risks can have a natural origin (such as earthquakes, flood, and fire) or human origin (such as terrorist attacks, contagious diseases, and intentional or inadvertent mistakes of staff). In this regards, business Continuity Management (BCM) is a comprehensive method to identify risks and reduce the consequent impacts on the organizations’ activities. Essential aspects of BCM includes retrieval of products after disruptive events and resource allocation. Obviously, in each organization, the fundamental objective is to allocate the least amount of resources for retrieving operations and minimizing costs, as well as, restoring activities to the to

    Correction to: An efficient solution method for an agri-fresh food supply chain: hybridization of Lagrangian relaxation and genetic algorithm.

    Navid Nasr, Seyed Taghi Akhavan Niaki, Ali Husseinzadeh Kashan, Mehdi Seifbarghy
    Journal PapersEnvironmental Science and Pollution Research International , 2021 May 3, {Pages }

    Abstract

    Europe PMC is an archive of life sciences journal literature.

    Pareto-based grouping meta-heuristic algorithm for humanitarian relief logistics with multistate network reliability

    Maliheh Khorsi, Seyed Kamal Chaharsooghi, Ali Husseinzadeh Kashan, Ali Bozorgi-Amiri
    Journal PapersOR Spectrum , 2021 April 29, {Pages Jan-39 }

    Abstract

    This article considers a biobjective location-routing problem to deliver relief resources to the victims affected by a disaster under uncertainty in demand, transportation infrastructure, and travel time. Since transportation networks are exposed to a considerable level of uncertainty, choosing the reliable path for relief goods to be transmitted to the affected areas ensures the arrival of these supplies. For the first time, route reliability is calculated based on the multistate theory, and the universal generating function technique is used for network reliability assessment. The problem is formulated as a multiperiod robust biobjective mixed-integer programming model. Two objective functions are considered:(a) decreasing the sum of arri

    A fuzzy rule-based multi-criterion approach for a cooperative green supplier selection problem

    P Rafigh, AA Akbari, HM Bidhendi, AH Kashan
    Journal Papers , , {Pages }

    Abstract

    An Agri-Fresh Food Supply Chain Network Design with Routing Optimization: A Case Study of ETKA Company

    N Nasra, STA Niaki, AH Kashanc, M Seifbarghyd
    Journal Papers , , {Pages }

    Abstract

    Sustainable closed-loop supply chain network under uncertainty: a response to the COVID-19 pandemic

    P Rafigh, AA Akbari, HM Bidhandi, AH Kashan
    Journal Papers , , {Pages }

    Abstract

    The League Championship Algorithm: Applications and Extensions

    AH Kashan, A Balavand, S Karimiyan, F Soleimani
    Journal Papers , , {Pages }

    Abstract

    Developing an iterative procedure to estimate origin-destination matrix based on two-point license plate tracking system

    M Teimouri, M Sheikhmohammady, A Husseinzadeh Kashan, AA Shojaie
    Journal Papers , , {Pages }

    Abstract

    A multi-objective model for resource allocation in disaster situations to enhance the organizational resilience and maximize the value of business continuity with considering …

    B Ostadi, MM Seifi, A Husseinzadeh Kashan
    Journal Papers , , {Pages }

    Abstract

    The Find-Fix-Finish-Exploit-Analyze (F3EA) Meta-Heuristic Algorithm with an Extended Constraint Handling Technique for Constrained Optimization

    AH Kashan, A Balavand, S Karimiyan
    Journal Papers , , {Pages }

    Abstract

    Risk-based optimal bidding patterns in the deregulated power market using extended Markowitz model

    Bakhtiar Ostadi, Omid Motamedi Sedeh, Ali Husseinzadeh Kashan
    Journal PapersEnergy , Volume 191 , 2020 January 15, {Pages 116516 }

    Abstract

    Deregulation of power industry has entailed important changes in the energy market. With the power industry being restructured, a generation company (GenCo) sells energy through auctions in a daily market, and submission of the appropriate amount of electricity with the right bidding price is important for a GenCo to maximize their profits and minimize the acceptance risk. The objective of this paper is to propose a novel approach for determination of the optimal biding patterns among GenCos in the deregulated power market using a hybrid of Markowitz Model and Genetic Algorithm (GA). While Markowitz Model as an optimization model considers the risk premium for biding patterns and GA as a search engine, considering the acceptance risk in der

    A Package Including Pre-processing, Feature Extraction, Feature Reduction, and Classification for MRI Classification

    Alireza Balavand, Ali Husseinzadeh Kashan
    Journal Papers , 2020 January , {Pages 51-68 }

    Abstract

    Ensemble decomposition techniques, especially the one-vs-one (OVO) strategy, that divide the data into binary subsets in classification, and the classification of binary subsets usually provides more precision in the classification. This is the reason for developing a new algorithm for tumor classification with high precision. In this paper, we propose a framework for classification of 900 magnetic resonance images (MRI). The algorithm includes four main steps: in the first step, the pre-processing operation is performed on the images using the histogram equalization method. In the second step, seven features using the gray-level co-occurrence matrix (GLCM) method and 1000 features using a pre-trained convolutional neural netwo

    Mathematical formulation and heuristic algorithms for optimisation of auto-part milk-run logistics network considering forward and reverse flow of pallets

    Farivar Ranjbaran, Ali Husseinzadeh Kashan, Abolfazl Kazemi
    Journal PapersInternational Journal of Production Research , Volume 58 , Issue 6, 2020 March 18, {Pages 1741-1775 }

    Abstract

    The operational planning of distribution network for automotive industry is complex with many conditions to consider, including heterogeneous fleet, enforcing the feasibility of 3D-packing of pallets into vehicles to address the vehicle's capacity in terms of weight and volume, compatibility of orders in a vehicle, returning empty pallets from assembly-plants backwards to suppliers, and delivery time windows. A mathematical model (MILP) is proposed that takes account of these conditions to minimise total transportation costs. The network structure can be a combination of direct shipment and milk-run for both forward and reverse flow of pallets. The model is solved optimally for small-size problems. For solving larger problems, a heuristic a

    Optimizing decisions on under-and out-of-warranty products in a finite planning horizon

    Mohsen Afsahi, A Husseinzadeh Kashan, Bakhtiar Ostadi
    Journal PapersScientia Iranica. Transaction E, Industrial Engineering , Volume 27 , Issue 1, 2020 February 1, {Pages 494-515 }

    Abstract

    In this paper, we consider a manufacturer that produces products in a finite horizon time and sells products with non-renewing Free Replacement Warranty (FRW) policy. The manufacturer is responsible to provide spare parts for failed products, whether the products are under or out of warranty. Previous research on warranty optimization has focused on maximizing manufacturer profit without considering the spare parts market for out-of-warranty products. This study proposes a novel nonlinear model that maximizes manufacturer profit by optimization of price, warranty length, and spare parts inventory for under-and out-of-warranty products in a manufacturing/remanufacturing system. Due to the unique structure of the model, we propose a new two-s

    Dynamic pricing in a semi-centralized dual-channel supply chain with a reference price dependent demand and production cost disruption: the case of Iran Khodro Company

    Farnia Zarouri, Seyed Hessamedin Zegordi, Ali Husseinzadeh Kashan
    Journal PapersScientia Iranica , 2020 April 14, {Pages }

    Abstract

    During the years of imposed sanctions against Iran, Iran Khodro Company (IKCO) got into a hazardous situation due to CKD parts’ purchasing cost increment and emersion of new product variants in the competitive market. To examine such situation, this study examines a multi-period semi-centralized dual-channel supply chain where a common retailer (free market) and two manufacturers’ (IKCO and Saipa as a major competitor) direct channels are confronted with reference price dependent and stochastic demand. The problem is analyzed under Stackelberg and cooperative games scenarios using heuristic algorithm and a League Championship algorithm respectively, as solution methods. Results obtained from solving the problem with IKCO data proves hig

    An effective league championship algorithm for the stochastic multi-period portfolio optimization problem

    Ali Husseinzadeh Kashan, Mohammad Eyvazi, Amin Abbasi-Pooya
    Journal PapersScientia Iranica , Volume 27 , Issue 2, 2020 April 1, {Pages 829-845 }

    Abstract

    The multi-period portfolio optimization models were introduced to overcome the weaknesses of the single-period models via considering a dynamic optimization system. However, due to the nonlinear nature of the problem and rapid growth of the size complexity with increasing the number of periods and scenarios, this study is devoted to developing a novel league championship algorithm (LCA) to maximize the portfolio’s mean-variance function subject to different constraints. A Vector Auto Regression model is also developed to estimate the return on risky assets in different time periods and to simulate different scenarios of the rate of return accordingly. Besides, we proved a valid upper bound of the objective function based on the idea of us

    A sustainable multi-objective framework for designing and planning supply chain of natural gas components

    Javad Zarei, Mohammad Reza Amin-Naseri, Amir Hossein Fakehi Khorasani, Ali Husseinzadeh Kashan
    Journal PapersJournal of Cleaner Production , 2020 February 28, {Pages 120649 }

    Abstract

    Concerns about environmental and social issues have led international organizations to pressure companies to invest in sustainable development. Therefore, economic, environmental and social dimensions should be taken into account simultaneously in energy supply planning and policy making. Additionally, one of the world's major sources of energy is natural gas with valuable hydrocarbon components. Since the change in demand for one of these components and the consequent change in natural gas extraction affect the other components, integrated planning for the supply chain of these components is required. Accordingly, the purpose of this study is to design and plan an optimal and sustainable supply chain for natural gas components in order to

    Developing a Mathematical Negotiation Mechanism for a Distributed Procurement Problem and a Hybrid Algorithm for its Solution

    Zohreh Kaheh, Reza Baradaran Kazemzadeh, Ellips Masehian, Ali Husseinzadeh Kashan
    Journal PapersarXiv preprint arXiv:2006.13140 , 2020 June 12, {Pages }

    Abstract

    Considering the players' bargaining power, designing a bi-level programming model is suitable to reflect the hierarchical nature of the decision-making process. In this paper, typical negotiation components perfectly match with the mathematical model and its solution procedure. For this purpose, a mathematical negotiation mechanism is designed to minimize the negotiators' costs in a distributed procurement problem at two echelons of an automotive supply chain. The buyer's costs are procurement cost and shortage penalty in a one-period contract. On the other hand, the suppliers intend to solve a multi-period, multi-product production planning to minimize their costs. Such a mechanism provides an alignment among suppliers' production planning

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    دروس نیمسال جاری

    • دكتري
      برنامه ريزي غير خطي ( واحد)
      دانشکده مهندسی صنایع و سیستم‌ها، گروه مهندسي صنايع
    • كارشناسي ارشد
      مدل هاي زمانبندي و بهينه سازي حمل و نقل ( واحد)
    • كارشناسي ارشد
      شبيه سازي كامپيوتري ، مدل سازي و بهينه سازي ( واحد)

    دروس نیمسال قبل

    • كارشناسي ارشد
      اصول مهندسي لجستيك و زنجيره تامين ( واحد)
      دانشکده مهندسی صنایع و سیستم‌ها، گروه سيستم هاي اقتصادي اجتماعي
    • كارشناسي ارشد
      برنامه ريزي عدد صحيح ( واحد)
    • 1400
      مشرفي نبي كندي, ميلاد
      بهينه سازي زمانبندي توليد روغن پايه با در نظر گرفتن موجودي مخازن در صنعت نفت
    • 1400
      منصوري, الهه
    • 1397
      نيكخو, فاطمه
      مدل رياضي براي يكپارچه سازي تصميمات دسته بندي و مسيريابي سفارشات در سيستم برداشت سفارش چند انباره
    • 1398
      سلامتي هرمزي, حميد
      داده ای یافت نشد
      داده ای یافت نشد

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