Faruk Seri̇n scite author profile

Human and Ecological Risk Assessment: An International Journal

et al. 2018

Robotic disassembly line balancing problem: A mathematical model and ant colony optimization approach

Çil

Applied Mathematical Modelling

2020

A decision-support system based on Pythagorean fuzzy VIKOR for occupational risk assessment of a natural gas pipeline construction

Journal of Natural Gas Science and Engineering

et al. 2019

An efficient algorithm for U-type assembly line re-balancing problem with stochastic task times

Çelik

2019

Purpose Changing the product characteristics and demand quantity resulting from the variability of the modern market leads to re-assigned tasks and changing the cycle time on the production line. Therefore, companies need re-balancing of their assembly line instead of balancing. The purpose of this paper is to propose an efficient algorithm approach for U-type assembly line re-balancing problem using stochastic task times. Design/methodology/approach In this paper, a genetic algorithm is proposed to solve approach for U-type assembly line re-balancing problem using stochastic task times. Findings The performance of the genetic algorithm is tested on a wide variety of data sets from literature. The task times are assumed normal distribution. The objective is to minimize total re-balancing cost, which consists of workstation cost, operating cost and task transposition cost. The test results show that proposed genetic algorithm approach for U-type assembly line re-balancing problem performs well in terms of minimizing total re-balancing cost. Practical implications Demand variation is considered for stochastic U-type re balancing problem. Demand change also affects cycle time of the line. Hence, the stochastic U-type re-balancing problem under four different cycle times are analyzed to present practical case. Originality/value As per the authors’ knowledge, it is the first time that genetic algorithm is applied to stochastic U-type re balancing problem. The large size data set is generated to analyze performance of genetic algorithm. The results of proposed algorithm are compared with ant colony optimization algorithm.

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A novel overlapped nuclei splitting algorithm for histopathological images

Computer Methods and Programs in Biomedicine

Erturkler

Gül

2017

Fine–Kinney-Based Occupational Risk Assessment Using Intuitionistic Fuzzy TODIM

Gül

et al. 2020

Energy Sources, Part A: Recovery, Utilization, and Environmenta

Forecasting daily natural gas consumption with regression, time series and machine learning based methods

Yücesan

Pekel

Çelik

et al. 2021