@article { author = {Zeybek, Hulya}, title = {Service Quality and its Importance for Rail Freight Customers}, journal = {International Journal of Transportation Engineering}, volume = {7}, number = {2}, pages = {115-126}, year = {2019}, publisher = {Tarrahan Parseh Transportation Research Institute}, issn = {2322-259X}, eissn = {2538-3728}, doi = {10.22119/ijte.2018.147010.1429}, abstract = {Liberalisation process has just started in the Turkish rail market with the new law recently entered into force in order to comply with EU Directives. In the liberalised markets, service quality is the decisive factor that rail undertakings can use to create difference and achieve competitive advantages. The purpose of this paper is to analyse the customer perceived service quality for rail freight transport and to highlight the important service quality gaps that must be dealt in the process of market liberalisation. The analysis is based on the findings of the survey conducted by interviewing rail stakeholders to understand their perceptions on rail service quality. The results of the research revealed that the widest quality gap relates to “transit time” which is perceived as the most important dimension of the operational quality of the freight services. It was identified that forwarders’ service quality perception is lower than that of shippers.}, keywords = {rail freight,Service Quality,stakeholder perceptions,Servqual,liberalisation}, url = {http://www.ijte.ir/article_88971.html}, eprint = {http://www.ijte.ir/article_88971_e1359b66e8ce9b8700051574c2c047df.pdf} } @article { author = {Edrissi, Ali and Askari, Moein and Smaniotto Costa, Carlos}, title = {Electric-vehicle car-sharing in one-way car-sharing systems considering depreciation costs of vehicles and chargers}, journal = {International Journal of Transportation Engineering}, volume = {7}, number = {2}, pages = {127-138}, year = {2019}, publisher = {Tarrahan Parseh Transportation Research Institute}, issn = {2322-259X}, eissn = {2538-3728}, doi = {10.22119/ijte.2018.121054.1395}, abstract = {In recent years, car-sharing systems have been announced as a way to increase mobility and to decrease the number of single-occupant vehicles, congestion, and air pollution in many parts of the world. This study presents a linear programming model to optimize one-way car-sharing systems for electric cars considering the depreciation costs of chargers and vehicles as well as relocation cost of vehicles. In this way, the objective function consists of imposed costs to the system due to the depreciation cost of vehicles, depreciation cost of chargers, and relocation cost of vehicles. Also, the rate of depreciation and the cost of relocation is considered constant in this study. The model was implemented on small and big test networks with 2 and 100 nodes with variable parameters and demand patterns. The results indicated that managing the fleet of vehicles by relocating the vehicles among stations increases the inventory at each station and minimizes the cost for meeting all requests. Also, the results indicated that the number of required vehicles decrease with an increase in charge levels and final cost increase with an increase in depreciation rate.}, keywords = {carsharing systems,one-way carsharing,Linear Programming,electric vehicles,Vehicle}, url = {http://www.ijte.ir/article_91271.html}, eprint = {http://www.ijte.ir/article_91271_cb3cd2ef684cfbe18a138aedba9cd505.pdf} } @article { author = {Ehsani Sohi, Majid and Dashtestaninejad, Hossein and Khademi, Elaheh}, title = {Effects of Roadway and Traffic Characteristics on Accidents Frequency at City Entrance Zone}, journal = {International Journal of Transportation Engineering}, volume = {7}, number = {2}, pages = {139-152}, year = {2019}, publisher = {Tarrahan Parseh Transportation Research Institute}, issn = {2322-259X}, eissn = {2538-3728}, doi = {10.22119/ijte.2018.130189.1404}, abstract = {More than 60% of accidents in Iran occur within 30 kilometers of cities entrance roads. Therefore the number of accidents per kilometer in these regions, in contrast to the other parts of roads is very considerable. The city of Tehran, as the capital of Iran, is the cross point of major arterials of passenger and freight transportation. Thus the evaluation of road safety, entering and exiting the city in the 30 kilometers buffer, can be considered to improve countrywide road safety. To investigate the effects of roadway characteristics and traffic conditions, including number of traffic violations, on accident frequency within 30 km of Tehran entrance roads, Poisson and Negative Binomial regression model were calibrated in this study. Although the goodness of fit index in Poisson model is much greater than the Negative Binomial model, the accident data dispersion in this study implies that Negative Binomial model is more appropriate to show the influences of effective variables. According to results of modeling, the variables including average daily volume, share of heavy vehicles, average daily speed violations and number of direct accesses and interchanges have effective influence on accident frequencies. Controlling access to roads and using effective actions to reduce the speed and number of speed violation can be accounted as effective policies to reduce accident frequencies within 30 km of Tehran entrance roads.}, keywords = {Accident frequency modeling,City entrance zone,Poisson and Negative Binomial regression models,Speed violations,Reducing Speed and controlling access}, url = {http://www.ijte.ir/article_91269.html}, eprint = {http://www.ijte.ir/article_91269_cf5aa37c205a6daccf1897ddf1035e51.pdf} } @article { author = {Tamannaei, Mohammad and Fazeli, Majid and Chamani Foomani Dana, Amir and Mansourianfar, Hadi}, title = {Transit Signal Priority: Proposing a Novel Algorithm to Decrease Delay and Environmental Impacts in BRT Route Intersections}, journal = {International Journal of Transportation Engineering}, volume = {7}, number = {2}, pages = {153-169}, year = {2019}, publisher = {Tarrahan Parseh Transportation Research Institute}, issn = {2322-259X}, eissn = {2538-3728}, doi = {10.22119/ijte.2019.147134.1430}, abstract = {Intersections are considered as the most critical parts of the bus rapid transit (BRT) system. Transit signal priority is one of the efficient solutions to reduce BRT fleet delays at intersections. The aim of this study is to propose a new algorithm to decrease the BRT fleet delays at actuated intersections, while reducing the negative impacts on different approaches. The adaptive strategy is applied in this study. In the proposed algorithm, named TSPAT (Transit Signal Priority for Actuated Timing), intersection phasing is rescheduled, based on traffic conditions such as phase conditions at the time of bus arrival, the queue length of other approaches, and prioritization record in a specific time length. To assess the merits of the proposed algorithm, a before-after study is executed by applying VISSIM traffic simulation software for an actuated intersection in Isfahan city, Iran. The simulation results show that by applying the algorithm, the average delay of BRT fleets is declined by 21 % and 51% in peak and off-peak hours, respectively. Furthermore, the average speed of BRT fleets is increased by 26% and 78%, during peak and off-peak hours, respectively. The utilization of TSPAT algorithm can improve the desirability of the public transportation system along the BRT routes.}, keywords = {Transit Signal Priority,Actuated Timing,Intersection,bus rapid transit,Algorithm}, url = {http://www.ijte.ir/article_88970.html}, eprint = {http://www.ijte.ir/article_88970_dc1c7d8d581ae5fe55bd316d86da10b0.pdf} } @article { author = {Korani, Ehsan and Eydi, Alireza and Nakhai, Isa and Mohammadian, Kouros}, title = {Logical selection of potential hub nodes in location of strategic facilities by a hybrid methodology of Data Envelopment Analysis and Analytic Hierarchical Process: Iran Aviation case study}, journal = {International Journal of Transportation Engineering}, volume = {7}, number = {2}, pages = {171-193}, year = {2019}, publisher = {Tarrahan Parseh Transportation Research Institute}, issn = {2322-259X}, eissn = {2538-3728}, doi = {10.22119/ijte.2018.127685.1400}, abstract = {Hub facility location problem looks to find the most appropriate location for deploying such facilities. An important factor in such a problem is the pool of potential locations from which the optimal locations must be selected. The present research was performed to address two key objectives: identifying the factors contributing to the selection locations for hub establishment, and presenting an efficient methodology for assessing the efficiency and effectiveness of each node, followed by selecting optimal nodes for establishing potential hubs. The paper begins with a review on related literature, leading to identification and classification of the most important factors and criteria for a hub based on the required features in transportation systems. Subsequently, in order to assess all nodes, the identified factors were grouped into input and output criteria, with the extended Data Envelopment Analysis used to assess the efficiency of the nodes. Moreover, the assessment accuracy was enhanced by weighting the input and output criteria using Analytic Hierarchy Process. A significant achievement of this research was the innovative combination of Analytic Hierarchical Process and Data Envelopment Analysis by presenting a scientific model in the form of a heuristic pair-wise comparison matrix followed by adopting power eigenvector methodology. The result of this hybrid approach highlighted the nodes upon which unavailability the efficiency of other nodes was significantly affected, and new rankings of the nodes upon such unavailability. In order to validate the findings, Iranian Airport Dataset (IAD) was used.}, keywords = {Hub Location,Data Envelopment Analysis,Most efficient,Analytic hierarchical process}, url = {http://www.ijte.ir/article_91270.html}, eprint = {http://www.ijte.ir/article_91270_6c3e83f8106be148c607d3566406c6c1.pdf} } @article { author = {Rabbani, Masoud and Taghi-Molla, Ali and Farrokhi-Asl, Hamed and Mobini, Mahdi}, title = {Sustainable vehicle-routing problem with time windows by heterogeneous fleet of vehicles and separated compartments: Application in waste collection problem}, journal = {International Journal of Transportation Engineering}, volume = {7}, number = {2}, pages = {195-216}, year = {2019}, publisher = {Tarrahan Parseh Transportation Research Institute}, issn = {2322-259X}, eissn = {2538-3728}, doi = {10.22119/ijte.2019.94586.1361}, abstract = {The purpose of this study is solving a sustainable vehicle routing problem (VRP) which in this problem special features such as mixed close–open VRP, multi-depot VRP and some others which will be discussed in this section are considered for achieving closer to real life applications. Fleets of vehicle studied in this paper are heterogeneous and for each vehicle separated compartments with different capacity for each type of wastes is took into consideration. Vehicles have different limitation on traveling time, different fixed and variable cost and amount of pollutants that is emitted from them. For achieving a sustainable VRP economic, environment and society aspects should considered simultaneously which in this paper objective functions (1) to (3) respectively are about mentioned purposes; first one minimizes the cost of collecting wastes from customer’s location, second one minimizes the pollutants which are emitted from vehicles while they are collecting wastes and finally third one minimizes violation from time limitations which are exist on each customer’s location. A new mathematical mixed integer programming model is developed for solving this problem and problem is solved by CPLEX solver and augmented ɛ-constraint method. Moreover, AHP technique for making decisions is applied in order to help us to choose the best decision. Finally, sensitivity analysis is done on some important parameters.}, keywords = {Waste collection,close-open mixed VRP,augmented ɛ-constraint,AHP technique,Sensitivity analysis}, url = {http://www.ijte.ir/article_89869.html}, eprint = {http://www.ijte.ir/article_89869_04ac28ebde881901012fe49ffff6f8f1.pdf} } @article { author = {Aghamohamadi, Soroush and Tavakkoli-Moghaddam, Reza and Rahimi, Yaser and Memari, Pedram}, title = {A fuzzy two-stage capacitated continuous p-centmedian vehicle routing problem: A self-adaptive evolutionary}, journal = {International Journal of Transportation Engineering}, volume = {7}, number = {2}, pages = {217-232}, year = {2019}, publisher = {Tarrahan Parseh Transportation Research Institute}, issn = {2322-259X}, eissn = {2538-3728}, doi = {10.22119/ijte.2018.105564.1376}, abstract = {In this paper, a two-stage continuous p-center and p-median (namely p-centmedian) problem is developed. In the first step, a location problem is studied to compare the differences between the p-center and p-median by considering facility disruption. P-center problems are common in emergency situations with aim of minimizing the maximum distance between the facilities and costumers, while p-median problem aim is to minimize the total spent distance. Moreover, an integer linear programming is developed to deal with a time-window multi-depot capacitated vehicle routing problem in order to optimize the flows between facilities. This paper compares the mentioned p-center and p-median effects along with the vehicle routing problem as a two-step integrate problem. Since both steps are NP-hard, to deal with the problem in both stages a possibilistic programming, fuzzy single-objective programming is developed and solved by an efficient algorithm, namely self-adaptive differential evolution algorithm. Considering demand as a fuzzy parameter is an important factor and makes the problem more realistic, this feature is more considerable in emergency situations such as p-center problems. To improve the performance of results, the Taguchi method is used. In order to validate the results of the mentioned algorithms of small-sized test problems are compared with GAMS, also other valid meta-heuristics are developed to be compared with the proposed algorithm in large-sized problems. The results show the capability of algorithm to generate near-optimal solutions. Also, the results demonstrate the p-median problem is more volatile against variation in the parameters while the p-center problem is more expensive.}, keywords = {p-Median and p-Center problem,Capacitated vehicle routing,Taguchi method,Fuzzy set,Differential evolution}, url = {http://www.ijte.ir/article_69686.html}, eprint = {http://www.ijte.ir/article_69686_6be6cb6e3487b1c6711e6677cd5c74a0.pdf} }