Search results for "Fleet management"

showing 7 items of 7 documents

EV-planning: Electric vehicle itinerary planning

2014

International audience; In the latest few years, lot of efforts have been done to pave the way to sustainable mobility, in order to solve pollution problems and fuel shortage. The use of electric vehicles (EV) is considered as one of the best ecologic and economic solution. However, autonomy barriers and limitations slow the progress and the deployment of this technology. In this paper, we propose an advanced electric vehicles' fleet management architecture. This architecture considers the most important factors that can affect the traveling mode of electric vehicles, in order to offer different services to fleet management companies for an efficient monitoring and management of their fleet…

Service (systems architecture)Engineeringbusiness.product_category[SPI] Engineering Sciences [physics]Economicstraffic engineering computingServers0102 computer and information sciences02 engineering and technologyElectric vehicle01 natural sciences7. Clean energyTransport engineeringsecondary cellsUploadBatteries[SPI]Engineering Sciences [physics]ServerGlobal Positioning System11. SustainabilityElectric vehicle0202 electrical engineering electronic engineering information engineeringComputer architectureComputingMilieux_MISCELLANEOUSelectric vehiclesItinerary planningInternetGreen services and vehicular communicationsbusiness.industry020208 electrical & electronic engineeringroad trafficpower consumptionElectric charging stationsRoadselectric power consumption and computation010201 computation theory & mathematics13. Climate actionSoftware deploymentGlobal Positioning SystemNet-work architectureFleet managementElectric powerbusinessFleet management
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Sustainable Transportation Management System for a Fleet of Electric Vehicles

2015

In the last few years, significant efforts have been devoted to developing intelligent and sustainable transportation to address pollution problems and fuel shortages. Transportation agencies in various countries, along with several standardization organizations, have proposed different types of energy sources (such as hydrogen, biodiesel, electric, and hybrid technologies) as alternatives to fossil fuel to achieve a more ecofriendly and sustainable environment. However, to achieve this goal, there are significant challenges that still need to be addressed. We present a survey on sustainable transportation systems that aim to reduce pollution and greenhouse gas emissions. We describe the ar…

EngineeringStandardizationbusiness.industryMechanical EngineeringEnvironmental economicsGreen vehicleComputer Science ApplicationsTransport engineeringSustainable transportAutomotive EngineeringManagement systemFuel efficiencyElectricityEnergy sourcebusinessFleet managementIEEE Transactions on Intelligent Transportation Systems
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SHIPPING 4.0: GENERAL FRAMEWORK FOR A NEW CYBERSHIPPING ERA

2019

The fourth industrial revolution, also referred to as Industry 4.0, is a disruptive transformation process aimed which, by means of digital technologies, is substantially innovating the value creation processes in all industry contexts. With such premise, industry 4.0 is in particular expected to have a substantial impact on the maritime transport and shipping sectors, where smart ships and autonomous vessels are expected to be the building blocks of a new interconnected maritime ecosystem. The application of Industry 4.0 principles to the shipping domain (Shipping 4.0) has thus raised a scientific debate about the efficiency, sustainability, and safety of maritime transport. Recent researc…

Industry 4.0 Shipping Value chain Fleet managementSettore ING-IND/17 - Impianti Industriali Meccanici
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Minimizing fleet operating costs for a container transportation company

2006

Abstract This paper focuses on a fleet management problem that arises in container trucking industry. From the container transportation company perspective, the present and future operating costs to minimize can be divided in three components: the routing costs, the resource (i.e., driver and truck) assignment costs and the container repositioning costs (i.e., the costs of restoring a given container fleet distribution over the serviced territory, as requested by the shippers that own the containers). This real-world problem has been modeled as an integer programming problem. The proposed solution approach is based on the decomposition of this problem in three simpler sub-problems associate…

transportationstochastic fleet managementInformation Systems and ManagementdecompositionGeneral Computer ScienceOperations researchComputer sciencebusiness.industryComputerApplications_COMPUTERSINOTHERSYSTEMSManagement Science and Operations ResearchIndustrial and Manufacturing EngineeringResource (project management)container truckingModeling and SimulationContainer (abstract data type)Decomposition (computer science)set covering problemRouting (electronic design automation)Container trucking; Decomposition; Set covering problem; Stochastic fleet management; TransportationbusinessInteger programmingtransportation; container trucking; stochastic fleet management; decomposition; set covering problemFleet management
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Overcoming managers’ myopic decisions in a waste collection company

2019

Purpose The purpose of this paper is to show how the changing interrelationships between fleet management, human resources and outsourcer capacity areas are likely to counterbalance managerial policies, thereby generating a performance decay. The use of system dynamics modelling in a waste collection company offered an effective contribution to support decision makers to overcoming myopic decisions. Design/methodology/approach Literature review and a case study analysis (including interviews with company actors and data gathering) offered the basis to build a system dynamics model. The model built was then used to run simulations sessions to assess alternative investments decisions. Findin…

Process managementPerformance managementMaintenanceStrategy and ManagementGeneral Decision SciencesSystem dynamicWaste collectionOperations research010501 environmental sciencesManagement Science and Operations ResearchScenario analysi01 natural sciencesSettore SECS-P/07 - Economia Aziendale0502 economics and businessLearningAlternative investmentScenario analysisHuman resourcesWaste management0105 earth and related environmental sciencesData collectionbusiness.industry05 social sciencesModelingSystem dynamicsPerformance managementFleet managementbusinessSimulation050203 business & managementFleet managementJournal of Modelling in Management
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Flexible strategic planning of transport systems

2012

Abstract This paper presents a decision support methodology for long-range planning of transport systems that exhibits strategic flexibility and stochastic system parameters. Unlike one-off strategic decisions, flexible decisions should be dynamically reformulated with time. The proposed methodology is based on the construction of a tree structure of multiple interlinked tactical planning problems, each associated with a scenario in the tree, where problems under scenarios at intermediate dates incorporate in their formulation the solution of the corresponding problems associated with past (future) connected scenarios. The resulting tree structure of interconnected planning decisions become…

Strategic planningFlexibility (engineering)Decision support systemEngineeringOperations researchManagement sciencebusiness.industryGeography Planning and DevelopmentDecision treeTransportationTree (data structure)Tree structureBusiness decision mappingbusinessFleet managementTransportation Planning and Technology
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A Real time locating system for local fleet management

2006

Abstract Local locating systems are necessary where a big number of units are handled. In this case, we propose a management system for parking spaces for vehicles that are distributed among eight different-sized lots on a 1.8 million square meter premises. In order to quickly locate each particular vehicle in this area, a new real time location system (RTLS) has been successfully installed. The vehicle location system Moby-R automatically monitors every vehicle movement and tracks its current parked position. All the vehicles are given a data carrier which is attached to the inside rear-view mirror with a special hanger, precisely locating the vehicle within approximately five meters

Real-time locating systemEngineeringVehicle tracking systembusiness.industryPosition (vector)Real-time computingManagement systemLocation systemsbusinessSimulationFleet managementIFAC Proceedings Volumes
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