Search results for "Bile"

showing 10 items of 2148 documents

Un circuit automobile au cœur d’une métropole ? Les Circuiti et Gran Premi du Valentino (1935-1955)

2022

De 1935 à 1955 sont disputées de manière intermittente dans le parc du Valentino, des courses de monoplaces qui prennent le nom de « Circuit » ou de « Grand Prix ». Dans la cité de l’automobile, la compétition prend des significations différentes : vitrine du culte de la vitesse fasciste et du passé glorieux de Turin en 1935 et 1937, symbole de la renaissance de l’Italie républicaine et du rapprochement de la France en 1946, 1947 et 1948, manifestation du désir de mobilité automobile en 1952 et 1955. L’organisation d’une course au sein du poumon vert d’une métropole constitue aussi un défi : celui de l’ordre public, de la sécurité, des dégradations, du couvert végétal. Aussi, même si la cou…

Italiepilotes[SHS.HIST] Humanities and Social Sciences/HistoryautomobileValentinoTurinsportcircuit
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Is the French mobile phone cartel really a cartel?

2009

International audience; France Telecom (FT), SFR and Bouygues Telecom (BT) have been fined by France's Conseil de la Concurrence (CC) for organizing a mobile phone cartel with stable market shares (one-half, one-third and one-sixth, respectively) and for directly exchanging commercial information. While not contesting the legal decision, it is argued here that the economic reasoning is flawed. (1) As the CC made much of the firms' stable market shares, we have first followed this line of reasoning by considering that the market shares are quotas under uniform costs. Even if there is a general incentive to form a monopolistic cartel, BT was too small for it to be worth its while to join it; it i…

JEL : K - Law and Economics/K.K2 - Regulation and Business Law/K.K2.K21 - Antitrust LawEconomics and EconometricsCournotJEL: L - Industrial Organization/L.L1 - Market Structure Firm Strategy and Market Performance/L.L1.L13 - Oligopoly and Other Imperfect MarketsStackelbergMobile telephonyCartelJEL L13 L41 L96 D43 K21Management Science and Operations ResearchCournot competitionIndustrial and Manufacturing EngineeringMicroeconomicsCompetition (economics)Monopolistic competitionJEL : L - Industrial Organization/L.L1 - Market Structure Firm Strategy and Market Performance/L.L1.L13 - Oligopoly and Other Imperfect MarketsEconomicsStackelberg competition[ SHS.ECO ] Humanities and Social Sciences/Economies and financesMarket shareGSMARCEPJEL : D - Microeconomics/D.D4 - Market Structure Pricing and Design/D.D4.D43 - Oligopoly and Other Forms of Market ImperfectionCartel[SHS.ECO]Humanities and Social Sciences/Economics and FinanceGeneral Business Management and AccountingJEL : L - Industrial Organization/L.L9 - Industry Studies: Transportation and Utilities/L.L9.L96 - TelecommunicationsJEL: D - Microeconomics/D.D4 - Market Structure Pricing and Design/D.D4.D43 - Oligopoly and Other Forms of Market ImperfectionJEL: K - Law and Economics/K.K2 - Regulation and Business Law/K.K2.K21 - Antitrust LawJEL: L - Industrial Organization/L.L9 - Industry Studies: Transportation and Utilities/L.L9.L96 - TelecommunicationsJEL : L - Industrial Organization/L.L4 - Antitrust Issues and Policies/L.L4.L41 - Monopolization • Horizontal Anticompetitive PracticesConseil de la ConcurrenceIncentiveMonopolyMobile phoneJEL: L - Industrial Organization/L.L4 - Antitrust Issues and Policies/L.L4.L41 - Monopolization • Horizontal Anticompetitive PracticesInternational Journal of Production Economics
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A Simulation-based Performance Evaluation of Heuristics for Dew Computing

2021

Job schedulerScheduling heuristicsComputer engineeringComputer scienceDewcomputer.software_genreHeuristicsVDP::Teknologi: 500::Informasjons- og kommunikasjonsteknologi: 550Mobile deviceSimulation basedcomputerEdge computingProceedings of the Annual Hawaii International Conference on System Sciences
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A Task Execution Scheme for Dew Computing with State-of-the-Art Smartphones

2021

The computing resources of today’s smartphones are underutilized most of the time. Using these resources could be highly beneficial in edge computing and fog computing contexts, for example, to support urban services for citizens. However, new challenges, especially regarding job scheduling, arise. Smartphones may form ad hoc networks, but individual devices highly differ in computational capabilities and (tolerable) energy usage. We take into account these particularities to validate a task execution scheme that relies on the computing power that clusters of mobile devices could provide. In this paper, we expand the study of several practical heuristics for job scheduling including executi…

Job schedulerTK7800-8360Computer Networks and CommunicationsComputer scienceWireless ad hoc networkdew computingcomputer.software_genresmartphoneScheduling (computing)Task (computing)edge computingscheduling heuristicsHardware and ArchitectureControl and Systems EngineeringHuman–computer interactionMiddlewareSignal ProcessingElectrical and Electronic EngineeringElectronicsjob schedulingHeuristicsVDP::Teknologi: 500::Informasjons- og kommunikasjonsteknologi: 550Mobile devicecomputerEdge computingElectronics
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[Edicte, 1751, 04, 07]

1751

Com a tít. el començament del text Caplletra ornada AG

Jubileu 1750 Obres anteriors a 1800Indulgències S.XVIII Obres anteriors al 1800Jubileu (Judaisme) 1750 Obres anteriors al 1800Indulgències S.XVIII Obres anteriors a 1800
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Towards a layer-less network architecture — A case from Wireless Sensor Networks

2011

Ad hoc and Wireless Sensor Networks (WSNs) form a challenging domain for existing network protocols and paradigms to fit into. The traditional models conceived for wired networking and adapted for wireless and mobile environments provide an inefficient and ungraceful outcome when exercised against highly dynamic and highly mobile nature of ad hoc wireless sensor networks. Efforts are being made to tweak existing (and sometimes create from scratch) principles and models that can provide a concrete framework for such newer paradigms. The momentum of the traditional layered architecture carried over from the wired networks to infrastructure based wireless networks pushes the same approaches as…

Key distribution in wireless sensor networksVehicular ad hoc networkWireless ad hoc networkComputer sciencebusiness.industryWireless networkDistributed computingMobile wireless sensor networkMobile ad hoc networkAd hoc wireless distribution servicebusinessWireless sensor networkComputer network2011 2nd International Conference on Wireless Communication, Vehicular Technology, Information Theory and Aerospace & Electronic Systems Technology (Wireless VITAE)
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A Multisensor Proposal for Wireless Sensor Networks

2008

Every sensor node in a wireless sensor network (WSN) has a microcontroller, a transmitter/receiver and a sensor. It is able to acquire data from specific point in a real environment and transmit it through the WSN. Sometimes it is useful to gather different type of data from the same place in order to obtain a final result. In the related literature, very few works are about sensing different parameters using a unique sensor. In this paper we propose a Wireless IP multisensor that is able to gather several types of data from the environment and transmit the result of their combination. Our proposal decision has being mainly based on its development costs, its expansion capacity and its flex…

Key distribution in wireless sensor networksVisual sensor networkComputer sciencebusiness.industrySensor nodeMobile wireless sensor networkWirelessComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMSbusinessSensor fusionWireless sensor networkData transmissionComputer network2008 Second International Conference on Sensor Technologies and Applications (sensorcomm 2008)
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A Note on the Local Minimum Problem in Wireless Sensor Networks

2013

The Local Minimum Problem occurs in geographic routing scenarios. In this paper two solutions to this problem for certain network topologies are proposed. By using the notion of virtual coordinates a theoretical and a practical constructions are presented. A distributed algorithm for the practical approach is proposed.

Key distribution in wireless sensor networksWi-Fi arrayComputer scienceWireless ad hoc networkbusiness.industryDistributed algorithmMobile wireless sensor networkGeographic routingNetwork topologybusinessWireless sensor networkComputer network
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On Applications of Wireless Sensor Networks

2009

Wireless Sensor Networks (WSN) are ad-hoc networks in which small independent sensor nodes have limited energy, computational resources and wireless communication capabilities. Recently, both academia and industry have shown great interest in the area of Wireless Sensor Networks. This paper focuses on the practical applications in commerce and feasible future employment of WSNs. Continued advances of wireless communication technologies have led to the following fields of applications: habitat and environmental monitoring, security of buildings and property, oil and gas installations, mines and tunnels, emergency medical care, military applications. In the near future WSNs will certainly ent…

Key distribution in wireless sensor networksWi-Fi arrayWireless networkComputer sciencebusiness.industrySensor nodeComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKSMobile wireless sensor networkWireless WANFixed wirelessTelecommunicationsbusinessWireless sensor network
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Coded addresses in multi-hop wireless sensor networks

2014

Key distribution in wireless sensor networksWi-Fi arraybusiness.industryComputer scienceMobile wireless sensor networkbusinessWireless sensor networkComputer networkHop (networking)2014 International Wireless Communications and Mobile Computing Conference (IWCMC)
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