FRINK Linked Data Fragments server

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• W2340257447 abstract "limitations in its ability to be used to simulate cell loss rate when deriving the optimum resources limitations in its ability to be used to simulate cell loss rate when deriving the optimum resources limitations in its ability to be used to simulate cell loss rate when deriving the optimum resources required for data services to guarantee specific Qua required for data services to guarantee specific Qua required for data services to guarantee specific Qua required for data services to guarantee specific Qua simulated with excessive and unacceptable computer simulation run times. This limitation was overcome simulated with excessive and unacceptable computer simulation run times. This limitation was overcome simulated with excessive and unacceptable computer simulation run times. This limitation was overcome simulated with excessive and unacceptable computer simulation run times. This limitation was overcome in an earlier publication by the author using an integrated simulation technique. This paper, there in an earlier publication by the author using an integrated simulation technique. This paper, there in an earlier publication by the author using an integrated simulation technique. This paper, there in an earlier publication by the author using an integrated simulation technique. This paper, there describes the application of the integrated simulation technique for deriving the optimum resources describes the application of the integrated simulation technique for deriving the optimum resources describes the application of the integrated simulation technique for deriving the optimum resources describes the application of the integrated simulation technique for deriving the optimum resources required for data services in an asynchronous transfer mode (ATM) based private wide area network required for data services in an asynchronous transfer mode (ATM) based private wide area network required for data services in an asynchronous transfer mode (ATM) based private wide area network required for data services in an asynchronous transfer mode (ATM) based private wide area network (WAN) to guarantee specific QoS requirement. The sim (WAN) to guarantee specific QoS requirement. The sim (WAN) to guarantee specific QoS requirement. The sim (WAN) to guarantee specific QoS requirement. The sim time and is much more accurate. The effectiveness of the technique with data services is demonstrated by time and is much more accurate. The effectiveness of the technique with data services is demonstrated by time and is much more accurate. The effectiveness of the technique with data services is demonstrated by time and is much more accurate. The effectiveness of the technique with data services is demonstrated by the simulation of an ATM switching node and in comparison with traditional approach. the simulation of an ATM switching node and in comparison with traditional approach. the simulation of an ATM switching node and in comparison with traditional approach. limitations in its ability to be used to simulate cell loss rate when deriving the optimum resources limitations in its ability to be used to simulate cell loss rate when deriving the optimum resources limitations in its ability to be used to simulate cell loss rate when deriving the optimum resources required for data services to guarantee specific Qua required for data services to guarantee specific Qua required for data services to guarantee specific Qua required for data services to guarantee specific Qua lity of Service (QoS) requirement. Cell loss rates are lity of Service (QoS) requirement. Cell loss rates are lity of Service (QoS) requirement. Cell loss rates are lity of Service (QoS) requirement. Cell loss rates are simulated with excessive and unacceptable computer simulation run times. This limitation was overcome simulated with excessive and unacceptable computer simulation run times. This limitation was overcome simulated with excessive and unacceptable computer simulation run times. This limitation was overcome simulated with excessive and unacceptable computer simulation run times. This limitation was overcome in an earlier publication by the author using an integrated simulation technique. This paper, there in an earlier publication by the author using an integrated simulation technique. This paper, there in an earlier publication by the author using an integrated simulation technique. This paper, there in an earlier publication by the author using an integrated simulation technique. This paper, there describes the application of the integrated simulation technique for deriving the optimum resources describes the application of the integrated simulation technique for deriving the optimum resources describes the application of the integrated simulation technique for deriving the optimum resources describes the application of the integrated simulation technique for deriving the optimum resources required for data services in an asynchronous transfer mode (ATM) based private wide area network required for data services in an asynchronous transfer mode (ATM) based private wide area network required for data services in an asynchronous transfer mode (ATM) based private wide area network required for data services in an asynchronous transfer mode (ATM) based private wide area network (WAN) to guarantee specific QoS requirement. The sim (WAN) to guarantee specific QoS requirement. The sim (WAN) to guarantee specific QoS requirement. The sim (WAN) to guarantee specific QoS requirement. The sim ulation tool drastically cuts the simulation run ulation tool drastically cuts the simulation run ulation tool drastically cuts the simulation run ulation tool drastically cuts the simulation run time and is much more accurate. The effectiveness of the technique with data services is demonstrated by time and is much more accurate. The effectiveness of the technique with data services is demonstrated by time and is much more accurate. The effectiveness of the technique with data services is demonstrated by time and is much more accurate. The effectiveness of the technique with data services is demonstrated by the simulation of an ATM switching node and in comparison with traditional approach. the simulation of an ATM switching node and in comparison with traditional approach. the simulation of an ATM switching node and in comparison with traditional approach. the simulation of an ATM switching node and in comparison with traditional approach. limitations in its ability to be used to simulate cell loss rate when deriving the optimum resources limitations in its ability to be used to simulate cell loss rate when deriving the optimum resources limitations in its ability to be used to simulate cell loss rate when deriving the optimum resources lity of Service (QoS) requirement. Cell loss rates are lity of Service (QoS) requirement. Cell loss rates are lity of Service (QoS) requirement. Cell loss rates are lity of Service (QoS) requirement. Cell loss rates are simulated with excessive and unacceptable computer simulation run times. This limitation was overcome simulated with excessive and unacceptable computer simulation run times. This limitation was overcome simulated with excessive and unacceptable computer simulation run times. This limitation was overcome simulated with excessive and unacceptable computer simulation run times. This limitation was overcome in an earlier publication by the author using an integrated simulation technique. This paper, there in an earlier publication by the author using an integrated simulation technique. This paper, there in an earlier publication by the author using an integrated simulation technique. This paper, there in an earlier publication by the author using an integrated simulation technique. This paper, there fore, fore, fore, fore, describes the application of the integrated simulation technique for deriving the optimum resources describes the application of the integrated simulation technique for deriving the optimum resources describes the application of the integrated simulation technique for deriving the optimum resources describes the application of the integrated simulation technique for deriving the optimum resources required for data services in an asynchronous transfer mode (ATM) based private wide area network required for data services in an asynchronous transfer mode (ATM) based private wide area network required for data services in an asynchronous transfer mode (ATM) based private wide area network required for data services in an asynchronous transfer mode (ATM) based private wide area network ulation tool drastically cuts the simulation run ulation tool drastically cuts the simulation run ulation tool drastically cuts the simulation run ulation tool drastically cuts the simulation run - time and is much more accurate. The effectiveness of the technique with data services is demonstrated by time and is much more accurate. The effectiveness of the technique with data services is demonstrated by time and is much more accurate. The effectiveness of the technique with data services is demonstrated by time and is much more accurate. The effectiveness of the technique with data services is demonstrated by the simulation of an ATM switching node and in comparison with traditional approach. the simulation of an ATM switching node and in comparison with traditional approach. the simulation of an ATM switching node and in comparison with traditional approach. the simulation of an ATM switching node and in comparison with traditional approach. ronous transfer mode node; integrated modelling; simulation; Cell loss." @default.
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• W2340257447 title "APPLICATION OF INTEGRATED MODELING TECHNIQUE FOR DATA APPLICATION OF INTEGRATED MODELING TECHNIQUE FOR DATA APPLICATION OF INTEGRATED MODELING TECHNIQUE FOR DATA APPLICATION OF INTEGRATED MODELING TECHNIQUE FOR DATA SERVICES RESOURCE ALLOCATION IN ATM BASED PRIVATE WAN SERVICES RESOURCE ALLOCATION IN ATM BASED PRIVATE WAN SERVICES RESOURCE ALLOCATION IN ATM BASED PRIVATE WAN SERVICES RESOURCE ALLOCATION IN ATM BASED PRIVATE WAN" @default.
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