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The monitoring of grid environments helps administrators and users keep track of the availability and loading of resources, and the management of resources is dependent on the monitoring of information data. There is not an efficient and consistent monitoring mechanism to the manipulation of devices, resources and services in Grid computing. We propose a novel monitoring framework used to gather and retrieve monitoring information of Grid environments. The monitoring system RMCS integrates and extends the existing monitoring system using service-oriented mechanism and the common information model CIM. The RMCS defines a hierarchical structure of monitoring resources, and customizes the monitoring parameters and the display way. The adoption of CIM-based monitoring service enables compatible with other grid services such as grid portal, transaction or resource management and charging. The investigation shows that this monitoring approach provides the scalable monitoring capabilities, enables to exchange information in an unrestricted and flexible way, and improves grid performance and utilization.

The monitoring of grid environments helps administrators and users keep track of the availability and loading of resources, and the management of resources is dependent on the monitoring of information data. There is not an efficient and consistent monitoring mechanism to the manipulation of devices, resources and services in Grid computing. We propose a novel monitoring framework used to gather and retrieve monitoring information of Grid environments. The monitoring system RMCS integrates and extends the existing monitoring system using service-oriented mechanism and the common information model CIM. The RMCS defines a hierarchical structure of monitoring resources, and customizes the monitoring parameters and the display way. The adoption of CIM-based monitoring service enables compatible with other grid services such as grid portal, transaction or resource management and charging. The investigation shows that this monitoring approach provides the scalable monitoring capabilities, enables to exchange information in an unrestricted and flexible way, and improves grid performance and utilization.

The monitoring of grid environments helps administrators and users keep track of the availability and loading of resources, and the management of resources is dependent on the monitoring of information data. There is not an efficient and consistent monitoring mechanism to the manipulation of devices, resources and services in Grid computing. We propose a novel monitoring framework used to gather and retrieve monitoring information of Grid environments. The monitoring system RMCS integrates and extends the existing monitoring system using service-oriented mechanism and the common information model CIM. The RMCS defines a hierarchical structure of monitoring resources, and customizes the monitoring parameters and the display way. The adoption of CIM-based monitoring service enables compatible with other grid services such as grid portal, transaction or resource management and charging. The investigation shows that this monitoring approach provides the scalable monitoring capabilities, enables to exchange information in an unrestricted and flexible way, and improves grid performance and utilization.

The monitoring of grid environments helps administrators and users keep track of the availability and loading of resources, and the management of resources is dependent on the monitoring of information data. There is not an efficient and consistent monitoring mechanism to the manipulation of devices, resources and services in Grid computing. We propose a novel monitoring framework used to gather and retrieve monitoring information of Grid environments. The monitoring system RMCS integrates and extends the existing monitoring system using service-oriented mechanism and the common information model CIM. The RMCS defines a hierarchical structure of monitoring resources, and customizes the monitoring parameters and the display way. The adoption of CIM-based monitoring service enables compatible with other grid services such as grid portal, transaction or resource management and charging. The investigation shows that this monitoring approach provides the scalable monitoring capabilities, enables to exchange information in an unrestricted and flexible way, and improves grid performance and utilization.

The monitoring of grid environments helps administrators and users keep track of the availability and loading of resources, and the management of resources is dependent on the monitoring of information data. There is not an efficient and consistent monitoring mechanism to the manipulation of devices, resources and services in Grid computing. We propose a novel monitoring framework used to gather and retrieve monitoring information of Grid environments. The monitoring system RMCS integrates and extends the existing monitoring system using service-oriented mechanism and the common information model CIM. The RMCS defines a hierarchical structure of monitoring resources, and customizes the monitoring parameters and the display way. The adoption of CIM-based monitoring service enables compatible with other grid services such as grid portal, transaction or resource management and charging. The investigation shows that this monitoring approach provides the scalable monitoring capabilities, enables to exchange information in an unrestricted and flexible way, and improves grid performance and utilization.

The monitoring of grid environments helps administrators and users keep track of the availability and loading of resources, and the management of resources is dependent on the monitoring of information data. There is not an efficient and consistent monitoring mechanism to the manipulation of devices, resources and services in Grid computing. We propose a novel monitoring framework used to gather and retrieve monitoring information of Grid environments. The monitoring system RMCS integrates and extends the existing monitoring system using service-oriented mechanism and the common information model CIM. The RMCS defines a hierarchical structure of monitoring resources, and customizes the monitoring parameters and the display way. The adoption of CIM-based monitoring service enables compatible with other grid services such as grid portal, transaction or resource management and charging. The investigation shows that this monitoring approach provides the scalable monitoring capabilities, enables to exchange information in an unrestricted and flexible way, and improves grid performance and utilization.

The monitoring of grid environments helps administrators and users keep track of the availability and loading of resources, and the management of resources is dependent on the monitoring of information data. There is not an efficient and consistent monitoring mechanism to the manipulation of devices, resources and services in Grid computing. We propose a novel monitoring framework used to gather and retrieve monitoring information of Grid environments. The monitoring system RMCS integrates and extends the existing monitoring system using service-oriented mechanism and the common information model CIM. The RMCS defines a hierarchical structure of monitoring resources, and customizes the monitoring parameters and the display way. The adoption of CIM-based monitoring service enables compatible with other grid services such as grid portal, transaction or resource management and charging. The investigation shows that this monitoring approach provides the scalable monitoring capabilities, enables to exchange information in an unrestricted and flexible way, and improves grid performance and utilization.

The monitoring of grid environments helps administrators and users keep track of the availability and loading of resources, and the management of resources is dependent on the monitoring of information data. There is not an efficient and consistent monitoring mechanism to the manipulation of devices, resources and services in Grid computing. We propose a novel monitoring framework used to gather and retrieve monitoring information of Grid environments. The monitoring system RMCS integrates and extends the existing monitoring system using service-oriented mechanism and the common information model CIM. The RMCS defines a hierarchical structure of monitoring resources, and customizes the monitoring parameters and the display way. The adoption of CIM-based monitoring service enables compatible with other grid services such as grid portal, transaction or resource management and charging. The investigation shows that this monitoring approach provides the scalable monitoring capabilities, enables to exchange information in an unrestricted and flexible way, and improves grid performance and utilization.

The monitoring of grid environments helps administrators and users keep track of the availability and loading of resources, and the management of resources is dependent on the monitoring of information data. There is not an efficient and consistent monitoring mechanism to the manipulation of devices, resources and services in Grid computing. We propose a novel monitoring framework used to gather and retrieve monitoring information of Grid environments. The monitoring system RMCS integrates and extends the existing monitoring system using service-oriented mechanism and the common information model CIM. The RMCS defines a hierarchical structure of monitoring resources, and customizes the monitoring parameters and the display way. The adoption of CIM-based monitoring service enables compatible with other grid services such as grid portal, transaction or resource management and charging. The investigation shows that this monitoring approach provides the scalable monitoring capabilities, enables to exchange information in an unrestricted and flexible way, and improves grid performance and utilization.

The monitoring of grid environments helps administrators and users keep track of the availability and loading of resources, and the management of resources is dependent on the monitoring of information data. There is not an efficient and consistent monitoring mechanism to the manipulation of devices, resources and services in Grid computing. We propose a novel monitoring framework used to gather and retrieve monitoring information of Grid environments. The monitoring system RMCS integrates and extends the existing monitoring system using service-oriented mechanism and the common information model CIM. The RMCS defines a hierarchical structure of monitoring resources, and customizes the monitoring parameters and the display way. The adoption of CIM-based monitoring service enables compatible with other grid services such as grid portal, transaction or resource management and charging. The investigation shows that this monitoring approach provides the scalable monitoring capabilities, enables to exchange information in an unrestricted and flexible way, and improves grid performance and utilization.