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ICIP
2003
IEEE
2003
IEEE
Non-linear 3D rendering workload prediction based on a combined fuzzy-neural network architecture for grid computing application
Although, computational Grid has been initially developed to solve large-scale scientific research problems, it is extended for commercial and industrial applications. An interesting commercial application with a wide impact on a variety of fields, is 3D rendering. In order to implement, however, 3D rendering to a grid infrastructure, we should develop appropriate scheduling and resource allocation mechanisms so that the negotiated Quality of Service (QoS) requirements are met. Efficient scheduling schemes require modeling and prediction of rendering workload. This is addressed in this paper, based on a combined fuzzy classification and neural network model. Initially, appropriate descriptors are extracted to represent the synthetic world. Fuzzy classification is used for organizing rendering descriptor so that a reliable representation is accomplished which increases the prediction accuracy. Neural network performs workload prediction by modeling the non-linear input-output relations...
Real-time TrafficICIP 2003 | Image Processing | Neural Network | Neural Network Model | Performs Workload Prediction | Prediction Accuracy | Respective Computational Complexity |
| Added | 24 Oct 2009 |
| Updated | 24 Oct 2009 |
| Type | Conference |
| Year | 2003 |
| Where | ICIP |
| Authors | John K. Doulamis, Anastasios D. Doulamis |
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