System identification using radial basis function networks

Sze, Tiam Lin

January 1995

No description available.

005

Automated Mobile Cranes

Nilsson, Henrik, Svensson, Anders

January 2015

No description available.

RBF Networks

Mobile cranes

Computer Engineering

Datorteknik

Developing a Unified Perspective on the Role of Multiresolution in Machine Intelligence Tasks

Zhang, Zhan

January 2005

No description available.

Clustering

Rule learning

Optimization

RBF Networks

Intelligent control

Pattern recognition

Multiresoltuion Analysis

Stochastic search

Integral Equations For Machine Learning Problems

Que, Qichao

28 September 2016

No description available.

Computer Science

Machine Learning

RBF Networks

Supervised Learning

Kernel Methods

Fredholm Equations

Covariate Shift

Superscalar Processor Models Using Statistical Learning

Joseph, P J

04 1900

Processor architectures are becoming increasingly complex and hence architects have to evaluate a large design space consisting of several parameters, each with a number of potential settings. In order to assist in guiding design decisions we develop simple and accurate models of the superscalar processor design space using a detailed and validated superscalar processor simulator. Firstly, we obtain precise estimates of all significant micro-architectural parameters and their interactions by building linear regression models using simulation based experiments. We obtain good approximate models at low simulation costs using an iterative process in which Akaike’s Information Criteria is used to extract a good linear model from a small set of simulations, and limited further simulation is guided by the model using D-optimal experimental designs. The iterative process is repeated until desired error bounds are achieved. We use this procedure for model construction and show that it provides a cost effective scheme to experiment with all relevant parameters. We also obtain accurate predictors of the processors performance response across the entire design-space, by constructing radial basis function networks from sampled simulation experiments. We construct these models, by simulating at limited design points selected by latin hypercube sampling, and then deriving the radial neural networks from the results. We show that these predictors provide accurate approximations to the simulator’s performance response, and hence provide a cheap alternative to simulation while searching for optimal processor design points.

Supercomputers

Supercomputers - Statistical Methods

MATLAB

Linear Regression Models

Superscalar Processor Architecture

Superscalar Processors - Linear Models

Radial Basis Function Networks

Linear Models

RBF Networks

Processor Performance Analysis

Predictive Performance Model

Predictive Modeling

Computer Science