Title :
Nonlinear principal component analysis for the radiometric inversion of atmospheric profiles by using neural networks
Author :
Del Frate, Fabio ; Schiavon, Giovanni
Author_Institution :
Dept. di Inf., Sistemi e Produzione, Tor Vergata Univ., Rome, Italy
fDate :
9/1/1999 12:00:00 AM
Abstract :
A new neural network algorithm for the inversion of radiometric data to retrieve atmospheric profiles of temperature and vapor has been developed. The potentiality of the neural networks has been exploited not only for inversion purposes but also for data feature extraction and dimensionality reduction. In its complete form, the algorithm uses a neural network architecture consisting of three stages: 1) the input stage reduces the dimension of the input vector; 2) the middle stage performs the mapping from the reduced input vector to the reduced output vector; 3) the third stage brings the output of the middle stage to the desired actual dimension. The effectiveness of the algorithm has been evaluated comparing its performance to that obtainable with more traditional linear techniques
Keywords :
atmospheric humidity; atmospheric techniques; atmospheric temperature; feedforward neural nets; geophysics computing; humidity measurement; principal component analysis; radiometry; remote sensing; temperature measurement; algorithm; atmosphere; atmospheric profile; dimensionality reduction; feature extraction; feedforward neural net; humidity; input stage; inverse problem; measurement technique; meteorology; microwave radiometry; multilayer neural net; neural network; nonlinear principal component analysis; radiometric inversion; remote sensing; temperature; vapor; water vapour; Covariance matrix; Eigenvalues and eigenfunctions; Feature extraction; Helium; Information retrieval; Microwave radiometry; Neural networks; Principal component analysis; Temperature; Vectors;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
