Interpretable Dimensionally-Consistent Feature Extraction from Electrical Network Sensors

International audienceElectrical power networks are heavily monitored systems, requiring operators to perform intricate information synthesis before understanding the underlying network state. Our study aims at helping this synthesis step by automatically creating features from the sensor data. We propose a supervised feature extraction approach using a grammar-guided evolution, which outputs interpretable and dimensionally consistent features. Operations restrictions on dimensions are introduced in the learning process through context-free grammars. They ensure coherence with physical laws, dimensional-consistency, and also introduce technical expertise in the created features. We compare our approach to other state-of-the-art feature extraction methods on a real dataset taken from the French electrical network sensors

Color VQ-based Image Compression by Manifold Learning

International audienceWhen the amount of color data is reduced in a lossy compression scheme, the question of the use of a color distance is crucial, since no total order exists in IRn, n > 1. Yet, all existing color distance formulae have severe application limitation, even if they are widely used, and not necesseraly within the initial context they have been developed for. In this paper, a manifold learning approach is applied to reduce the dimension of data in a Vector Quantization approach to obtain data expressed in IR. Three different techniques are applied before construct the codebook. Comparaisons with the standard LBG-based VQ method are performed to judge the performance of the proposed approach using PSNR, MS-SSIM and VSNR measures