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557 results on '"Grave E"'

1. Efficient Large-Scale Multi-Modal Classification

Author

Kiela, D., Grave, E., Joulin, A., and Mikolov, T.

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition
Abstract

While the incipient internet was largely text-based, the modern digital world is becoming increasingly multi-modal. Here, we examine multi-modal classification where one modality is discrete, e.g. text, and the other is continuous, e.g. visual representations transferred from a convolutional neural network. In particular, we focus on scenarios where we have to be able to classify large quantities of data quickly. We investigate various methods for performing multi-modal fusion and analyze their trade-offs in terms of classification accuracy and computational efficiency. Our findings indicate that the inclusion of continuous information improves performance over text-only on a range of multi-modal classification tasks, even with simple fusion methods. In addition, we experiment with discretizing the continuous features in order to speed up and simplify the fusion process even further. Our results show that fusion with discretized features outperforms text-only classification, at a fraction of the computational cost of full multi-modal fusion, with the additional benefit of improved interpretability., Comment: Published at AAAI-18, 7 pages

Published
2018

3. Iron oxides in fractured quartz - development and evolution of iron sandstone layers in the Kinshasa area, DR Congo

Author

Mees, F., Phemba, G., Lahogue, P., De Grave, E., Van Ranst, E., and Mpiana, C.

Subjects
Sandstone -- Composition -- Origin, Diagenesis (Geology) -- Analysis, Iron oxides -- Analysis, Quartz -- Observations -- Structure, Agricultural industry, Earth sciences
Abstract

Quartz grains in an iron sandstone layer in near-surface sandy deposits at Kasangulu, south of Kinshasa, DR Congo, are marked by the presence of iron oxides in subparallel horizontal cracks within the sand grains. This exceptional feature was investigated to understand its origin and paleoenvironmental significance. Based on thin section observations, supplemented by Mossbauer spectroscopy results and other data, the occurrence of filled subparallel cracks is attributed to iron oxide remobilisation following crack opening within an iron-oxide-cemented sand intercalation that became exposed through erosion, whereby crack opening is related to surface temperature fluctuations. The development of filled crack occurrences of this type requires a period of surface exposure, implying that their presence is indicative of the position of former surface levels. A macroscopically similar iron sandstone layer at another locality in the Kinshasa area, lacking filled cracks, provides indications for both surface exposure and cement type as factors in their development. Additional keywords: diagenesis, fracturing, iron sandstone, quartz, surface exposure., Introduction During a survey of surface deposits in the region of Kinshasa, DR Congo, sand layers showing a high degree of iron oxide cementation (iron sandstone) were recognised for two [...]

Published
2018
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23. Mossbauer spectroscopic study of synthetic leucophosphite, K[Fe.sub.2][(P[O.sub.4]).sub.2](OH)x2[Ha.sub.2]O

Author

de Resende, V.G., Costa, G.M., De Grave, E., and Van Alboom, A.

Subjects
Spectrum analysis -- Methods, Minerals -- Properties, Iron compounds -- Properties, Earth sciences
Abstract

A Mossbauer study of synthetic leucophosphite, K[Fe.sub.2] [(P[O.sub.4]).sub.2](OH)*2[Ha.sub.2]O is reported. The sample was prepared by the reaction of synthetic goethite ([alpha]- FeOOH) with a K-phosphate solution of pH 2 at 373 K for 20 days. The obtained cell parameters are a = 9.771(1), b = 9.675(2), c = 9.747(2) [Angstrom], [beta] = 102.45(1)[omicron] The Mossbauer spectra from 295 K down to 40 K show the existence of two [Fe.sup.3+] doublets with [DELTA][E.sub.Q1] [approximately equal to] = 0.62 mm/s and [DELTA][E.sub.Q2] [approximately equal to] 0.91 mm/s (at 80 K), respectively, whereas for lower temperatures the spectra are composed of two sextets with [H.sub.hfI] [approximately or equal to] 48.3 T and [H.sub.hf2] [approximately or equal to] 48.8 T at 4.2 K. The magnetic transition temperature was determined to be 36 K from a Mossbauer thermoscan experiment. The magnetic ordering is presumed to be antiferromagnetic. The temperature variations of the hyperfine fields cannot be explained by the simple molecular field approximation. Using a model that takes into account the exchange magnetostfiction associated to a non-second-order transition, an excellent reproduction of the [H.sub.hf](T) curves was obtained. Keywords: Leucophosphite, Mossbaner spectroscopy, magnetic ordering

Published
2008

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