Items where Author is "Kogou, S"

Journal article

LI, Y., SUZUKI, A., CHEUNG, C.S., GU, Y., KOGOU, S. and LIANG, H., 2022. A study of potential laser-induced degradation in remote standoff Raman spectroscopy for wall paintings. European Physical Journal Plus, 137: 1102. ISSN 2190-5444

LI, Y., SUZUKI, A., CHEUNG, C.S., GU, Y., KOGOU, S. and LIANG, H., 2022. A study of potential laser-induced degradation in remote standoff Raman spectroscopy for wall paintings. The European Physical Journal Plus, 137 (10): 1102. ISSN 2190-5444

LIGGINS, F., VICHI, A., LIU, W., HOGG, A., KOGOU, S., CHEN, J. and LIANG, H., 2022. Hyperspectral imaging solutions for the non-invasive detection and automated mapping of copper trihydroxychlorides in ancient bronze. Heritage Science, 10 (1): 142.

KOGOU, S., SHAHTAHMASSEBI, G., LUCIAN, A., LIANG, H., SHUI, B., ZHANG, W., SU, B. and VAN SCHAIK, S., 2020. From remote sensing and machine learning to the history of the Silk Road: large scale material identification on wall paintings. Scientific Reports, 10: 19312. ISSN 2045-2322

KOGOU, S., LEE, L., SHAHTAHMASSEBI, G. and LIANG, H., 2020. A new approach to the interpretation of XRF spectral imaging data using neural networks. X-Ray Spectrometry. ISSN 0049-8246

LI, Y., CHEUNG, C., KOGOU, S., LIGGINS, F. and LIANG, H., 2019. Standoff Raman spectroscopy for architectural interiors from 3-15 m distances. Optics Express, 27 (22), pp. 31338-31347. ISSN 1094-4087

WIJSMAN, S., NEATE, S., KOGOU, S. and LIANG, H., 2018. Uncovering the Oppenheimer Siddur: using scientific analysis to reveal the production process of a medieval illuminated Hebrew manuscript. Heritage Science, 6: 15. ISSN 2050-7445

LIANG, H., MARI, M., CHEUNG, C.S., KOGOU, S., JOHNSON, P. and FILIPPIDIS, G., 2017. Optical coherence tomography and non-linear microscopy for paintings – a study of the complementary capabilities and laser degradation effects. Optics Express, 25 (16), pp. 19640-19653. ISSN 1094-4087

KOGOU, S., NEATE, S., COVENEY, C., MILES, A., BOOCOCK, D., BURGIO, L., CHEUNG, C.S. and LIANG, H., 2016. The origins of the Selden map of China: scientific analysis of the painting materials and techniques using a holistic approach. Heritage Science, 4 (28). ISSN 2050-7445

KOGOU, S., LUCIAN, A., BELLESIA, S., BURGIO, L., BAILEY, K., BROOKS, C. and LIANG, H., 2015. A holistic multimodal approach to the non-invasive analysis of watercolour paintings. Applied Physics A. ISSN 0947-8396

Chapter in book

LIANG, H., KOGOU, S., BUTLER, L. and CHEUNG, C.S., 2024. An interdisciplinary study of the Selden map of China (early seventeenth century): from spectral imaging and machine learning to art history and cartography. In: D. LANGE and B. VAN DER LINDE, eds., Maps and colours: a complex relationship. Brill. ISBN 9789004467354

LI, Y., CHEUNG, C.S., KOGOU, S., HOGG, A., LIANG, H. and EVANS, S., 2021. Standoff laser spectroscopy for wall paintings, monuments and architectural interiors. In: J. BRIDGLAND, ed., Transcending boundaries: integrated approaches to conservation. ICOM-CC 19th Triennial Conference preprints, Beijing, 17–21 May 2021. Paris, France: International Council of Museums. ISBN 9782491997144

ZHANG, Q., CUI, S., LIU, L., WANG, J., WANG, J., ZHANG, E., PENG, J., KOGOU, S., LIGGINS, F. and LIANG, H., 2021. Deep learning for the extraction of sketches from spectral images of historical paintings. In: H. LIANG and R. GROVES, eds., Optics for arts, architecture, and archaeology VIII. Proceedings of SPIE, 11784 . Washington: SPIE. ISBN 9781510644021

READ, M., CHEUNG, C.S., LING, D., KORENBERG, C., MEEK, A., KOGOU, S. and LIANG, H., 2019. A non-invasive investigation of Limoges enamels using both Optical Coherence Tomography (OCT) and spectral imaging: a pilot study. In: H. LIANG and R. GROVES, eds., Optics for Arts, Architecture, and Archaeology VII. SPIE Optical Metrology, Munich, Germany, 24-27 June 2019. SPIE proceedings (11058). SPIE.

Thesis

KOGOU, S., 2017. Investigation of the complementary use of non-invasive techniques for the holistic analysis of paintings and automatic analysis of large scale spectral imaging data. PhD, Nottingham Trent University.