The seen and the unseen: Molecular classification and image based-analysis of gastrointestinal cancers

Autor: Corina-Elena Minciuna, Mihai Tanase, Teodora Ecaterina Manuc, Stefan Tudor, Vlad Herlea, Mihnea P. Dragomir, George A. Calin, Catalin Vasilescu

Publikováno v: Computational and Structural Biotechnology Journal, Vol 20, Iss , Pp 5065-5075 (2022)

Gastrointestinal cancers account for 22.5% of cancer related deaths worldwide and represent circa 20% of all cancers. In the last decades, we have witnessed a shift from histology-based to molecular-based classifications using genomic, epigenomic, an

Externí odkaz: https://doaj.org/article/8203f41708cc4a668c5804fdf2e483c8

Remote sensing for the Spanish forests in the 21st century: a review of advances, needs, and opportunities

Autor: Cristina Gómez, Pablo Alejandro, Txomin Hermosilla, Fernando Montes, Cristina Pascual, Luis Angel Ruiz, Flor Álvarez-Taboada, Mihai Tanase, Ruben Valbuena

Publikováno v: Forest Systems, Vol 28, Iss 1, Pp eR001-eR001 (2019)

Forest ecosystems provide a host of services and societal benefits, including carbon storage, habitat for fauna, recreation, and provision of wood or non-wood products. In a context of complex demands on forest resources, identifying priorities for b

Externí odkaz: https://doaj.org/article/373414fc042b4157a49d19e5bc1cc7f7

Circulating miRNAs in sepsis-A network under attack: An in-silico prediction of the potential existence of miRNA sponges in sepsis.

Autor: Catalin Vasilescu, Mihnea Dragomir, Mihai Tanase, Dana Giza, Raluca Purnichescu-Purtan, Meng Chen, Sai-Ching Jim Yeung, George A Calin

Publikováno v: PLoS ONE, Vol 12, Iss 8, p e0183334 (2017)

Biomarkers based on the molecular mechanism of sepsis are important for timely diagnosis and treatment. A large panel of small non-coding microRNAs was reported to modulate the immune response in sepsis but have not been tested in clinical practice.

Externí odkaz: https://doaj.org/article/b56d6ee3d2a8441cafa7462e6bdbea3a

Aboveground biomass density models for NASA's Global Ecosystem Dynamics Investigation (GEDI) lidar mission

Autor: Laura Duncanson, James R. Kellner, John Armston, Ralph Dubayah, David M. Minor, Steven Hancock, Sean P. Healey, Paul L. Patterson, Svetlana Saarela, Suzanne Marselis, Carlos E. Silva, Jamis Bruening, Scott J. Goetz, Hao Tang, Michelle Hofton, Bryan Blair, Scott Luthcke, Lola Fatoyinbo, Katharine Abernethy, Alfonso Alonso, Hans-Erik Andersen, Paul Aplin, Timothy R. Baker, Nicolas Barbier, Jean Francois Bastin, Peter Biber, Pascal Boeckx, Jan Bogaert, Luigi Boschetti, Peter Brehm Boucher, Doreen S. Boyd, David F.R.P. Burslem, Sofia Calvo-Rodriguez, Jérôme Chave, Robin L. Chazdon, David B. Clark, Deborah A. Clark, Warren B. Cohen, David A. Coomes, Piermaria Corona, K.C. Cushman, Mark E.J. Cutler, James W. Dalling, Michele Dalponte, Jonathan Dash, Sergio de-Miguel, Songqiu Deng, Peter Woods Ellis, Barend Erasmus, Patrick A. Fekety, Alfredo Fernandez-Landa, Antonio Ferraz, Rico Fischer, Adrian G. Fisher, Antonio García-Abril, Terje Gobakken, Jorg M. Hacker, Marco Heurich, Ross A. Hill, Chris Hopkinson, Huabing Huang, Stephen P. Hubbell, Andrew T. Hudak, Andreas Huth, Benedikt Imbach, Kathryn J. Jeffery, Masato Katoh, Elizabeth Kearsley, David Kenfack, Natascha Kljun, Nikolai Knapp, Kamil Král, Martin Krůček, Nicolas Labrière, Simon L. Lewis, Marcos Longo, Richard M. Lucas, Russell Main, Jose A. Manzanera, Rodolfo Vásquez Martínez, Renaud Mathieu, Herve Memiaghe, Victoria Meyer, Abel Monteagudo Mendoza, Alessandra Monerris, Paul Montesano, Felix Morsdorf, Erik Næsset, Laven Naidoo, Reuben Nilus, Michael O’Brien, David A. Orwig, Konstantinos Papathanassiou, Geoffrey Parker, Christopher Philipson, Oliver L. Phillips, Jan Pisek, John R. Poulsen, Hans Pretzsch, Christoph Rüdiger, Sassan Saatchi, Arturo Sanchez-Azofeifa, Nuria Sanchez-Lopez, Robert Scholes, Carlos A. Silva, Marc Simard, Andrew Skidmore, Krzysztof Stereńczak, Mihai Tanase, Chiara Torresan, Ruben Valbuena, Hans Verbeeck, Tomas Vrska, Konrad Wessels, Joanne C. White, Lee J.T. White, Eliakimu Zahabu, Carlo Zgraggen

Publikováno v: Duncanson, L, Kellner, J R, Armston, J, Dubayah, R, Minor, D M, Hancock, S, Healey, S P, Patterson, P L, Saarela, S, Marselis, S, Silva, C E, Bruening, J, Goetz, S J, Tang, H, Hofton, M, Blair, B, Luthcke, S, Fatoyinbo, L, Abernethy, K, Alonso, A, Andersen, H, Aplin, P, Baker, T R, Barbier, N, Bastin, J F, Biber, P, Boeckx, P, Bogaert, J, Boschetti, L, Boucher, P B, Boyd, D S, Burslem, D F R P, Calvo-rodriguez, S, Chave, J, Chazdon, R L, Clark, D B, Clark, D A, Cohen, W B, Coomes, D A, Corona, P, Cushman, K C, Cutler, M E J, Dalling, J W, Dalponte, M, Dash, J, De-miguel, S, Deng, S, Ellis, P W, Erasmus, B, Fekety, P A, Fernandez-landa, A, Ferraz, A, Fischer, R, Fisher, A G, García-abril, A, Gobakken, T, Hacker, J M, Heurich, M, Hill, R A, Hopkinson, C, Huang, H, Hubbell, S P, Hudak, A T, Huth, A, Imbach, B, Jeffery, K J, Katoh, M, Kearsley, E, Kenfack, D, Kljun, N, Knapp, N, Král, K, Krůček, M, Labrière, N, Lewis, S L, Longo, M, Lucas, R M, Main, R, Manzanera, J A, Martínez, R V, Mathieu, R, Memiaghe, H, Meyer, V, Mendoza, A M, Monerris, A, Montesano, P, Morsdorf, F, Næsset, E, Naidoo, L, Nilus, R, O’brien, M, Orwig, D A, Papathanassiou, K, Parker, G, Philipson, C, Phillips, O L, Pisek, J, Poulsen, J R, Pretzsch, H, Rüdiger, C, Saatchi, S, Sanchez-azofeifa, A, Sanchez-lopez, N, Scholes, R, Silva, C A, Simard, M, Skidmore, A, Stereńczak, K, Tanase, M, Torresan, C, Valbuena, R, Verbeeck, H, Vrska, T, Wessels, K, White, J C, White, L J T, Zahabu, E & Zgraggen, C 2022, ' Aboveground biomass density models for NASA’s Global Ecosystem Dynamics Investigation (GEDI) lidar mission ', Remote Sensing of Environment, vol. 270, 112845 . https://doi.org/10.1016/j.rse.2021.112845
Remote Sensing of Environment, 270
Remote sensing of environment, 270:112845, 1-20. Elsevier
Remote Sensing of Environment
Remote Sensing of Environment, 2022, 270, pp.112845. ⟨10.1016/j.rse.2021.112845⟩
Remote sensing of environment 270 (2022): Article number 112845. doi:10.1016/j.rse.2021.112845
info:cnr-pdr/source/autori:Duncanson L., Kellner J.R., Armston J., Dubayah R., Minor D.M., Hancock S., Healey S.P., Patterson P.L., Saarela S., Marselis S., Silva E.C., Bruening J., Goetz J.S., Tang H., Hofton M., Blair B., Luthcke S., Fatoyinbo L., Abernethy K., Alonso A., Andersen H.E., Aplin P., Baker R.T., Barbier N., Bastin J.F., Biber P., Boeckx P., Bogaert J., Boschetti L., Brehm Boucher P., Boyd S.D., Burslem F.R.P.D., Calvo-Rodriguez S., Chave J., Chazdon L.R., Clark B.D., Clark A.D., Cohen B.W., Coomes A.D., Corona P., Cushman K.C., Cutler E.J.M., Dalling W.J., Dalponte M., Dash J., de-Miguel S., Deng S., Woods Ellis P., Erasmus B., Fekety A.P., Fernandez-Landa A., Ferraz A., Fischer R., Fisher G.A., García-Abril A., Gobakken T., Hacker M.J., Heurich M., Hill A.R., Hopkinson C., Huang H., Hubbell P.S., Hudak T.A., Huth A., Imbach B., Jeffery J.K., Katoh M., Kearsley E., Kenfack D., Kljun N., Knapp N., Král K., Kr??ek M., Labrière N., Lewis L.S., Longo M., Lucas M.R., Main R., Manzanera A.J., Martínez V.R., Mathieu R., Memiaghe H., Meyer V., Monteagudo Mendoza A., Monerris A., Montesano P., Morsdorf F., Næsset E., Naidoo L., Nilus R., O'Brien M., Orwig A.D., Papathanassiou K., Parker G., Philipson C., Phillips L.O., Pisek J., Poulsen R.J., Pretzsch h., Rüdiger C., Saatchi S., Sanchez-Azofeifa A., Sanchez-Lopez N., Scholes R., Silva A.C., Simard M., Skidmore A., Stere?czak K., Tanase M., Torresan C., Valbuena R., Verbeeck H., Vrska T., Wessels K., White C.J., White J.T.L., Zahabu E., Zgraggen C./titolo:Aboveground biomass density models for NASA's Global Ecosystem Dynamics Investigation (GEDI) lidar mission/doi:10.1016%2Fj.rse.2021.112845/rivista:Remote sensing of environment/anno:2022/pagina_da:Article number 112845/pagina_a:/intervallo_pagine:Article number 112845/volume:270
REMOTE SENSING OF ENVIRONMENT

© 2021 The Authors. Published by Elsevier Inc. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). NASA’s Global Ecosystem Dynamics Investigation (GEDI) is collecting spaceborne full waveform lidar

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::19d0576946c561982b642f75920f5935
https://hdl.handle.net/20.500.11820/4b495d2e-14a1-4868-ba36-a08c796d0c0c

New Era of the Nano-Electronic Devices – One of the Most Adaptive Learning Areas for the Next Period

Autor: Doru Ursutiu, Dan Eduard Mihaiescu, Alina Morosan, Cristian Ravariu, Thrasyvoulos Tsiatsos, Mihai Tanase

Publikováno v: Internet of Things, Infrastructures and Mobile Applications ISBN: 9783030499310
IMCL

The Moore’s law rigorously fulfilled and in 2021 the CMOS technology seems to reach its ultimate limit. What’s next? All specialists anticipate that a circuit from 2031 will not keep the same performances offered by the last 2.5 nm CMOS from 2021

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::d50503b76125b314fb75c50c68b575de
https://doi.org/10.1007/978-3-030-49932-7_3