778 research outputs found
FIGURE 2. Bulbophyllum guniuensis W.Y in Bulbophyllum guniuensis (Orchidaceae: Epidendroideae; Malaxideae), a new species from Eastern China
No full textFIGURE 2. Bulbophyllum guniuensis W.Y. Ni & J.W. Shao. A: Flowering plant; B: Pseudobulbs; C: Ovary, gynostemium & lip; D: Sepals & petals; E: Anther cap; F: Pollinia.Published as part of Zhang, Si-Yu, Zhu, Ke-Run, Yan, Qi, Wu, Wei, Wang, Bo-Rui, Ni, Wei-Yong & Shao, Jian-Wen, 2022, Bulbophyllum guniuensis (Orchidaceae: Epidendroideae; Malaxideae), a new species from Eastern China, pp. 82-88 in Phytotaxa 543 (1) on page 84, DOI: 10.11646/phytotaxa.543.1.8, http://zenodo.org/record/642440
Improved Golomb code for joint geometric distribution data and its applications in image processing
No full textDepth distribution of δ13 of dissolved ΣCO2 in seawater off eastern Taiwan: effects of the Kuroshio current and its associated upwelling phenomenon
No full textBeyond Lesson Studies and Design Experiments: Using theoretical tools in practice and finding out how they work
Full text linkThis paper aims to illustrate how fruitful insights into the link between school teaching practice and student learning outcomes can be theoretically grounded by the variation theory from the field of phenomenography; and from this framework demonstrate how a 'pedagogy of awareness' can be implemented in the classroom. In this study, five teachers and 162 students at Primary Four level of school education in Hong Kong participated and the practice of the 'learning study' was adopted. By comparing the results of pre- and posttests, a significant gain was observed in the students learning outcomes.
Implementation of a vector-based river network routing scheme in the community WRF-Hydro modeling framework for flood discharge simulation
No full textThis work is supported in part by the National Natural Science Foundation of China under grant number 41375088, and in part by the Microsoft Research and the Jackson School of Geoscience, UT-Austin. Cedric H. David is supported by the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration. David Gochis and Wei Yu are supported by the National Science Foundation through its cooperative funding of the National Center for Atmospheric Research. Additional support for Gochis and Yu were provided by NSF EarthCube Grant #1343811. Kevin Sampson (NCAR) is acknowledged in providing GIS support. P.L., Z.-L.Y., D.J.G., D.R.M., and C.H.D. proposed the implementation of a vector-based river network model in the WRF-Hydro framework, P.L. worked on the code development with contributions from W.Y., M.A.S.-V., and C.H.D., P.L. conducted the modeling experiments with inputs from Z.-L.Y. and D.J.G.Este trabajo está financiado en parte por la National Natural Science Foundation of China bajo la subvención número 41375088, y en parte por Microsoft Research y la Jackson School of Geoscience, UT-Austin. Cedric H. David cuenta con el apoyo del Jet Propulsion Laboratory, California Institute of Technology, bajo un contrato con la National Aeronautics and Space Administration. David Gochis y Wei Yu cuentan con el apoyo de la National Science Foundation a través de su financiación cooperativa del National Center for Atmospheric Research. Gochis y Yu recibieron apoyo adicional de la subvención NSF EarthCube n.º 1343811. Se agradece a Kevin Sampson (NCAR) por proporcionar apoyo SIG. P.L., Z.-L.Y., D.J.G., D.R.M. y C.H.D. propusieron la implementación de un modelo de red fluvial basado en vectores en el marco WRF-Hydro, P.L. trabajó en el desarrollo del código con contribuciones de W.Y., M.A.S.-V. y C.H.D., P.L. Realizó los experimentos de modelado con aportaciones de Z.-L.Y. y D.J.G.This work is supported in part by the National Natural Science Foundation of China under grant number 41375088, and in part by the Microsoft Research and the Jackson School of Geoscience, UT-Austin. Cedric H. David is supported by the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration. David Gochis and Wei Yu are supported by the National Science Foundation through its cooperative funding of the National Center for Atmospheric Research. Additional support for Gochis and Yu were provided by NSF EarthCube Grant1343811. Kevin Sampson (NCAR) is acknowledged in providing GIS support. P.L., Z.-L.Y., D.J.G., D.R.M., and C.H.D. proposed the implementation of a vector-based river network model in the WRF-Hydro framework, P.L. worked on the code development with contributions from W.Y., M.A.S.-V., and C.H.D., P.L. conducted the modeling experiments with inputs from Z.-L.Y. and D.J.G
Consciousness as the inherently unmeasurable inner aspect of nature
No full textThe Evolutionary Subjectivity Principle (ESP) describes consciousness as an emergent integrative field that evolved for adaptive awareness. It argues that subjective experience, though biologically real, remains unmeasurable from a third-person perspective. © 2025 W.Y. N
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