High-resolution exploration for lithologic targets confronted with difficulties due to the original brought out from geophysical and geologic characteristics of the loess hills and the very thick deserts in Ordos. Sci...High-resolution exploration for lithologic targets confronted with difficulties due to the original brought out from geophysical and geologic characteristics of the loess hills and the very thick deserts in Ordos. Scientific research since mid 1990s has conducted three acquisition techniques including the high-resolution crooked line survey in valleys, high-resolution multiple straight line survey and 3D survey, under different surface conditions and for different geological targets.展开更多
Brain-computer interface(BCI)technology is a rapidly evolving interdisciplinary field that promises to revolutionize our understanding of and interaction with the brain,particularly in neurorestoration.BCIs enable dir...Brain-computer interface(BCI)technology is a rapidly evolving interdisciplinary field that promises to revolutionize our understanding of and interaction with the brain,particularly in neurorestoration.BCIs enable direct communication between the brain and external devices,bypassing traditional pathways involving peripheral nerves and muscles.BCI technologies can be classified into several categories based on the mode of signal acquisition,with respect to both clinical and engineering aspects.1 This editorial explores the potential applications of various BCI technologies in neurorestoration,drawing insights from recent advances.展开更多
文摘High-resolution exploration for lithologic targets confronted with difficulties due to the original brought out from geophysical and geologic characteristics of the loess hills and the very thick deserts in Ordos. Scientific research since mid 1990s has conducted three acquisition techniques including the high-resolution crooked line survey in valleys, high-resolution multiple straight line survey and 3D survey, under different surface conditions and for different geological targets.
基金supported by the National Natural Science Foundation of China(U2241208,62171473,61671424)the National Key Research and Development Program of China(2022YFC3602803,2023YFF1205300)Key Research and Development Program of Ningxia(2023BEG02063).
文摘Brain-computer interface(BCI)technology is a rapidly evolving interdisciplinary field that promises to revolutionize our understanding of and interaction with the brain,particularly in neurorestoration.BCIs enable direct communication between the brain and external devices,bypassing traditional pathways involving peripheral nerves and muscles.BCI technologies can be classified into several categories based on the mode of signal acquisition,with respect to both clinical and engineering aspects.1 This editorial explores the potential applications of various BCI technologies in neurorestoration,drawing insights from recent advances.
