载人航天
載人航天
재인항천
MANNED SPACEFLIGHT
2012年
3期
87-92
,共6页
杨鑫%吴边%陈卫东%张韶岷%代建华%郑筱祥
楊鑫%吳邊%陳衛東%張韶岷%代建華%鄭篠祥
양흠%오변%진위동%장소민%대건화%정소상
头皮脑电%脑机接口%非植入式%航天应用
頭皮腦電%腦機接口%非植入式%航天應用
두피뇌전%뇌궤접구%비식입식%항천응용
Electro-encephalography%Brain-Machine Interface%Non-Invasive%Space Application
脑机接口技术应用于航天领域可提升空间操作的安全性和效率。介绍非植入式脑机接口技术的发展现状,通过引入最新的脑信号监测技术和解码模型,探讨脑机接口技术在航天领域的潜在应用。目前基于头皮脑电的脑机接口方法受限于速度、容量和传输精度,但这些局限会随着该技术的发展而逐渐减小。
腦機接口技術應用于航天領域可提升空間操作的安全性和效率。介紹非植入式腦機接口技術的髮展現狀,通過引入最新的腦信號鑑測技術和解碼模型,探討腦機接口技術在航天領域的潛在應用。目前基于頭皮腦電的腦機接口方法受限于速度、容量和傳輸精度,但這些跼限會隨著該技術的髮展而逐漸減小。
뇌궤접구기술응용우항천영역가제승공간조작적안전성화효솔。개소비식입식뇌궤접구기술적발전현상,통과인입최신적뇌신호감측기술화해마모형,탐토뇌궤접구기술재항천영역적잠재응용。목전기우두피뇌전적뇌궤접구방법수한우속도、용량화전수정도,단저사국한회수착해기술적발전이축점감소。
The space application of brain-machine interface technology may improve the safety and effect of space operations. The current development of non-invasive brain-machine interface technology is addressed, and potential space applications of brain-machine interface are investigated by introducing the most advanced brain signal monitor technology and decoding model. While the brain-machine interface based on Electro-encephalography are always limited to rate, capacity and transmission accuracy, the limitations will be removed gradually with the development of brain-machine interface technology.
