The creation system includes a brain wave capturing portion, an optical portion, an intraocular pressure measuring portion, and a control portion. When the optical optometry process is performed on the optical system with the best visual maximum positive spherical lens structure and the equivalent spherical lens structure, the intraocular pressure measurement unit separately measures and obtains different intraocular pressure signals. The brainwave capture department immediately captures the concentration signal. The control unit can analyze the optimal vision maximum positive spherical lens structure, and the focus signal is increased and the intraocular pressure signal is lowered, and the visual comfort is comfortable. The equivalent spherical lens structure exhibits an increase in intraocular pressure signal and visual discomfort. Therefore, this case has the advantage that the low-degree astigmatism can not replace the low-degree astigmatism optimal vision correction lens with the equivalent spherical degree lens, the brain wave combined with the intraocular pressure test to confirm the far-sighted vision best corrected diopter, and the objective optometry accuracy is high. .本創作係包括一腦波擷取部、一光學部、一眼壓測量部及一控制部。當以光學部之最佳視力最大正球面度鏡片結構、等效球面度鏡片結構先後進行視力驗光的過程,復以眼壓測量部分別測量而得到不同的眼壓訊號。腦波擷取部即時擷取專注度訊號。控制部可分析出最佳視力最大正球面度鏡片結構,呈現專注度訊號上升且眼壓訊號下降,視覺舒適。等效球面度鏡片結構呈現眼壓訊號上升,視覺不適。故,本案兼具可證明低度數散光者不能以等效球面度數鏡片取代低度數散光最佳視力矯正鏡片、腦波配合眼壓檢測確認遠方視力最佳矯正屈光度,及客觀性驗光準確性高等優點。