Microcapsule electrophoretic image display (EPID) is one of the most important technology for realizing flexible display.
微胶囊电泳显示电子墨水技术(EPID)是实现柔性显示的重要技术之一。
Online correction of setup error using EPID in order to reduce systematic error and random error and then improve setup precision.
在EPID系统下进行实时摆位误差纠正,可进一步降低摆位系统误差和随机误差,提高摆位精度。
OBJECTIVE: to investigate organs motion during radiotherapy using electronic portal image device (EPID) so that to automatically inspect on the treatment region.
目的:用电子射野影像装置研究放射治疗过程中的器官运动,以便对治疗部位进行自动监测。
With advanced knowledge about the dosimetry characteristics of EPID, the use of EPID for dosimetry verification was adapted from the research study to the clinic.
随着对电子射野影像系统的剂量学特性的不断了解,用它进行剂量学验证也开始从实验室研究走向临床应用。
The dose response curves of the EPID were established by relating the pixel value output of the EPID with the incident radiation intensity received by the detector.
通过建立入射到探头的射线强度与EPID像素值之间的关系,得到了EPID的剂量响应曲线。
This study investigates the influence of flattening filter on the IMRT treatment delivery time and the application of electronic portal imaging device (EPID) in dosimetric verification.
本文研究均整器对IMRT治疗实施时间的影响和电子射野影像系统(EPID)在剂量验证中的应用。
This study investigates the influence of flattening filter on the IMRT treatment delivery time and the application of electronic portal imaging device (EPID) in dosimetric verification.
本文研究均整器对IMRT治疗实施时间的影响和电子射野影像系统(EPID)在剂量验证中的应用。
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