通过这些复杂的观察、评估和电生理仪器的测量,我们可以得知,刚出生几天的新生儿的感知能力超乎我们之前的猜测。
With these sophisticated observational assessment and electro-physiological measures, we know that the neonate of only a few days is far more perceptive than previously suspected.
从理论分析入手,提出一种测量生理仪器或其内部单元电路线性度的新方法。
Based on theoretic analysis, a new method for measuring linearity of physiological instrument and its inner unit circuits is provided.
实验结果表明,用此方法能够快速简便地测量生理仪器或内部单元电路的线性度。
The results of experiment show this method is quick and convenient for measuring the linearity of physiological instrument and its inner unit circuits.
实验结果表明,用此方法能够快速简便地测量生理仪器或内部单元电路的线性度。
The results of experiment show this method is quick and convenient for measuring the …
该系统经过扩展可以适应各种生理数据的采集和处理,是未来生理仪器开发的方向。
Adapted to various physiological signals with the expanded functions, the system can be considered as the for developing the direction future physiological instrument.
该系统经过扩展可以适应各种生理数据的采集和处理,是未来生理仪器开发的方向。
Adapted to various physiological signals with the expanded functions, the system can be considered as the future physiological instrument's direction.
方法仪器由介入超声硬度检测导管、生理信号单元和主机组成。
Methods the equipment was composed of intervention ultrasound stiffness detection catheter, physiological signal unit and mainframe.
提出了将CPLD应用在虚拟化电生理实验仪器中实际意义,详细介绍了实现过程。
The practical significance of the application of CPLD in virtual instrument for electrophysiological experiments is proposed. The implementing procedure is described in detail.
它既可作为生理信号检测的实验设备,也为医疗仪器设计和医学信号处理的教学实验提供了良好的平台。
It also provides an excellent platform for the lab teaching on the biomedical instrument designing and the bio-signal processing.
培训课程包括基础解剖学和生理学、心血管药物原理以及心脏诊断仪器的使用。
Training includes foundational courses in anatomy and physiology, the principles of cardiovascular medicine, and the use of cardiac diagnostic equipment.
临床中使用的监护仪器受体积、导线连接、费用等方面的限制,不能用于日常生理参数的采集。
Those clinical monitor apparatus are not suit to collect the routine physiological data because of large volumes, connecting wires and high cost.
生物医学传感器是将医学生理参数转换成电学量的装置,是构成现代医学仪器设备必不可少的关键部件。
Biomedical sensor is a key component to the modern medical instrument, which can convert physiological value to electrical signal.
描述了这些生理指标的测试、计算方法以及有关测试仪器。从而为全面研究服装的舒适性与功能提供了可靠的生理学评价手段。
Their measurement, calculation and measuring apparatus are introduced. Theevaluation methods of physiology are provided for comprehensive research of clothing com-forts and function.
在人身上取得影像并检视资料,借由切面影像来熟悉解剖构造的三维视觉化呈现,并比较来自生理与仪器的杂讯。
Acquisition and examination of human data to gain familiarity with 3d anatomic visualization using cross-sectional images and compare physiological and instrumental sources of noise.
所述系统进一步包括电生理学仪器(1),所述电生理学仪器(1)具有第二同步装置和用于根据所述个体建立对所述声学信号的诱发反应的装置(7)。
The system further comprises an electrophysiological instrument (1) having a second synchronizing means, and means (7) for establishing from said individual an evoked response to said acoustic signal.
目的:设计检测多路生理信号并反馈多个生理参数的生物反馈仪器,用于相关疾病的治疗。
Objective To design a multi-signal bio-feedback instrument in order to treat related diseases.
用该仪器对新生儿的血氧饱和度和心率这两个最重要的生理参数的测定获取了中国新生儿呼吸系统的数据。
Using the system, two most important parameters of neonates were obtained. Through statistics analysis, it is proved that the SpO2 and heart rate are both of normal distribution.
用该仪器对新生儿的血氧饱和度和心率这两个最重要的生理参数的测定获取了中国新生儿呼吸系统的数据。
Using the system, two most important parameters of neonates were obtained. Through statistics analysis, it is proved that the SpO2 and heart rate are both of normal distribution.
应用推荐