生物医学传感技术

通过编程设计特定的调制电位&时间波形，保持连续检测的长期稳定性。这一新的生物医学传感技术可用来无创、实时、动态连续检测呼吸气体CO2和O2

Results were obtained which demonstrate that the novel biomedical sensor techniques can be used for the non invasive , real time and dynamic simultaneous monitoring of respiratory gases CO 2 and O 2

基于状态观与系统论的生物医学传感技术的研究

Development of Biomedical Sensor Technology based on State Viewpoint and Systematic Theory

实时动态连续检测呼吸气体二氧化碳和氧的生物医学传感技术研究

Studies on the Biomedical Sensor Techniques for Real Time and Dynamic Simultaneous Detection and Measurements of Respiratory Gases Carbon Dioxide and Oxygen

生物医学传感技术是获取生物生理和病理信息的关键技术，这一领域的研究已经深入到细胞和分子层次。

Biomedical sensor technology is crucial in acquiring physiological and pathological information , and the research in this area has reached the cellular level and molecular level .

移动医疗作为最近几年才兴起的一种新型医疗模式，是生物医学传感技术、移动计算技术与网络互联技术三者相结合的产物。

As a new medical model in recent years , mobile medical model is a combination of the biomedical sensor technology , mobile computing technology and networking technology .

随着嗅觉机理研究的不断深入以及现代生物医学传感技术的不断进步，人们模仿嗅觉感知气味的机理，以生物活性材料作为敏感元件，耦合各种二级换能器，构建了多种仿生嗅觉传感器。

With the progress of research on olfactory mechanisms and the advancements of modern biomedical sensing technologies , by imitating the biological mechanisms of olfaction , many types of biomimetic olfactory-based biosensors have been developed by the combination of olfactory functional components with various secondary sensors .

随着生物医学工程学科的发展，生物医学传感技术的研究已达到了细胞和分子水平。

With the development of Biomedicine Engineering , the research on biomedical sensor technology has reach on the cellular level and molecular level .