Respiration Sensor(呼吸传感器)研究综述
Respiration Sensor 呼吸传感器 - Because those electrical signals can also be used to sense motion, developers imagine self-powered touch sensors and heart rate or respiration sensors that power themselves by harvesting energy from beating hearts and expanding lungs. [1] The signal simulation and performance tests of the respiration sensor have been conducted, which demonstrate that the sensor has great performance in anti-interference, response speed, sensitivity, durability, and stability in long-time usage. [2] Results showed that exposure to green space led to significant changes in PRS, electrodermal activity (EDA), facial electromyography (EMG), respiration sensor (RESP), and photoplethysmography (PPG), while there is no significant impact on skin temperature (SKT). [3] Herein, a convenient mask-based respiration sensor was designed to access multiple high-resolution respire-related states in a wearable and noninvasive manner. [4] Physiological respiration behaviors and exhaled chemical regents can be precisely and continuously monitored by TENG-based respiration sensors for personalized health care. [5] Throughout the experiment physiological data from an electroencephalogram (EEG), an electrocardiogram (ECG), and respiration sensor was collected and interpreted. [6] This paper summarizes the in vivo applications of NGs as biomedical sensors, including in cardiac sensors, respiration sensors, blood pressure sensors, gastrointestinal sensors and bladder sensors. [7] Measurements by Electrocardiogram (ECG) and respiration sensor were also carried out simultaneously for comparison purpose. [8] In this work several biosignals are explored for emotion assessment during immersive video visualization, collecting multimodal data from Electrocardiography (ECG), Electrodermal Activity (EDA), Blood Volume Pulse (BVP) and Respiration sensors. [9] The fabricated flexible film was deposited on an interdigitated electrode with polyethylene terephthalate substrate and employed as electrical identification component for respiration sensor. [10] This article presents a leather-based respiration sensor based on the ionic conductivity change of leather, caused by humidity variation during breathing. [11] Real-time bio-signal detecting devices are critical for obtaining important physiological signals and recognizing respiratory diseases; the respiration sensor is one such important device. [12]由于这些电信号也可用于感知运动,因此开发人员可以想象自供电的触摸传感器和心率或呼吸传感器,它们通过从跳动的心脏和扩张的肺中收集能量来为自己供电。 [1] 对呼吸传感器进行了信号仿真和性能测试,表明该传感器在抗干扰、响应速度、灵敏度、耐用性和长期使用稳定性等方面具有良好的性能。 [2] 结果表明,暴露于绿色空间导致 PRS、皮肤电活动 (EDA)、面部肌电图 (EMG)、呼吸传感器 (RESP) 和光电容积描记 (PPG) 发生显着变化,而对皮肤温度 (SKT) 没有显着影响. [3] 本文设计了一种方便的基于面罩的呼吸传感器,以可穿戴和无创的方式访问多个高分辨率呼吸相关状态。 [4] 基于 TENG 的呼吸传感器可以精确、持续地监测生理呼吸行为和呼出的化学试剂,以实现个性化的医疗保健。 [5] 在整个实验过程中,收集并解释了来自脑电图 (EEG)、心电图 (ECG) 和呼吸传感器的生理数据。 [6] 本文总结了 NGs 作为生物医学传感器的体内应用,包括在心脏传感器、呼吸传感器、血压传感器、胃肠道传感器和膀胱传感器中的应用。 [7] 心电图(ECG)和呼吸传感器的测量也同时进行以进行比较。 [8] 在这项工作中,探索了几种生物信号用于沉浸式视频可视化期间的情绪评估,从心电图 (ECG)、皮肤电活动 (EDA)、血容量脉冲 (BVP) 和呼吸传感器收集多模态数据。 [9] 将制造的柔性薄膜沉积在具有聚对苯二甲酸乙二醇酯基板的叉指电极上,并用作呼吸传感器的电识别组件。 [10] 本文介绍了一种基于皮革的呼吸传感器,该传感器基于皮革的离子电导率变化,这是由呼吸过程中的湿度变化引起的。 [11] 实时生物信号检测设备对于获取重要生理信号和识别呼吸系统疾病至关重要;呼吸传感器就是这样一个重要的设备。 [12]
Disposable Respiration Sensor
The successful demonstration of a stable, low-cost, and disposable respiration sensor with a highly accurate classification of signals is a major step ahead in developing wearable respiration sensors for future personal healthcare monitoring systems. [1] Our disposable respiration sensor with a Band-Aid© like formfactor can measure both respiration rate and volume by simply measuring the local strain of the ribcage and abdomen during breathing. [2]成功展示具有高度准确信号分类的稳定、低成本和一次性呼吸传感器是为未来的个人医疗保健监测系统开发可穿戴呼吸传感器的重要一步。 [1] 我们的一次性呼吸传感器带有 Band-Aid© 形状因子,可以通过简单地测量呼吸过程中胸腔和腹部的局部应变来测量呼吸频率和呼吸量。 [2]
Acoustic Respiration Sensor
Respiratory rate and oxygen saturation (SpO2) were monitored continuously using an adhesive acoustic respiration sensor and pulse oximeter, respectively, at least 6 hours after cesarean delivery. [1] Massimo’s acoustic respiration sensor the RAS-45 for Rainbow Acoustic Monitoring scored FDA clearance for infants and patients 10kg and under. [2]在剖宫产后至少 6 小时,分别使用粘性声学呼吸传感器和脉搏血氧计连续监测呼吸频率和血氧饱和度 (SpO2)。 [1] Massimo 的用于彩虹声学监测的 RAS-45 声学呼吸传感器获得了 FDA 对 10 公斤及以下婴儿和患者的许可。 [2]