基于云数据日志患者生命信息的智能云控制人工呼吸设备控制器设计

2022 Sixth International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC) Pub Date : 2022-11-10 DOI:10.1109/I-SMAC55078.2022.9987291

T. S. Kumar, M. Narendra, U. Arul, S. Kavitha, P. Srinivas

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引用次数: 0

摘要

为了呼吸，人的肺利用隔膜收缩运动产生的反向压力来吸入空气。呼吸机使用相反的运动，通过泵送作用使肺部膨胀。呼吸机机构必须能够每分钟进行10到30次呼吸，并可选择以两组为一组调节上升增量。此外，呼吸机必须能够改变每次呼吸时进入肺部的空气量。最后但并非最不重要的选择是改变吸气呼气比的时间长度。除此之外，呼吸器必须能够同时调节患者的血氧浓度和呼出的肺压力，以防止气压过高/过低。我们使用arduino设计和构建的呼吸机满足所有这些参数，以便提供可靠但经济的呼吸机，以帮助在流行病情况下。为了推动通风袋，我们使用了一个硅通风袋与一个伺服电机和一个单边推动机构相连。

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Design of a Smart Cloud Controlled based Artificial Ventilator Device Controller using Patients Vital Information in a Cloud Data Logs

To breathe, the human lungs employ the reverse pressure created by the diaphragm’s contraction motion to suck in air. A ventilator uses a contrary motion to inflate the lungs via a pumping action. A ventilator mechanism must be capable of delivering between 10 and 30 breaths per minute, with the option to regulate ascending increments in sets of two. In addition, the ventilator must be able to alter the amount of air forced into the lungs with each breath. The final but not least option is to change the time length for the inhale to exhalation ratio. Aside from that, the respirator must be able to concurrently regulate the patient’s blood oxygen concentration and exhaled pulmonary pressure to prevent over/under air pressure. The ventilator we design and construct using arduino meets all of these parameters in order to provide a dependable but economical ventilator to aid in pandemic situations. To push the ventilation bag, we employ a silicon ventilation bag linked to a servo motor and a one-side push mechanism.

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2022 Sixth International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC)

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