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Remote diabetes intelligent diagnosis system based on electronic nose for detecting respiratory gas

An intelligent diagnosis and breathing gas technology, applied in the field of disease diagnosis, can solve problems such as raising the user threshold, wasting hardware resources, increasing user costs, etc., to achieve the effect of improving diagnosis accuracy, meeting storage requirements, and accurate diagnosis results

Inactive Publication Date: 2018-10-23
CHONGQING UNIV
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AI Technical Summary

Problems solved by technology

[0003] However, there are still many problems to be solved in this field. Although the existing electronic nose systems can perform non-invasive diagnosis of diabetes, these systems need to rely on the local host computer for pattern recognition.
The local host computer is expensive, which is not only a huge waste of hardware resources, but also greatly increases user costs and raises the threshold for users to use, making it difficult for the system to be popularized in the vast communities and hospitals at all levels, which is not conducive to the system's large-scale Crowd screening and routine testing

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  • Remote diabetes intelligent diagnosis system based on electronic nose for detecting respiratory gas
  • Remote diabetes intelligent diagnosis system based on electronic nose for detecting respiratory gas
  • Remote diabetes intelligent diagnosis system based on electronic nose for detecting respiratory gas

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Embodiment Construction

[0021] The specific implementation of the present invention will be described in detail below. This description is only an example and will not limit the scope of use and application of the invention.

[0022] refer to Figure 1 to Figure 3 , an embodiment mainly includes the following steps: the first step is to collect the user’s exhaled gas through the respiratory gas collection module. It is recommended that the user first rinse the mouth with water for 3-5 times and take a deep breath for 2-3 times, and then the user exhales into the sampling bag, Tighten the sampling bag after filling. The air bag can be a Tedlar air bag with a fixed capacity, and the storage time is preferably no more than 12 hours. In this step, the user completes the quantitative collection of exhaled gas. In the second step, open the multifunctional solenoid valve and the gas sampling pump of the exhalation component enrichment module, and pass the ambient air into the gas reaction chamber through t...

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Abstract

The invention relates to a remote diabetes intelligent diagnosis system based on electronic nose for detecting respiratory gas, which includes: an electronic nose detection module, a wireless transmission module, an intelligent mobile terminal module, and a machine learning application module deployed in a cloud platform. The system can remotely analyze expiration signal, collected by the electronic nose, of human body by using the machine learning application deployed in the cloud platform in order to obtain a diagnosis result, which is then sent to and displayed on the intelligent mobile terminal module. The electronic nose detection module can acquire concentration information of sensitive components in the respiratory gas from a user and then sends a responding signal to the intelligent mobile terminal module through the wireless transmission module; then the user uploads the data to a cloud server for processing the data; and the machine learning application deployed in the cloudplatform can quickly give out the diagnosis result, which is displayed on the intelligent mobile terminal module. The intelligent diagnosis system achieves rapid noninvasive diagnosis of diabetes, hasthe potential of supplying remote medical service, reduces use threshold of users, and may be applied to large-scale screening and daily detection on the diabetes.

Description

technical field [0001] The invention relates to the field of disease diagnosis, and specifically proposes a remote diabetes intelligent diagnosis system based on electronic nose detection of breathing gas, which is expected to be used for remote and non-invasive diagnosis of diabetes. Background technique [0002] In recent years, the number of diabetic patients has been increasing worldwide, especially in developing countries. Studies have found that early diagnosis of diabetes is of great significance. At present, conventional diagnostic methods are mainly based on blood glucose, and this invasive diagnostic method will bring a lot of pain and heavy psychological burden to the subjects. Studies in recent years have shown that normal people and diabetic patients can be effectively distinguished by detecting the content of certain gas components in the exhaled breath of the human body. Among the current breath detection equipment, the electronic nose can respond to various ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N33/64
CPCG01N33/64G01N2800/042
Inventor 皮喜田张亚光刘洪英
Owner CHONGQING UNIV
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