TW201519861A - Method and system for real-time detecting physiological signal - Google Patents

Abstract

The invention is suitable for the field of communication services and provides a real-time detection method of a physiological signal. The method includes the steps that a timestamp sent by a communication terminal is received by a detection terminal, and synchronous adjusting is performed on a clock according to the timestamp; the detection terminal periodically detects the physiological signal of a user; the detection terminal sends the physiological signal to the communication terminal in a wireless mode. The physiological signal includes physiological data and the timestamp. According to the technical scheme, the real-time detection method and system of the physiological signal have the advantage of real-time monitoring.

Description

Instant detection method and system for physiological signals

The invention belongs to the field of communication services, and in particular relates to a method and system for detecting an immediate signal of a physiological signal.

Medical service informationization is an international development trend. With the rapid development of information technology, more and more hospitals in China are accelerating the implementation of the overall construction based on the information platform and HIS system to improve the service level and core competitiveness of the hospital. Informatization not only improves the efficiency of doctors, but also allows doctors to spend more time serving patients, which improves patient satisfaction and trust, and invisibly establishes the hospital's scientific image. Therefore, the gradual integration of medical business applications and basic network platforms is becoming a new direction for domestic hospitals, especially for large and medium-sized hospitals.

Under the new medical reform situation, how to choose the correct and realistic model and path to realize the informationization of medical services? How to emancipate the mind and improve the laws and regulations, not only ensure the public welfare nature of public medical care, but also effectively use the social strength of the cooperative manufacturers to develop rapidly and healthily? A few days ago, well-known experts and scholars from the capital gathered together to conduct in-depth discussions on the informationization of medical services and the direction of appointment registration under the new medical reform situation.

International development trend

In the past few years, the US medical service information industry has made great progress. Google has partnered with medical centers in the United States to create electronic archives for millions of community patients that doctors can monitor remotely. Microsoft has also launched a new medical information service platform that explains doctors, The patient and the patient's family know the patient's current situation. Intel also launched a digital medical platform a few years ago to help doctors interact with patients through IT. IBM has also made great efforts in this regard.

Huang Jianshi, assistant to the president of the Chinese Academy of Medical Sciences and deputy director of the Health Management Branch of the Chinese Medical Association, pointed out that medical information informatization is an inevitable trend in the development of medical science. Appointed appointments will be more and more in the future, and finally fully popularized. Appointment to a doctor is to seek medical treatment in a targeted manner while knowing your health status and medical resources information. It is inevitable to meet people's personalized medical needs.

China's development

Medical informationization, that is, the digitization, networking, and informationization of medical services, refers to the provision of patient information and management between hospitals and departments of hospitals through computer science and modern network communication technology and database technology. Information collection, storage, processing, extraction and data exchange, and meet the functional needs of all authorized users. According to the internationally unified medical system informationization level, the construction of medical informationization is divided into three levels: hospital information management system, clinical information management system and public health informationization.

According to the “2013-2017 China Medical Information Industry Market Prospect and Investment Strategic Planning Analysis Report” published by Qianzhan.com, most of China's hospital information construction is still in the stage of hospital information management system construction, namely, price/charge system and finance. System-centric hospital information management system.

The Ministry of Health's "Twelfth Five-Year Plan" clearly states that health informationization is an important task for deepening medical reform. The Ministry of Health has initially determined the road map for China's health informationization construction, referred to as the “3521 Project”, which is to build a three-level health information platform at the national, provincial and prefecture levels to strengthen the public. Health, medical services, new rural cooperative medical system, essential medicine system, comprehensive management of five business applications, the construction of two basic databases of health records and electronic medical records and a private network.

The analysis pointed out that under the new round of policy promotion, the total investment in China's medical IT is expected to reach 24 billion yuan in 2013, and the compound growth rate in 2010-2013 will remain at around 20%.

The Ministry of Health of China has initially determined the road map for China's health informationization construction, referred to as the “3521 Project”, which is to build a three-level health information platform at the national, provincial and prefecture levels; strengthen public health, medical services, new rural cooperative medical, basic The drug system and comprehensive management of five business applications; the construction of two basic databases of health records and electronic medical records and the construction of a private network. Compared with developed countries, China's medical informationization level is still at a low level. At present, the annual investment in IT in the domestic medical industry accounts for about 0.8% of the expenditure of health institutions, while that in developed countries reaches 3%-5%. China's medical informationization has a broad future development space.

The existing methods of processing physiological information cannot meet the requirements of instant detection and monitoring, and cannot meet the requirements of users.

An object of the present invention is to provide an instant detection method for a physiological signal, which solves the problem that the prior art cannot achieve immediate detection and monitoring.

The embodiment of the present invention is implemented in this way. In one aspect, a method for detecting a physiological signal is provided. The method includes: detecting, by a terminal, a timestamp sent by a communication terminal, synchronizing the clock according to the timestamp, and detecting periodicity of the terminal. Detecting physiological signals of the user; The detecting terminal sends the physiological signal to the communication terminal by using a wireless method. The physiological signal includes: physiological data and a time stamp. Optionally, the detecting terminal sends the physiological signal to the communication terminal by using a wireless manner, which includes: detecting the interval of the terminal. The wireless function is enabled at a set time, and the physiological signal is sent to the communication terminal by wireless, and the communication terminal turns on the wireless function every time a set time is set, and receives the physiological signal.

Optionally, before the detecting terminal sends the physiological signal to the communication terminal by using the wireless method, the method further includes: the detecting terminal subtracts the current physiological data from the physiological threshold to obtain a difference, and the difference corresponds to the current physiological data. The time stamp is reserved and transmitted to the communication terminal.

In another aspect, a physiological signal detection system includes: a receiving unit configured to receive a time stamp sent by the communication terminal; a synchronization unit configured to synchronously adjust the clock according to the time stamp; and a detecting unit configured to cycle Sexually detecting a physiological signal of the user; the sending unit is configured to send the physiological signal to the communication terminal by using a wireless method, the physiological signal includes: physiological data and a time stamp; optionally, the detecting terminal is turned on every set time The wireless function wirelessly transmits the physiological signal to the communication terminal, and the communication terminal turns on the wireless function every time a set time is set, and receives the physiological signal.

Optionally, the system further includes: a subtracting unit, configured to subtract the current physiological data from the physiological threshold to obtain a difference; The sending unit is configured to reserve the difference and the time stamp corresponding to the current physiological data, and transmit the time stamp to the communication terminal.

In the embodiment of the present invention, the technical solution provided by the present invention has the advantages of real-time monitoring and monitoring.

21‧‧‧ Receiving unit

22‧‧‧Synchronization unit

23‧‧‧Detection unit

24‧‧‧Send unit

25‧‧‧Subtraction unit

1 is a flow chart of a method for instantaneous detection of physiological signals provided by the present invention; and FIG. 2 is a structural diagram of an instant detection system for physiological signals provided by the present invention.

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The embodiment of the present invention provides a method for detecting a physiological signal. The method is implemented by the physiological signal processing system. As shown in FIG. 1 , the method includes: S10. The detecting terminal receives a time stamp sent by the communication terminal, and synchronizes the clock according to the time stamp. Adjusting S11, detecting that the terminal periodically detects the physiological signal of the user; S12. The detecting terminal sends the physiological signal to the communication terminal by using a wireless method, and the physiological signal includes: physiological data and a time stamp.

Optionally, the foregoing method may further include: after S12: The change curve of the physiological signal is drawn according to the physiological signal and the time stamp, and the suggestion information is generated according to the change curve, and the suggestion information is returned to the communication terminal.

The above suggested information may specifically be, health advice, or other suggestions, such as physiological data above the health value, the health value can be determined according to medical time data, for example, when the physiological data is blood pressure value, when the diastolic blood pressure is higher than At 140 mmHg, it was determined to be higher than the health value. Of course, the above suggestions may also be other suggestions, and the specific expression form of the proposed information of the present invention is unchanged.

Optionally, the physiological information includes, but is not limited to, one or more of blood pressure, blood oxygen, heart rate, body temperature, or sleep monitoring information. It should be noted that the above physiological data only includes information that can be obtained through non-invasive detection, and does not include information that needs to be acquired through invasive detection, such as blood sugar, blood lipids, uric acid and the like.

In addition, the detection terminal may specifically be a smart watch, and the communication terminal may specifically be a smart device such as a mobile phone or an IPAD. The above wireless communication method may specifically be a wireless communication device such as Bluetooth or WIFI, because the distance between the smart watch and the mobile phone is short, so the distance between the transmission time can be neglected.

Due to the characteristics of the watch, for the mobile phone, the user feels very normal when charging the user every day. However, for the watch, if it is charged every day, it greatly affects the user's feeling of use. Therefore, for a device such as a detecting terminal, how to save power belongs to one. A very important direction, because if the detection terminal keeps communicating with the communication terminal, this will undoubtedly waste a lot of power, and the communication terminal is not likely to perform the function of physiological information detection, if the communication of the communication terminal is maintained for a long time. The loss is also very large, so a way to save both sides of the power is needed.

Optionally, the method for implementing the foregoing S12 may be: detecting the terminal to enable the wireless function every time a set time is set, and transmitting the physiological signal to the communication terminal by using a wireless manner, and the communication terminal turns on the wireless function every time a set time is set, and receives the physiological signal. .

Optionally, the implementation manner of the foregoing S12 may be: the detecting terminal subtracts the current physiological data from the physiological threshold to obtain a difference, and the difference is retained with the time stamp corresponding to the current physiological data, and is transmitted to the communication terminal.

The detecting terminal judges the difference between the current physiological data and the last physiological data, and when the difference is greater than the set threshold, the time stamp corresponding to the physiological data and the physiological data is retained, and if the difference is less than the set threshold, the detecting is deleted. This physiological data, keep a time stamp. This saves storage space.

The embodiment of the present invention provides a system for detecting a physiological signal. The system includes a receiving unit 21 for receiving a time stamp sent by a communication terminal, and a synchronization unit 22 for clocking the clock according to the time stamp. The detection unit 23 is configured to periodically detect the physiological signal of the user; the sending unit 24 is configured to send the physiological signal to the communication terminal by using a wireless method, where the physiological signal includes: physiological data and a time stamp; Optionally, the sending unit 24 is specifically configured to enable the wireless function every time a set time is set, and send the physiological signal to the communication terminal by using a wireless manner.

The above system may further comprise: a subtraction unit 25 for subtracting the current physiological data from the physiological threshold to obtain a difference The sending unit 24 is configured to reserve the difference and the time stamp corresponding to the current physiological data, and transmit the time stamp to the communication terminal.

Optionally, the system further includes: a determining unit, configured to determine a difference between the current physiological data and the last physiological data; and a data processing unit, configured to retain the physiological data if the difference is greater than a set threshold And the time stamp corresponding to the physiological data, if the difference is less than the set threshold, the current physiological data is deleted, and the time stamp is retained.

It should be noted that, in the foregoing embodiment, each unit included is only divided according to functional logic, but is not limited to the above division, as long as the corresponding function can be implemented; in addition, the specific name of each functional unit is also They are only used to facilitate mutual differentiation and are not intended to limit the scope of the present invention.

In addition, those skilled in the art can understand that all or part of the steps of implementing the above embodiments may be implemented by a program to instruct related hardware, and the corresponding program may be stored in a computer readable storage medium. Storage medium, such as ROM/RAM, diskette or CD.

The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in the protection of the present invention. Within the scope.

Claims (6)

A method for detecting a physiological signal in real time, the method comprising: detecting that the terminal receives the time stamp sent by the communication terminal, and synchronizing the clock according to the time stamp; detecting the physiological signal of the user periodically by detecting the terminal; detecting the terminal The physiological signal is wirelessly transmitted to the communication terminal, and the physiological signal includes: physiological data and a time stamp. The method for detecting a physiological signal according to claim 1, wherein the detecting terminal wirelessly transmitting the physiological signal to the communication terminal comprises: detecting that the terminal turns on the wireless function every time a set time is set, and the physiologically The signal is sent to the communication terminal, and the communication terminal turns on the wireless function every time a set time is set, and receives the physiological signal. The method for detecting a physiological signal according to claim 2, wherein the method further comprises: detecting, by the detecting terminal, subtracting the physiological data from the physiological threshold to obtain a difference before the detecting terminal transmits the physiological signal to the communication terminal by using a wireless method. The value is retained by the time stamp corresponding to the current physiological data and transmitted to the communication terminal. An instant detection system for a physiological signal, the system comprising: a receiving unit, configured to receive a time stamp sent by the communication terminal; a synchronization unit configured to synchronously adjust the clock according to the time stamp; and a detecting unit, configured to cycle The physiological signal of the user is detected; the sending unit is configured to send the physiological signal to the communication terminal by using a wireless method, and the physiological signal includes: physiological data and a time stamp. The instant detection system of the physiological signal according to claim 4, wherein the detecting terminal turns on the wireless function every time a set time is set, and sends the physiological signal to the communication terminal by using a wireless method, and the communication terminal turns on the wireless function every interval time. Receiving the physiological signal. The system of claim 5, wherein the system further comprises: a subtracting unit, configured to subtract the current physiological data from the physiological threshold to obtain a difference; and the transmitting unit is configured to use the difference The time stamp corresponding to the physiological data is retained and transmitted to the communication terminal.