CN112825209A - Emergency disease alarm system based on real-time positioning technology - Google Patents

Abstract

The invention provides an emergent disease alarm system based on a real-time positioning technology, which comprises a client and a server, wherein the client can be divided into two categories of patient use and medical staff use, one end of the patient use is provided with a bracelet and a mobile phone, one end of the medical staff use is provided with an alarm device, a computer display screen and a mobile phone mobile end, and the hardware equipment related to the server comprises a control console, a server and a database; the sudden disease alarm system comprises an automatic alarm system, an active alarm system and a sudden disease alarm system of a real-time positioning technology, the system can help a patient to be quickly positioned in a strange hospital environment by utilizing an accurate indoor positioning technology, and is provided with an alarm function to help medical staff to know the condition of the patient at the first time, so that the workload of the medical staff can be reduced, the patient and family members can be liberated, and the system has more time and space for free activities.

Description

Emergency disease alarm system based on real-time positioning technology

Technical Field

The invention relates to the technical field of medical alarm systems, in particular to an emergent disease alarm system based on a real-time positioning technology.

Background

By 2018, the number of executives (assistants) in china was 360.7 million, 2.59 per thousand population. The chinese executives (assistants) were 409.9 ten thousand people, 2.94 per thousand population executives. As society develops, there is an increasing demand for high-level medical services, and the need for patients is no longer limited to diseases, but begins to consider many factors other than diseases, such as: the medical staff's study, experience, equipment level, etc. Therefore, more and more patients can be sick and big doctors, the patients can break the head in the third hospital and do not go to the basic medical institution, the working pressure of medical staff in the hospitals is increased, and in such a situation, contradiction events between doctors and patients are caused frequently. Under such circumstances, it is increasingly necessary to invent a device (system) that can help medical staff monitor patients and relieve the working pressure of the medical staff.

The patients in the hospital have stable conditions, but still need to be observed in the hospital or have related rehabilitation treatment. For the patients, nursing staff need to be arranged to monitor the patients, but the patients cannot be monitored in real time, and for the patients, the patients can freely go away without accompanying staff, so that the risk that the patients cannot be rescued in time due to sudden diseases exists. In addition, for most people, it is inconvenient to find a specific department when the people just arrive at a strange environment (hospital) and the people alone. Based on the situation, the invention provides the emergent disease alarm equipment and the emergent disease alarm system based on the real-time positioning technology, which not only liberate a part of medical resources, but also reduce the risk and loss caused by the emergent disease, and can bring convenience for patients.

Disclosure of Invention

The invention provides an emergent disease alarm system based on a real-time positioning technology, which aims to solve the problems mentioned in the technical problems.

In order to achieve the purpose, the technical scheme of the invention is as follows: the emergency disease alarm system based on the real-time positioning technology comprises a client and a server, wherein the client can be divided into two categories of patient use and medical staff use, one end of the patient use is provided with a bracelet and a mobile phone, one end of the medical staff use is provided with an alarm device, a computer display screen and a mobile phone mobile end, and the hardware equipment related to the server comprises a control console, a server and a database; the emergency disease warning system comprises an automatic alarm and an active alarm.

Further, the automatic alarm comprises the following steps:

s01: the bracelet collects real-time geographic position data and physiological characteristic data of the patient and uploads the data to the server;

s02: the server side judges whether the real-time position of the patient is in the designated activity area, if the real-time position of the patient exceeds the designated activity area, the server side reminds the patient, and if the patient does not return to the designated activity area within a period of time, medical staff are informed;

s03: the server judges the motion state of the patient in the designated rest area in real time, if the patient does not displace within a period of time, information is sent to the patient to confirm the current state, and when the confirmation information is not responded for many times, medical staff are informed;

s04: after receiving the information of the server, the bracelet prompts the patient in different modes such as an optical signal, a vibration signal and the like until the response of the patient is determined;

s05: after receiving the response signal, the bracelet uploads the response signal to the server;

s06: when the server does not receive the response signal of the patient, the server informs medical staff and sends relevant information of the patient, including basic information of the patient, the reason of the alarm, the state of the illness, the real-time position and the like.

S07: medical personnel determine the situation.

Further, the active alarm comprises the following steps:

(a) if the emergency state is met, the alarm can be triggered manually under the conscious state of the patient, and the obligation personnel can be contacted at the first time;

(b) the medical staff confirms the situation.

Further, the specific steps of confirming the condition by the medical staff are as follows: after receiving the alarm signal, the medical staff can contact the patient by using the mobile phone, confirm the condition and give a prompt. If the patient is not contacted, the patient needs to be found immediately through the position of the signal source, and the situation is prevented from further worsening.

Preferably, the patient client has the following main functions:

(1) collecting real-time position and related motion information including geographic position, motion track, activity pace, accumulated motion amount and the like;

(2) collecting physiological index data, recording in real time and corresponding to the motion state one by one;

(3) warning reminding, namely sending reminding in the form of light information, sound signals or vibration information when the abnormal state of the patient is judged;

(4) touch response, wherein when receiving warning reminding or a medical staff state confirmation signal, the user responds and confirms through the bracelet;

(5) the patient manually triggers an alarm through the bracelet according to the self state;

(6) receiving a navigation destination input, wherein the destination can be input by the patient at the mobile terminal;

(7) receiving an optimal path planning scheme;

(8) the timing alarm clock can set the timing vibration reminding of the bracelet by inputting various activity (medication) plans at the mobile terminal;

further, the medical staff service end has the following main functions:

(1) medical staff can check the current position of a patient at any time and any place through a mobile terminal of a mobile phone;

(2) medical staff can receive analysis reports related to patients through a mobile terminal of a mobile phone;

(3) and informing the medical staff that the system receives the alarm information, displaying the relevant information of the patient triggering the alarm and the real-time geographical position by the display screen, and simultaneously displaying the relevant information of the patient triggering the alarm and the real-time geographical position by the mobile phone terminal.

Further, the main functions of the server are as follows:

(1) providing calculation analysis services for various requirements of a client, including calculation of an optimal path and analysis and mining of pathological information of a patient;

(2) through the management of the administrator on the users, data, systems and authorities, every time a patient using a bracelet is added or reduced, the addition and deletion operations on the system users need to be carried out on the console.

Compared with the prior art, the invention provides the sudden disease alarm system based on the real-time positioning technology, the accurate indoor positioning technology can help the patient to find the destination position and plan the optimal route in the unfamiliar hospital environment, the sudden disease alarm function can judge the real-time health condition of the patient, the sudden disease alarm can be given out in time, and the emergency rescue measures can be taken at the first time.

Drawings

FIG. 1 is a topological diagram of the emergency alert system of the present invention;

FIG. 2 is a functional schematic diagram of the emergency alert system of the present invention;

fig. 3 is a functional interaction diagram of the emergency disease alert system of the present invention.

Detailed description of the preferred embodiments

Referring to fig. 1-3, the whole set of the diagnosis guide system is composed of a client and a server, and the specific system architecture diagram can be seen in fig. 1. The client can divide into that the patient uses, medical staff uses two kinds of classifications, and wherein the one end that the patient used, the hardware equipment that relates to have bracelet and mobile phone, and the one end that medical staff used, the hardware equipment that relates to have: alarm device, computer display screen, cell-phone removal end. The hardware equipment related to the server comprises a console, a server and a database.

For the convenience of understanding, the functions of the functional modules of the client and the server are analyzed as follows:

the main functions of the patient client are: 1) collecting real-time position and related motion information including geographic position, motion track, activity pace, accumulated motion amount and the like; 2) collecting physiological index data, recording in real time and corresponding to the motion state one by one; 3) warning reminding, namely sending reminding in the form of light information, sound signals or vibration information when the abnormal state of the patient is judged; 4) touch response, wherein when receiving warning reminding or a medical staff state confirmation signal, the user responds and confirms through the bracelet; 5) the patient manually triggers an alarm through the bracelet according to the self state; 6) receiving a navigation destination input, wherein the destination can be input by the patient at the mobile terminal; 7) receiving an optimal path planning scheme; 8) the timing alarm clock can set the timing vibration reminding of the bracelet by inputting various activity (medication) plans at the mobile terminal.

The medical staff client has the following main functions: 1) medical staff can check the current position of a patient at any time and any place through a mobile terminal of a mobile phone; 2) medical staff can receive analysis reports related to patients through a mobile terminal of a mobile phone; 3) the alarm device informs medical staff systems of receiving alarm information through sound signals after receiving alarm signals, the display screen displays relevant information of patients triggering the alarm and real-time geographical positions, and meanwhile, the mobile terminal of the mobile phone can also display relevant information of the patients triggering the alarm and the real-time geographical positions.

It should be noted that after receiving the alarm signal, the medical staff may first contact the patient using the mobile phone, confirm the situation, and give a reminder. If the patient is not contacted, the patient needs to be found immediately through the position of the signal source, and the situation is prevented from further worsening.

The main functions of the server are as follows: 1) providing calculation analysis services for various requirements of a client, including calculation of an optimal path and analysis and mining of pathological information of a patient; 2) through the management of the administrator on the users, data, systems and authorities, every time a patient using a bracelet is added or reduced, the addition and deletion operations on the system users need to be carried out on the console.

It is necessary to supplement that specific data analysis and data mining algorithms need researchers to research, develop, use and use code implementation, and upload the code implementation to the server. In addition, the console can be connected with other databases in the hospital to upload other disease information of the patient to the system, and the mining of the disease information of the patient in the last step is assisted.

To further illustrate the connection between the client and the server, a flow chart of the functional implementation of the whole system is shown in fig. 3, and the main functional logic is implemented as follows.

Automatic alarm (patient activity monitoring):

s01: the bracelet collects real-time geographic position data and physiological characteristic data of the patient and uploads the data to the server;

s02: the server side judges whether the real-time position of the patient is in the designated activity area, if the real-time position of the patient exceeds the designated activity area, the server side reminds the patient, and if the patient does not return to the designated activity area within a period of time, medical staff are informed;

s03: the server judges the motion state of the patient in the designated rest area in real time, if the patient does not displace within a period of time, information is sent to the patient to confirm the current state, and when the confirmation information is not responded for many times, medical staff are informed;

s04: after receiving the information of the server, the bracelet prompts the patient in different modes such as an optical signal, a vibration signal and the like until the response of the patient is determined;

s05: after receiving the response signal, the bracelet uploads the response signal to the server;

s06: when the server does not receive the response signal of the patient, the server informs medical staff and sends relevant information of the patient, including basic information of the patient, the reason of the alarm, the state of the illness, the real-time position and the like.

S07: medical personnel determine the situation.

Active alarm (burst state):

(a) if the emergency state is met, the alarm can be triggered manually under the conscious state of the patient, and the obligation personnel can be contacted at the first time;

(b) the medical staff confirms the situation.

Indoor navigation function:

(1) the patient enters a destination on the mobile terminal;

(2) the server calculates an optimal path and sends the optimal path to the corresponding client;

(3) the patient mobile terminal receives the optimal path plan.

Analyzing and mining pathological information:

(1) the bracelet collects real-time geographic position data and physiological characteristic data of the patient and uploads the data to the server;

(2) the server side analyzes and mines the information of the state of illness and the trend of the state of illness by combining the historical data and the current data (physiological data and motion data) of the patient through a specific artificial intelligence algorithm, and sends the result to medical staff in a report form;

(3) medical personnel receive the analysis report.

Patient real-time location query:

(1) medical staff initiates a real-time position query of a patient;

(2) the server receives the signal and returns the signal to the medical staff;

in summary, the invention provides an emergency disease alarm system based on a real-time positioning technology. The complete set of system can help patients in the strange hospital environment by using an accurate indoor positioning technology. The alarm function (active triggering and automatic triggering) can help medical staff to know the condition of a patient in the first time, so that the workload of the medical staff can be reduced, the patient and family members can be liberated, and the medical staff can have more free time and space. The analysis and the mining of the daily physiological data and the exercise data of the patient can assist a doctor to diagnose the disease condition change more scientifically.

It will be understood by those skilled in the art that all or part of the steps in the methods of the above embodiments may be implemented by hardware related to instructions of a program, and the program may be stored in a computer readable storage medium. Finally, it should be noted that the above-mentioned embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (7)

1. Emergent disease alarm system based on real-time location technique, including client and server, its characterized in that: the client can be divided into two categories of patient use and medical staff use, one end of the patient use is provided, the related hardware equipment comprises a bracelet and a mobile phone, one end of the medical staff use is provided with an alarm device, a computer display screen and a mobile phone mobile end, and the hardware equipment related to the server comprises a console, a server and a database; the emergency disease warning system comprises an automatic alarm and an active alarm.

2. The sudden illness alert system based on real time localization technology of claim 1, wherein: the automatic alarm comprises the following steps:

s01: the bracelet collects real-time geographic position data and physiological characteristic data of the patient and uploads the data to the server;

s02: the server side judges whether the real-time position of the patient is in the designated activity area, if the real-time position of the patient exceeds the designated activity area, the server side reminds the patient, and if the patient does not return to the designated activity area within a period of time, medical staff are informed;

s03: the server judges the motion state of the patient in the designated rest area in real time, if the patient does not displace within a period of time, information is sent to the patient to confirm the current state, and when the confirmation information is not responded for many times, medical staff are informed;

s04: after receiving the information of the server, the bracelet prompts the patient in different modes such as an optical signal, a vibration signal and the like until the response of the patient is determined;

s05: after receiving the response signal, the bracelet uploads the response signal to the server;

s06: when the server does not receive the response signal of the patient, the server informs medical staff and sends relevant information of the patient, including basic information of the patient, the reason of the alarm, the state of the illness, the real-time position and the like.

S07: medical personnel determine the situation.

3. The sudden illness alert system based on real time localization technology of claim 1, wherein: the active alarm comprises the following steps:

(a) if the emergency state is met, the alarm can be triggered manually under the conscious state of the patient, and the obligation personnel can be contacted at the first time;

(b) the medical staff confirms the situation.

4. The sudden illness alert system based on real time localization technology of claim 2 or 3, characterized in that: the step S07 and the step (b) of confirming the situation by the medical staff specifically include: after receiving the alarm signal, the medical staff can contact the patient by using the mobile phone, confirm the condition and give a prompt. If the patient is not contacted, the patient needs to be found immediately through the position of the signal source, and the situation is prevented from further worsening.

5. The sudden illness alert system based on real time localization technology of claim 1, wherein: the main functions of the patient client are:

(1) collecting real-time position and related motion information including geographic position, motion track, activity pace, accumulated motion amount and the like;

(2) collecting physiological index data, recording in real time and corresponding to the motion state one by one;

(3) warning reminding, namely sending reminding in the form of light information, sound signals or vibration information when the abnormal state of the patient is judged;

(4) touch response, wherein when receiving warning reminding or a medical staff state confirmation signal, the user responds and confirms through the bracelet;

(5) the patient manually triggers an alarm through the bracelet according to the self state;

(6) receiving a navigation destination input, wherein the destination can be input by the patient at the mobile terminal;

(7) receiving an optimal path planning scheme;

(8) the timing alarm clock can set the timing vibration reminding of the bracelet by inputting various activity (medication) plans at the mobile terminal.

6. The sudden illness alert system based on real time localization technology of claim 1, wherein: the medical staff service end has the following main functions:

(1) medical staff can check the current position of a patient at any time and any place through a mobile terminal of a mobile phone;

(2) medical staff can receive analysis reports related to patients through a mobile terminal of a mobile phone;

(3) and informing the medical staff that the system receives the alarm information, displaying the relevant information of the patient triggering the alarm and the real-time geographical position by the display screen, and simultaneously displaying the relevant information of the patient triggering the alarm and the real-time geographical position by the mobile phone terminal.

7. The sudden illness alert system based on real time localization technology of claim 1, wherein: the main functions of the server are as follows:

(1) providing calculation analysis services for various requirements of a client, including calculation of an optimal path and analysis and mining of pathological information of a patient;

(2) through the management of the administrator on the users, data, systems and authorities, every time a patient using a bracelet is added or reduced, the addition and deletion operations on the system users need to be carried out on the console.

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