CN112185537A - Intelligent medical hospitalization management system - Google Patents

Abstract

The invention discloses an intelligent medical hospitalization management system which comprises a cloud server, a hospital server, a WIFI relay station, a patient terminal and a medical care terminal, wherein the cloud server is connected with the hospital server through a wireless fidelity (WIFI) relay station; the cloud server is used for acquiring coordinate information of the patient and a WIFI relay station in a preset range of the coordinate information after receiving a service request sent by the patient terminal, monitoring the current access time and distributing an order to the hospital server, and the hospital server selects corresponding professional medical personnel according to the type of the service request; the patient terminal comprises a positioning module for positioning the position of a patient in real time, a measuring module for detecting data reflecting the physical condition of the patient in real time and uploading the data to the cloud server, and a communication module for transmitting the data; the cloud server is used for recording the data and analyzing the health development condition of the patient. The intelligent medical hospitalization management system provided by the invention can monitor and feed back the health condition of the patient in real time, improve the medical hospitalization management efficiency and improve the safety guarantee effect of the patient.

Description

Intelligent medical hospitalization management system

Technical Field

The invention relates to the technical field of medical hospitalization management, in particular to an intelligent medical hospitalization management system.

Background

With the development and progress of science and technology, the intellectualization of each field develops rapidly, and the prior management mode can not meet the requirements of the current society. Particularly in the field of medical management, increasing business and the number and demand of hospitalized patients have put a great deal of pressure on the management of medical hospitalization. In the existing medical hospitalization system, the automation and intelligence degree of the patient in-and-out registration process is low, the information of the patient is usually only basic information, and important information such as an activity path, a state of a disease state and the like of the patient cannot be obtained in time. Therefore, the health condition monitoring and feedback can not be carried out in real time, the abnormal condition of the patient can not be found and processed in time, and the management efficiency and the safety guarantee effect are poor.

Disclosure of Invention

The invention aims to provide an intelligent medical hospitalization management system which can acquire important information of a patient in time, monitor and feed back the health condition of the patient in real time, improve the efficiency of medical hospitalization management and simultaneously improve the safety guarantee effect of the patient.

In order to overcome the defects in the prior art, an embodiment of the present invention provides an intelligent medical hospitalization management system, which is characterized by comprising: the system comprises a cloud server, a hospital server, a WIFI relay station, a patient terminal and a medical care terminal;

the cloud server comprises a cloud receiving module and a cloud monitoring module;

the cloud receiving module is used for acquiring coordinate information of the patient and a WIFI relay station within a preset range to which the coordinate information belongs after receiving the service request sent by the patient terminal;

the cloud monitoring module is used for monitoring the access time of the patient terminal currently accessed to the WIFI relay station, generating an order according to the access time and the service request and distributing the order to the hospital server, and the hospital server is used for responding to the order and selecting corresponding professional medical personnel according to the type of the service request;

the patient terminal comprises a positioning module, a measuring module and a communication module, wherein the positioning module is used for positioning the position of a patient in real time; the measurement module is used for detecting data reflecting physical conditions of the patient in real time and uploading the data to the cloud server, and the cloud server records the data and analyzes the health development conditions of the patient.

Furthermore, the cloud server further comprises a case management module, and the case management module is used for sorting and storing cases of patients in local.

Further, the cloud server is further used for responding to a navigation request sent by a patient when the patient gets lost, and comprises the steps of obtaining coordinate information of the patient and coordinate information of all WIFI relay stations within a preset range to which the coordinate information belongs, calculating a shortest traveling route between the patient destinations according to the coordinate information of each WIFI relay station and the coordinate information of the patient, and sending the shortest traveling route to the patient terminal.

Further, the types of the service request include: daily care requests, physical discomfort requests, and emergency call requests.

Further, the data includes pulse, heartbeat, blood pressure, blood sugar, blood fat and body temperature data.

Furthermore, a navigation module is arranged on the medical care terminal and used for guiding the professional medical care personnel to the position of the patient.

Furthermore, the medical kit also comprises a label card worn on the patient body and used for recording the identity information of the patient.

Further, when a patient wants to go in and out of a large door or a ward of the hospital, a request for going in and out of the large door or the ward of the hospital is sent at the patient terminal; and the card reader of the entrance guard for entrance and exit of the hospital gate or the ward reads the authentication information on the label card carried by the patient, compares the authentication information with the database on the hospital server, if the authentication information is successfully compared, the patient is released, and otherwise, the patient is not released.

Further, the tag card is an RFID tag card.

Further, still include a plurality of surveillance cameras for shoot patient's condition and upload to high in the clouds server or hospital server with shooting data.

Compared with the prior art, the embodiment of the invention can acquire the position information of the patient in real time through the positioning module, can acquire the data information of the physical condition of the patient in time through the intelligent measurement module, and then carries out real-time health condition monitoring and feedback on the patient, thereby improving the efficiency of medical hospitalization management and simultaneously improving the safety guarantee effect of the patient.

Drawings

Fig. 1 is a block diagram of an intelligent medical hospitalization management system according to an embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention. All other embodiments obtained by a person of ordinary skill in the art without any inventive step based on the embodiments of the present invention shall fall within the scope of protection of the present invention.

It should be noted that the patient terminal in the embodiment of the present invention is mainly a mobile terminal, the medical care terminal 50 may be a mobile terminal and a non-mobile terminal, the non-mobile terminal includes a desktop computer, and the mobile terminal includes a Smart Phone (such as an Android Phone, an iOS Phone, and the like), Smart glasses, a Smart watch, a Smart bracelet, a tablet computer, a laptop computer, a personal digital assistant, and other mobile internet devices capable of performing wireless communication.

Referring to fig. 1, an embodiment of the present invention provides an intelligent medical hospitalization management system 100, including: the system comprises a cloud server 10, a hospital server 20, a WIFI relay station 30, a patient terminal 40 and a medical care terminal 50;

the modules of the intelligent medical hospitalization management system 100 are mainly communicated with each other through wireless WIFI of a hospital, and the mobile device used by the patient terminal 40 can be used through a 4g network or connected with the wireless WIFI of the hospital.

The cloud server 10 comprises a cloud receiving module 101 and a cloud monitoring module 102;

the patient terminal 40 comprises a positioning module 401, a measuring module 402 and a communication module 403;

firstly, the mobile terminal device carried by the patient mainly comprises three modules, wherein the positioning module 401 is mainly used for positioning the position of the patient in real time; because the patient is monitored in real time, the position information of the patient is very important, and the position of the patient can be any movable range in the hospital, such as: wards, gardens, pharmacies, toilets, and the like. The position information of the patient can be timely grasped only by the positioning module 401.

The measurement module 402 is used for detecting data reflecting the physical conditions of patients in real time and uploading the data to the cloud server 10, and it needs to be explained that the patients hold the mobile device, the measurement module 402 can be used for measuring self body-related health indexes at variable time, the treatment management work of medical care personnel is assisted, the self body condition can be mastered in time, the measured parameters mainly comprise body temperature, heart rate, pulse, blood pressure, blood sugar, blood fat and the like, the data index which is small in short-time change range like the body temperature can be measured once every few hours, but the index which is easily influenced by the external environment and is the heart rate can set a short measurement interval. Timely uploading and updating of data is helpful for medical staff to know the health condition of patients; there are also indicators that focus on certain time of day changes like blood pressure, blood glucose, which can be measured multiple times in a concentrated time, while measurements can be reduced in other time ranges. When a patient is uncomfortable or needs to request help of medical staff, a service request can be sent immediately through the mobile device, it should be noted that the request can be a daily care request, a physical discomfort request and an emergency call request, the emergency degree of each request has priority, the type of the medical staff handling the corresponding response request is different, the specialties are different, for example, the daily care request may mainly be to dispatch medicines, arrange beds, daily inquiry and the like, and the corresponding handling staff may be a nurse in a nurse station; if the requests are uncomfortable, simple priority classification can be carried out according to the discomfort degree, because the number of medical staff in a hospital is far smaller than the number of patients and one-to-one service can not be carried out, the sequence of the corresponding requests can be flexibly determined according to the discomfort degree of the patients. The emergency call request is typically immediately fed back to the attending physician or specialist, who is in charge of the emergency and the nurse to help the patient in time.

It should be noted that, after receiving the service request sent by the patient, the cloud receiving module 101 acquires the coordinate information of the patient and the WIFI relay station 30 in the preset range to which the coordinate information belongs; because timeliness is important for hospital treatment or management, in order to make communication network signals more stable and smooth, a hospital generally divides areas, and establishes a plurality of WIFI relay stations 30 to enhance signals of a local area network, so that the location information of each patient depends on the WIFI relay station 30 to which the current location belongs, and thus, the communication speed can be increased, and the response efficiency can be improved in an auxiliary manner. Then, the cloud monitoring module 102 is configured to monitor an access time of the patient terminal 40 currently accessing the WIFI relay station 30, generate an order according to the access time and the service request, and distribute the order to the hospital server 20, where the hospital server 20 is configured to respond to the order and select a corresponding professional medical worker according to a type of the service request.

In addition, the cloud server 10 is further configured to record the data, analyze the health development status of the patient, correspondingly generate a report and send the report to the medical care terminal 50, and the medical care terminal 50 can make relevant medical preparations in time according to the report content.

According to the embodiment of the invention, the positioning module 401 can acquire the position information of the patient in real time, the intelligent measurement module 402 can acquire the data information of the physical condition of the patient in time, and then the patient is monitored and fed back on the health condition in real time, so that the efficiency of medical hospitalization management is improved, and the safety guarantee effect of the patient is improved.

In an embodiment of the present invention, the cloud server 10 further includes a case management module, configured to sort and store cases of patients in a local area.

As will be appreciated, the patient's electronic medical record is the original record of the patient's diagnosis and treatment throughout the hospital, and includes the first page, the history of the disease, the examination and examination results, the medical orders, the surgical records, the nursing records, and so on. Electronic Medical Records (EMRs) refer not only to static medical record information, but also to the related services provided. Is electronically managed information about the health status and health care activities of an individual throughout life, all process information related to the collection, storage, transmission, processing and utilization of patient information. The disease quantity of hospital is huge, and the diagnosis and treatment data that each disease difference diagnosis and treatment time produced can constantly change, consequently needs in time to update relevant data on the electronic medical record, diagnoses at the back at a hospital when the disease, can carry the electronic medical record to regard as the reference when diagnosing at next hospital, avoids redundant flow. Moreover, the electronic medical record should be completely and secretly made in the hospital, and can be published or used for other purposes after being agreed by the patient himself or family members, and of course, the electronic medical record is also used for medical analysis, and doctors can classify the medical record, and then make a data analysis chart according to related information to construct a medical big data system to assist later medical work and play a guiding role.

In an embodiment of the present invention, the cloud server 10 is further configured to respond to a navigation request sent by a patient when the patient gets lost, where the navigation request includes obtaining coordinate information of the patient and coordinate information of all WIFI relay stations 30 within a preset range to which the coordinate information belongs, and calculating a shortest travel route between destinations of the patient according to the coordinate information of each WIFI relay station 30 and the coordinate information of the patient and sending the shortest travel route to the patient terminal 40.

It can be understood that the patient may get lost in the hospital, and when the patient gets lost, the cloud server 10 may locate the coordinate information of the patient and calculate the nearest return route to the patient, and the patient may return according to the original route of the navigation route, so as to avoid panic or reduce occupation of medical care resources.

In an embodiment of the present invention, a navigation module is disposed on the medical care terminal 50, and is used for guiding the medical professional to the location of the patient.

It can be understood that when the patient sends the service request, the medical staff needs to respond in time and arrive at the position of the patient for treatment; the cloud server 10 generates a navigation route according to the location information. The navigation route is pushed to the medical care terminal 50 after optimal screening is carried out according to a set algorithm, and medical care personnel can judge whether to select the route according to actual conditions, for example: although the pushed route is the optimal route, the route is probably in a maintenance stage, or the diagnosis and treatment equipment of the medical staff is huge and cannot easily pass through the route, so that the medical staff can make corresponding selection after judging by themselves, and the requested service of the patient can be responded in time.

In an embodiment of the present invention, the apparatus further includes a tag card worn on the patient for recording the identity information of the patient; the tag card is an RFID tag card;

it should be noted that the RFID is called Radio Frequency Identification (RFID) throughout. The electronic RFID tag is a carrier of RFID technology, and is also called as a radio frequency tag, a transponder and a data carrier; the reader is also called a reading device, a scanner, a reading head, a communicator, a reader/writer (depending on whether the electronic tag can wirelessly rewrite data). The electronic tag and the reader realize space (non-contact) coupling of radio frequency signals through a coupling element; and in the coupling channel, energy transfer and data exchange are realized according to a time sequence relation. The electronic tag has the following advantages: compared with the traditional tag, the data storage has larger capacity (1 bit-1024 bits), and the data can be updated at any time and can be read and written; compared with the bar code, the reading and writing speed is higher without linear alignment scanning, and can realize multi-target identification and motion identification; the use is convenient, the volume is small, the packaging is easy, and the product can be embedded; the method is safe and reliable, and the serial number is unique and difficult to copy by adopting a special chip; durable, no mechanical failure, long service life and adverse environment resistance. When a patient is in a hospital, a hospital configures a unique electronic RFID (radio frequency identification) tag for each person according to personal identity information, such as fingerprint acquisition or face recognition, identity card information and the like; when a patient wants to go in and out of a sick room door, a ward building door or a hospital door, a request for going in and out of the sick room door, the ward building door or the hospital door can be sent by the transfer device of the patient terminal 40; the card reader of the entrance and exit door of a sick room door, a ward building gate or a hospital gate access control reads authentication information on a tag card carried by a patient, and then compares the authentication information with a database on the hospital server 20, if the comparison is successful, the card reader is released, if the comparison is unsuccessful, a warning is triggered, and then medical staff are reminded to manage in time. Certainly, still include a plurality of surveillance cameras in the hospital for shoot patient's the condition and with shoot data upload to high in the clouds server 10 or hospital server 20, what the camera was mainly gathered is video information, mainly calls historical video information when some emergency appears, conveniently checks.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. An intelligent medical hospitalization management system comprising: the system comprises a cloud server, a hospital server, a WIFI relay station, a patient terminal and a medical care terminal;

the cloud server comprises a cloud receiving module and a cloud monitoring module;

the cloud receiving module is used for acquiring coordinate information of the patient and a WIFI relay station within a preset range to which the coordinate information belongs after receiving the service request sent by the patient terminal;

the cloud monitoring module is used for monitoring the access time of the patient terminal currently accessed to the WIFI relay station, generating an order according to the access time and the service request and distributing the order to the hospital server, and the hospital server is used for responding to the order and selecting corresponding professional medical personnel according to the type of the service request;

the patient terminal comprises a positioning module, a measuring module and a communication module, wherein the positioning module is used for positioning the position of a patient in real time; the measurement module is used for detecting data reflecting physical conditions of the patient in real time and uploading the data to the cloud server, and the cloud server records the data and analyzes the health development conditions of the patient.

2. The intelligent medical hospitalization management system of claim 1, wherein said cloud server further comprises a case management module for organizing and storing cases of patients locally.

3. The intelligent medical hospitalization management system of claim 1 wherein said cloud server is further configured to respond to a navigation request sent by a patient while getting lost, comprising:

and acquiring the coordinate information of the patient and the coordinate information of all WIFI relay stations within a preset range to which the coordinate information belongs, calculating the shortest traveling route between the patient destinations according to the coordinate information of each WIFI relay station and the coordinate information of the patient, and sending the shortest traveling route to the patient terminal.

4. The intelligent medical hospitalization management system of claim 1 wherein the types of service requests include: daily care requests, physical discomfort requests, and emergency call requests.

5. The intelligent medical hospitalization management system of claim 1 wherein said data includes pulse, heartbeat, blood pressure, blood glucose, blood lipid and body temperature data.

6. The intelligent medical hospitalization management system of claim 1, wherein a navigation module is disposed on the healthcare terminal for guiding the professional healthcare worker to the location of the patient.

7. The intelligent medical hospitalization management system of claim 1, further comprising a tag card worn on the patient for recording the identity information of the patient.

8. The intelligent medical hospitalization management system of claim 7, wherein when a patient wants to go in or out of a hospital gate or ward, a request for going in or out of the hospital gate or ward is sent at the patient terminal; and the card reader of the entrance guard for entrance and exit of the hospital gate or the ward reads the authentication information on the label card carried by the patient, compares the authentication information with the database on the hospital server, if the authentication information is successfully compared, the patient is released, and otherwise, the patient is not released.

9. The intelligent medical hospitalization management system of claim 7, wherein said tag card is an RFID tag card.

10. The intelligent medical hospitalization management system of claim 1, further comprising a plurality of monitoring cameras for photographing the condition of the patient and uploading the photographed data to a cloud server or a hospital server.

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