CN112687383A - Hospital nursing interaction system - Google Patents

Hospital nursing interaction system Download PDF

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Publication number
CN112687383A
CN112687383A CN202011586085.8A CN202011586085A CN112687383A CN 112687383 A CN112687383 A CN 112687383A CN 202011586085 A CN202011586085 A CN 202011586085A CN 112687383 A CN112687383 A CN 112687383A
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information
data
interface
patient
unit
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岳庆冬
赵明娟
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Xian Cresun Innovation Technology Co Ltd
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Xian Cresun Innovation Technology Co Ltd
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Abstract

The invention discloses a hospital nursing interaction system which comprises a handheld digital terminal, a background control management center and a nurse station touch interaction large screen, wherein the handheld digital terminal is used for acquiring stored patient identity information and vital sign data from the background control management center and acquiring the current vital sign data of a patient; the background control management center comprises an information analysis unit and a data storage unit; the nurse station touch interactive large screen is connected with the background control management center and comprises a login interface, an information display management module, a notification module and a training module. This hospital nursing interactive system has ensured the accuracy of clinical information, has improved nurse's work efficiency simultaneously, can follow and snatch clinical care information automatically among the hospital service system and carry out analysis, classification and structural display with clinical care information.

Description

Hospital nursing interaction system
Technical Field
The invention belongs to the technical field of medical information processing, and particularly relates to a hospital nursing interaction system.
Background
With the rapid development of information technology, more and more hospitals in China are also accelerating to implement the overall construction based on an information-based service platform and system so as to improve the service level and the core competitiveness of the hospitals. In terms of the nursing subject, important contents such as continuously improving nursing service quality, gradually implementing hospital nursing post management, strengthening nursing informatization construction and the like are also provided in a nursing institution development planning outline, so that the nursing institution goes up to informatization and intellectualization and becomes a necessary trend of the development of the era.
In the medical industry, nurses often manage patients in multiple wards, and the nurses need to timely feed back the patient's condition to the doctor so that the patient can obtain timely treatment. The existing nursing system is too single, almost independent and common daily work management is realized, too much interaction is not generated among the nursing systems, and the nursing system is simple in record and has no deeper analysis function.
Disclosure of Invention
In order to solve the above problems in the prior art, the present invention provides a hospital care interaction system. The technical problem to be solved by the invention is realized by the following technical scheme:
the invention provides a hospital nursing interactive system, which comprises a handheld digital terminal, a background control management center and a nurse station touch interactive large screen, wherein,
the handheld digital terminal is used for obtaining stored patient identity information and vital sign data from the background control management center, collecting the current vital sign data of a patient and transmitting the current vital sign data to the background control management center;
the background control management center comprises an information analysis unit and a data storage unit, wherein the information analysis unit is used for analyzing the current vital sign data of the patient to evaluate the health state of the patient, and the data storage unit is used for storing the identity information and the vital sign data of the patient, the current vital sign data and the health state obtained by analysis;
the nurse station touch-control interaction large screen is connected backstage control management center, including login interface, information display management module, notice module and training module, the login interface is used for inputing account number and password in order to get into large screen operation interface, information display management module is used for carrying out the demonstration and the management of patient, medical resources and medical personnel information, the notice module is used for inputing important notice or nursing training information, training module is used for carrying out the uploading, downloading and the demonstration of training course and learning materials.
In one embodiment of the invention, the handheld digital terminal comprises a data acquisition and entry unit, an encryption unit, a data transceiving unit, an order inquiry unit and a calling unit, wherein,
the data receiving and sending unit is used for receiving the identity information, the previous vital sign data and the order information of the patient from the background control management center in a wireless mode;
the data acquisition and entry unit is used for entering the current physical sign data of the patient;
the encryption unit is connected with the data acquisition and entry unit and is used for encrypting the current physical sign data of the patient together with the identity information, the previous physical sign data and the medical advice information to obtain encrypted data;
the data receiving and sending unit is also used for sending the encrypted data to the background control management center for storage;
the medical advice inquiring unit is used for inquiring and displaying the medical advice information;
the call unit is used to establish an audio or video connection with a doctor workstation to call the doctor if necessary.
In an embodiment of the present invention, the handheld digital terminal further includes a decryption unit, and the decryption unit is configured to decrypt the identity information, the previous vital sign data, and the order information received from the back-office control management center.
In one embodiment of the invention, the information analysis unit uses a neural network model to assess the health status of the patient.
In an embodiment of the present invention, the evaluating the health status of the patient by the information analyzing unit using a neural network model specifically includes:
collecting vital sign data of a large number of patients as a vital sign sample set;
constructing a convolutional neural network comprising a data layer, a plurality of convolutional layers, a pooling layer, a full-link layer and a classification layer;
training the convolutional neural network through the vital sign sample set to obtain an optimized network model;
and taking the current vital sign data acquired by the handheld digital terminal as an input value of the optimized network model, wherein an output result of an output layer of the optimized network model is the health state of the patient obtained through evaluation.
In one embodiment of the present invention, the information display management module includes a clinical item display interface, an on-duty doctor management interface, a bed management interface, a loan management interface, and a nurse shift display interface, which are respectively connected to the data storage unit, wherein,
the clinical item display interface is used for displaying important items in the clinical information of the patient;
the doctor on duty management interface is used for displaying and modifying relevant information of a doctor on duty;
the bed management interface is used for displaying and modifying all bed information, latest bed changing, bed adding and bed occupying information;
the loan management interface is used for displaying the information of recently borrowed articles of each department and checking the information of all borrowed articles;
the nurse shift display interface is used for displaying and updating shift conditions of departments at each stage every day.
In an embodiment of the present invention, the information display management module further includes a patient list interface, and the patient list interface is configured to display case information of a plurality of patients on one interface, and can be distinguished by different colors according to severity of a disease condition and a care level, where the case information of the patient at least includes identity information of a patient, vital sign data, a long-term medical order, a temporary medical order, and an executed medical order.
In one embodiment of the invention, the notification module comprises a note notification interface and an electronic whiteboard interface, each connected to the data storage unit, wherein,
the note notification interface is used for displaying important notifications, nursing training information and important nursing information of patients issued by a nursing department or a nurse manager;
the electronic whiteboard interface is used for inputting relevant information and notifications in a handwriting mode.
In an embodiment of the present invention, the handheld digital terminal, the background control management center, and the nurse station touch interactive large screen are connected through an IP network or a WiFi network.
In one embodiment of the invention, the background control management center comprises a plurality of medical internet of things equipment interfaces which are used for connecting a hospital service system, and the hospital service system comprises at least one of HIS, LIS, EMR and PACS.
Compared with the prior art, the invention has the beneficial effects that:
1. the hospital nursing interaction system ensures that important data is encrypted when the handheld digital terminal and the background control management center perform data interaction, prevents the data from being falsified in the data transmission process, ensures the accuracy of clinical information, improves the working efficiency of nurses, and improves the working quality and the working value of the nurses.
2. The hospital nursing interaction system comprises a medical internet of things equipment interface which is used for being connected with a hospital service system, and can automatically capture clinical nursing information and medical internet of things equipment information from the hospital service system, and analyze, classify and structurally display the clinical nursing information.
3. The touch interactive large screen of the nurse station of the hospital nursing interactive system comprises a login interface, each user can enter the large screen operation interface only by a user name and a password with the length being more than the specified length, in addition, the hospital nursing interactive system can set multiple authority levels by the user authority setting function of the background control management center, supports the safety audit function, has strict user authority definition and management, can uniformly manage similar users by the user group, and has the authority inheritance function.
The present invention will be described in further detail with reference to the accompanying drawings and examples.
Drawings
FIG. 1 is a block diagram of a hospital care interaction system according to an embodiment of the present invention;
fig. 2 is a schematic structural diagram of a handheld digital terminal according to an embodiment of the present invention;
fig. 3 is a schematic structural diagram of a background control management center according to an embodiment of the present invention;
fig. 4 is a schematic structural diagram of a touch interactive large screen of a nurse station according to an embodiment of the present invention;
fig. 5 is a schematic structural diagram of an encryption unit according to an embodiment of the present invention;
fig. 6 is a schematic structural diagram of a decryption unit according to an embodiment of the present invention;
fig. 7 is a schematic structural diagram of an information display management module according to an embodiment of the present invention;
FIG. 8 is a schematic structural diagram of a notification module according to an embodiment of the present invention;
fig. 9 is an interface display schematic diagram of an electronic whiteboard interface according to an embodiment of the present invention.
Detailed Description
To further illustrate the technical means and effects of the present invention for achieving the predetermined objects, a hospital care interaction system according to the present invention will be described in detail with reference to the accompanying drawings and the detailed description.
The foregoing and other technical matters, features and effects of the present invention will be apparent from the following detailed description of the embodiments, which is to be read in connection with the accompanying drawings. The technical means and effects of the present invention adopted to achieve the predetermined purpose can be more deeply and specifically understood through the description of the specific embodiments, however, the attached drawings are provided for reference and description only and are not used for limiting the technical scheme of the present invention.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or device that comprises a list of elements does not include only those elements but may include other elements not expressly listed. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or device comprising the element.
Referring to fig. 1 to 4 together, fig. 1 is a general block diagram of a hospital care interaction system according to an embodiment of the present invention; fig. 2 is a schematic structural diagram of a handheld digital terminal according to an embodiment of the present invention; fig. 3 is a schematic structural diagram of a background control management center according to an embodiment of the present invention; fig. 4 is a schematic structural diagram of a touch interactive large screen of a nurse station according to an embodiment of the present invention. The hospital nursing interactive system of the embodiment includes a handheld digital terminal 100, a background control management center 200 and a nurse station touch interactive large screen 300. The handheld digital terminal 100 is configured to obtain the stored patient identity information and vital sign data from the background control management center 200, acquire current vital sign data of the patient, and transmit the current vital sign data to the background control management center 200.
Specifically, the handheld digital terminal 100 includes a data acquisition entry unit 110, an encryption unit 120, a data transceiving unit 130, an order query unit 140, and a calling unit 150. The order inquiry unit 140 is used for inquiring and displaying order information; the call unit 150 is used to establish an audio or video connection with a doctor workstation to call the doctor if necessary.
The data transceiver unit 130 is configured to receive the patient identity information and the vital sign data and the order information from the back office control management center 200 in a wireless manner. When a nursing staff, such as a nurse, carries the handheld digital terminal 100 to patrol a ward, the identity information of the patient, the past vital sign data and the medical order information, which are the information obtained in the previous diagnosis process and stored in the background control management center 200, can be obtained at any time according to the needs.
The data acquisition entry unit 110 is used for entering the current physical sign data of the patient. The caregiver can enter the acquired current physical sign data of the patient into the handheld digital terminal 100 through the data acquisition entry unit 110, and combine the acquired current physical sign data with the previously acquired patient identity information and vital sign data to form a unified document. Further, the data acquisition and entry unit 110 of the present embodiment specifically includes a temperature sensor, a heart rate sensor, and a blood pressure sensor, wherein the temperature sensor adopts a DS18B20 digital temperature sensor for measuring the body temperature of the patient; the heart rate sensor is a heart rate sensor Pulsesensor and is used for measuring the heart rate of the patient; the blood pressure sensor adopts a product which can be used for secondary development, and the interface adopts an RS-232 serial port communication mode. In other words, an external sphygmomanometer may be interfaced to the data collection entry unit 110 to directly transmit measured patient blood pressure data to the data collection entry unit 110. In addition, the data acquisition entry unit 110 can also manually input patient vital sign data measured by other means.
The encryption unit 120 is connected to the data acquisition and entry unit 110, and is configured to encrypt the current vital sign data of the patient together with the identity information, the previous vital sign data, and the order information to obtain encrypted data.
The encryption process of the encryption unit 120 of the present embodiment includes:
(1) extracting a part of the raw data as key data, wherein the raw data comprises patient related data such as current physical sign data, identity information, previous vital sign data and order information of a patient, and the key data can select the identity information of the patient;
(2) encrypting the key data by using a first encryption method to obtain first intermediate data;
(3) encrypting the key data by using a second encryption method to obtain second intermediate data;
(4) encrypting the original data by using a third encryption method and the second intermediate data as parameters to obtain third intermediate data;
(5) and combining the first intermediate data and the third intermediate data to obtain encrypted data.
It should be noted that the first encryption method, the second encryption method, and the third encryption method may be one or more of a symmetric encryption algorithm, an asymmetric encryption algorithm, or a hash algorithm. The hash algorithm is also called hash algorithm; the symmetric Encryption algorithm mainly includes a Data Encryption Standard (DES) algorithm, a 3DES algorithm, an Advanced Encryption Standard (AES) algorithm, and the like; the asymmetric Algorithm mainly includes RSA Algorithm, DSA (Digital Signature Algorithm), and the like; the Hash Algorithm mainly includes SHA-1(Secure Hash Algorithm 1), MD5(Message-Digest Algorithm), Hash salting Algorithm, and so on.
Further, referring to fig. 5, fig. 5 is a schematic structural diagram of an encryption unit according to an embodiment of the present invention. The encryption unit 120 of the present embodiment includes a first preset parameter storage subunit 121, a first judgment subunit 122, and a first calculation subunit 123, where the first preset parameter storage subunit 121 is configured to store a preset data length; the first judging subunit 122 is configured to judge whether the length of the original data is greater than the preset data length;
the first calculating subunit 123 is configured to, when the length of the original data is greater than the preset length, split the original data into multiple groups of data subsets, where the length of each group of data subsets is smaller than the preset data length, and then encrypt each group of data subsets by using the above encryption steps, to obtain multiple groups of encrypted data subsets; and when the length of the original data is not more than the preset length, the encryption step is adopted to carry out operation on the whole original data to obtain encrypted data.
The encryption unit can encrypt the original data in different modes according to the length of the original data, namely, the original data with shorter length is encrypted integrally to obtain the encrypted data for subsequent transmission; for original data with longer length, the original data can be divided into a plurality of groups of data subsets, each group of data subsets is encrypted respectively to obtain a plurality of groups of encrypted data subsets, and the plurality of groups of encrypted data subsets are subjected to data transmission respectively in the follow-up process, so that the communication security between the handheld digital terminal and the background control management center is further ensured.
The data transceiver 130 is connected to the encryption unit 120, and is further configured to send the encrypted data to the background control management center 200, where the data transceiver 130 may include, for example, a WIFI (Wireless-Fidelity) module or a communication interface.
In another alternative embodiment, when the handheld digital terminal 100 is close to the background control management center 200, the data transceiving unit 130 may perform data interaction with the background control management center 200 through any one of the integrated communication interfaces. The communication interface referred to herein may include: a bluetooth interface, a USB (Universal Serial Bus) interface, a Serial data communication interface, an ethernet interface, or the like. It is understood that the background control management center 200 is integrated with the same communication interface as that used by the data transceiving unit 130.
In addition, the handheld digital terminal 100 further includes a decryption unit 160, and the decryption unit 160 is configured to decrypt the patient identification information, the previous vital sign data, and the order information received from the back office control management center 200. As described above, the data uploaded to the background control management center by the handheld digital terminal 100 is encrypted, that is, the patient-related information stored in the background control management center is encrypted data, and therefore, when the handheld digital terminal 100 recalls the relevant data in the background control management center, the data needs to be decrypted.
The decryption process of the decryption unit 160 of the present embodiment includes:
(a) obtaining the first intermediate data and the third intermediate data according to the encrypted data from the background control management center 200;
(b) decrypting the first intermediate data by using a first decryption method to obtain the key data;
(c) encrypting the key data by using the second encryption method to obtain second intermediate data;
(d) and decrypting the third intermediate data by using a third decryption method and the second intermediate data as a parameter to obtain original data.
It should be understood that the decryption method used by the decryption unit 160 to decrypt the encrypted data is a decryption algorithm corresponding to the encryption algorithm used by the encryption unit 120 to encrypt the original data.
Further, referring to fig. 6, fig. 6 is a schematic structural diagram of a decryption unit according to an embodiment of the present invention. The decryption unit 160 in this embodiment includes a second determining subunit 161 and a second calculating subunit 162, where the second determining subunit 161 is configured to determine whether the received encrypted data is composed of multiple sets of encrypted data subsets, and the multiple sets of encrypted data subsets are obtained by splitting and sequentially encrypting the original data by using the decryption steps when the encryption unit 120 determines that the length of the original data is greater than the preset length; the second calculating subunit 162 is configured to, when the received encrypted data consists of multiple sets of encrypted data subsets, respectively decrypt each set of encrypted data subsets by using the above decryption steps to obtain multiple sets of data subsets; and when the received encrypted data is not composed of a plurality of groups of encrypted data subsets, decrypting the whole encrypted data by adopting the decryption step to obtain decrypted data.
With continued reference to fig. 3, the background control management center 200 of the present embodiment includes an information analysis unit 210 and a data storage unit 220, the information analysis unit 210 is configured to analyze current vital sign data of a patient to evaluate a health status of the patient, and the data storage unit 220 is configured to store patient identity information and vital sign data, the current vital sign data, and a health status obtained by the analysis.
Further, the information analysis unit 210 evaluates the health status of the patient using a neural network model. The specific process of the information analysis unit 210 for evaluating the health status of the patient includes: collecting vital sign data of a patient as a vital sign sample set; constructing a convolutional neural network comprising a plurality of convolutional layers, a pooling layer, a full-link layer and a classification layer; training the convolutional neural network through a vital sign sample set to obtain an optimized network model; the current vital sign data of the patient collected by the handheld digital terminal 100 is used as an input value of the optimized network model, and an output result of an output layer of the optimized network model is the health state of the patient obtained through evaluation.
Further, referring to fig. 4, the nurse station touch interactive large screen 300 of the present embodiment is connected to the background control management center 200, and the nurse station touch interactive large screen 300 includes a login interface 310, an information display management module 320, a notification module 330, and a training module 340.
The login interface 310 is used for inputting an account number and a password to enter a large-screen operation interface, and each user must have a user name and a password with a specified length to enter the large-screen operation interface, so that the login security is ensured. The hospital nursing interaction system can set various authority levels through the user authority setting function of the background control management center, supports the safety audit function, has strict user authority definition and management, can uniformly manage similar users through the user group, and has the authority inheritance function.
The information display management module 320 is used for displaying and managing information of patients, medical resources and medical staff. Further, please refer to fig. 7, where fig. 7 is a schematic structural diagram of an information display management module according to an embodiment of the present invention. The information display management module 320 of the present embodiment includes a clinical item display interface 321, an on-duty doctor management interface 322, a bed management interface 323, a loan management interface 324, and a nurse shift display interface 325, which are respectively connected to the data storage unit 220. That is, the relevant data displayed on the clinical item display interface 321, the doctor on duty management interface 322, the bed management interface 323, the loan management interface 324, and the nurse shift display interface 325 may be stored or temporarily stored in the data storage unit 220.
The clinical item display interface 321 is used for displaying important items in clinical information of the patient, such as item contents of today's discharge, today's admission, oral care, oxygen inhalation by atomization, and the like; specifically, the clinical item display interface 321 may perform custom setting according to the most frequently used item content in clinical practice in different departments; displaying the execution times of the patient's medical advice and the detailed information of the patient; the pagination display can be performed for patients with more orders. The clinical item display interface 321 moves the content of the traditionally used white board to a large screen, which can meet the requirement of displaying the content of the clinical key item, and can automatically capture data from the HIS (Hospital Information System) and update the data in real time, thereby avoiding the omission or error generated in the process of copying Information and improving the working efficiency of nurses.
It should be noted that, since the patient-related data stored in the background control management center is encrypted data, the nurse station touch interactive large screen 300 includes a decryption unit similar to the handheld digital terminal, so as to decrypt and display the patient-related data from the background control management center.
The on-duty doctor management interface 322 is used to display and modify information related to the on-duty doctor. Specifically, the on-duty doctor management interface 322 is used for displaying on-duty doctor information on the day, including primary, secondary and administrative doctors, etc.; rapidly inputting and modifying on the current page; all the doctors on duty in the department are arranged in the background and selected by clicking; and editing and deleting of information are supported. The interface solves the problem that the information of the on-duty doctor is only acquired by partial people, when an emergency or a special condition exists, the nurse can quickly acquire the information of the on-duty doctor to obtain help and guidance, the nurse does not need to call the nurse or other nurses to inquire about the on-duty doctor on the day, and the information can be quickly acquired in the emergency.
The bed management interface 323 is used for displaying and modifying all the bed information, the latest bed change, the bed addition and the bed occupation information. Specifically, the bed management interface 323 home page displays the latest information of bed change, bed addition and bed occupation, and can check all the information of bed change; the bed position is directly selected by clicking without manual input; and editing, modifying and deleting the bed change information is supported. The interface solves the problems of changing beds, adding beds and the like frequently occurring in a nurse station, and nurses do not need to copy or record any more and only need to click the record in a large screen. The information can be rapidly input, the information can be displayed at once, a nurse and a nurse manager can conveniently and timely acquire the latest bed information, and the condition that the bed is looked up by turning over a notebook or running legs is not required.
The loan management interface 324 is used to display information about recently borrowed items from each department and to view information about all borrowed items. Specifically, the borrower management interface 324 home page displays information of recently borrowed items, and can view all the borrowed item information; supporting the handwriting input of the name of the item or the quick selection of common words; rapidly operating the returned display of the article information after the article is returned; long-term preservation or short-term preservation of the borrowed goods lending information is supported. The functional interface solves the problem that articles frequently in departments are lost after being lent out, and particularly avoids the loss caused by the loss of some valuables such as scalpels and the like. Due to the fact that the article returning time is not fixed, secondary borrowing is conducted, an effective management means is lacked in a nurse station, and great loss is caused to departments due to the loss of articles in the borrowing process.
The nurse shift display 325 is used to display and update the shift status of each phase of each day of the department. Specifically, the shift condition of each phase of each day of the department is displayed; the shift condition of the individual in one week can be checked; nurses, nurses and nursing staff can leave messages mutually, including work of handing over to work and warm prompt; the existing nurse shift of the hospital is in a form of printing and distributing to individuals, and nurses are not convenient to know the shift-handing personnel and the same shift-handing personnel, so that much inconvenience is caused for work and handover work. The function module can display the information of the person on duty on the day and can check the details of the person on duty in one week. In addition, the function also gets through communication channels between the nursing department and nurses and between nurses, and cross-space communication is realized.
Further, the information display management module 320 of this embodiment further includes a patient list interface 326, where the patient list interface 326 is configured to display the identity information of a plurality of patients on one interface, and can be distinguished by different colors according to the severity of the disease and the nursing level, where the identity information of the patient at least includes the identity information of the patient, the long-term medical order, the temporary medical order, and the executed medical order. Specifically, the patient list interface 326 can display basic information of all bed patients in the department; different color differentiation is used according to the severity of the disease condition and the nursing grade; screening and inquiring conditions; and inquiring the detailed information of the patient, wherein the detailed information comprises cost, long-term medical orders, temporary medical orders, executed medical orders and the like. The module interface realizes all functions of the traditional patient information list card of the hospital, and solves the problems that the area of the existing card is too small, the font is too small, and the card needs to be modified according to the change of the illness state of the patient. Meanwhile, the patient's condition and the nursing grade are distinguished by colors, so that a nurse or a nurse can see the patient clearly when checking the patient, and the patient does not need to be close to check the patient. It is of utmost importance to be able to display detailed information of the patient, in particular executed and unexecuted order information, which the nurse can obtain quickly and conveniently.
The notification module 330 is used to enter important notifications or care training information. Referring to fig. 8, fig. 8 is a schematic structural diagram of a notification module according to an embodiment of the present invention. The notification module 330 of the present embodiment includes a note notification interface 331 and an electronic whiteboard interface 332, which are connected to the data storage unit 220, respectively. That is, the related data displayed or input on both the note notification interface 331 and the electronic whiteboard interface 332 may be stored or temporarily stored in the data storage unit 220.
The note notification interface 331 is used to display important notifications issued by a nursing department or nurse officer, nursing training information, and important nursing information of a patient. The functional interface meets the requirement of quick broadcast of important notification or nursing training information issued by a nursing department, ensures that the notification information is obtained by all nurses in a department on one hand, and improves the authority and the popularity of the notification information; on the other hand, the workload of the nursing department and the nurse officer is greatly reduced, the nursing department does not need to make a call for secondary confirmation, and the nurse officer does not need to repeatedly inform each nurse of the notification content.
The electronic whiteboard interface 332 is used to enter relevant information and notifications in a handwritten manner. Specifically, please refer to fig. 9, where fig. 9 is a schematic interface display diagram of an electronic whiteboard interface according to an embodiment of the present invention. The electronic whiteboard interface 332 of the embodiment supports original handwriting storage, can perform custom selection on the style stroke color of the stroke, and sets the storage time of the writing content by itself. The functional interface meets the writing requirements of the traditional electronic whiteboard, can save and backup important information for subsequent use, can completely replace the traditional whiteboard, can vacate a part of space for a nurse station, and can save a part of cost of departments and hospitals.
Further, the training module 340 is used for performing nursing knowledge training and uploading, downloading and displaying of learning materials. Specifically, the training module 340 of the present embodiment can display relevant videos and courseware for improving basic training and learning of nurses; supporting the department background to upload videos or PPT and managing a resource library; cross-hospital sharing and network downloading are supported; as is well known, nurse education is an important component of nursing care, and the training module 340 provides a way for nurses to quickly review nursing knowledge and apply it to learning approaches in clinical care, solving the problem of nurses seeking help everywhere when they encounter unfamiliar content. Such material can be video or PPT, provided by departments or shared by friendly hospitals, and excellent resources can be downloaded in a network.
In this embodiment, the handheld digital terminal 100, the background control management center 200, and the nurse station touch interactive large screen 300 are connected through an IP network or a WiFi network.
Further, the back-office control Management center 200 includes a plurality of Medical internet of things interfaces, the Medical internet of things interfaces are connected to a Hospital service System, the Hospital service System includes at least one of HIS (Hospital Information System), LIS (Laboratory Information Management System), EMR (Electronic Medical Record), PACS (Medical image archiving and communication System), and the back-office control Management center 200 can automatically capture clinical care Information and Medical internet of things Information from the Hospital service System, and then parse, classify and structurally display the clinical care Information on the touch interactive screen 300 of the nurse station.
The hospital nursing interaction system ensures the accuracy of clinical information, improves the working efficiency of nurses, and improves the working quality and the working value of the nurses. The hospital nursing interaction system comprises a medical internet of things equipment interface, wherein the medical internet of things equipment interface is used for being connected with a hospital service system, can automatically capture clinical nursing information and medical internet of things equipment information from the hospital service system, and analyzes, classifies and structurally displays the clinical nursing information. The touch interactive large screen of the nurse station of the hospital nursing interactive system comprises a login interface, each user can enter the large screen operation interface only by a user name and a password with the length being more than the specified length, in addition, the hospital nursing interactive system can set multiple authority levels by the user authority setting function of the background control management center, supports the safety audit function, has strict user authority definition and management, can uniformly manage similar users by the user group, and has the authority inheritance function.
In the embodiments provided in the present invention, it should be understood that the system disclosed in the present invention can be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is merely a logical division, and in actual implementation, there may be other divisions, for example, multiple modules or components may be combined or integrated into another system, or some features may be omitted, or not implemented.
In addition, functional modules in the embodiments of the present invention may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware form, and can also be realized in a form of hardware and a software functional module.
The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (10)

1. A hospital nursing interactive system is characterized by comprising a handheld digital terminal (100), a background control management center (200) and a nurse station touch interactive large screen (300), wherein,
the handheld digital terminal (100) is used for obtaining the stored patient identity information and the vital sign data from the background control management center (200), acquiring the current vital sign data of the patient, and transmitting the current vital sign data to the background control management center (200);
the background control management center (200) comprises an information analysis unit (210) and a data storage unit (220), wherein the information analysis unit (210) is used for analyzing the current vital sign data of the patient to evaluate the health state of the patient, and the data storage unit (220) is used for storing the patient identity information and the vital sign data, the current vital sign data and the health state obtained by analysis;
mutual large screen of nurse station touch-control (300) are connected backstage control management center (200), including login interface (310), information display management module (320), notice module (330) and training module (340), login interface (310) are used for inputing account number and password in order to get into large screen operation interface, information display management module (320) are used for carrying out the demonstration and the management of patient, medical resources and medical personnel information, notice module (330) are used for inputing important notice or nursing training information, training module (340) are used for carrying out the uploading of training course and study data, download and show.
2. The hospital care interaction system according to claim 1, wherein said handheld digital terminal (100) comprises a data acquisition entry unit (110), an encryption unit (120), a data transceiving unit (130), an order query unit (140), and a call unit (150), wherein,
the data transceiving unit (130) is used for wirelessly receiving identity information, previous vital sign data and order information of a patient from the background control management center (200);
the data acquisition entry unit (110) is used for entering the current physical sign data of the patient;
the encryption unit (120) is connected with the data acquisition and entry unit (110) and is used for encrypting the current physical sign data of the patient together with the identity information, the previous physical sign data and the order information to obtain encrypted data;
the data receiving and sending unit (130) is further configured to send the encrypted data to the background control management center (200) for storage;
the order inquiry unit (140) is used for inquiring and displaying the order information;
the call unit (150) is used to establish an audio or video connection with a doctor workstation to call the doctor if necessary.
3. The hospital care interaction system of claim 2, wherein said handheld digital terminal (100) further comprises a decryption unit (160), said decryption unit (160) being configured to decrypt said identity information, said previous vital sign data and said order information received from said back office control management center (200).
4. The hospital care interaction system of claim 1 wherein the information analysis unit (210) employs a neural network model to assess the health status of the patient.
5. The hospital care interaction system of claim 4, wherein the information analysis unit (210) employs a neural network model to assess the health status of the patient, and specifically comprises:
collecting vital sign data of a large number of patients as a vital sign sample set;
constructing a convolutional neural network comprising a data layer, a plurality of convolutional layers, a pooling layer, a full-link layer and a classification layer;
training the convolutional neural network through the vital sign sample set to obtain an optimized network model;
and taking the current vital sign data acquired by the handheld digital terminal (100) as an input value of the optimized network model, wherein an output result of an output layer of the optimized network model is the health state of the patient obtained through evaluation.
6. The hospital care interaction system of claim 1, wherein said information display management module (320) comprises a clinical item display interface (321), a doctor on duty management interface (322), a bed management interface (323), a borrower management interface (324), and a nurse shift display interface (325) respectively connected to said data storage unit (220), wherein,
the clinical item display interface (321) is used for displaying important items in the clinical information of the patient;
the doctor on duty management interface (322) is used for displaying and modifying relevant information of a doctor on duty;
the bed management interface (323) is used for displaying and modifying all bed information, latest bed changing, bed adding and bed occupying information;
the borrowed object management interface (324) is used for displaying the information of recently borrowed objects of each department and viewing the information of all borrowed objects;
the nurse shift display interface (325) is used for displaying and updating the shift condition of each phase of each day of the department.
7. The hospital care interaction system of claim 6, wherein the information display management module (320) further comprises a patient list interface (326), the patient list interface (326) is used for displaying case information of a plurality of patients on one interface and can be distinguished by different colors according to the severity and nursing level of a disease, wherein the case information of the patients at least comprises identity information, vital sign data, a long-term order, a temporary order and an executed order of the patients.
8. The hospital care interaction system of claim 1 wherein the notification module (330) includes a note notification interface (331) and an electronic whiteboard interface (332) respectively connected to the data storage unit (220), wherein,
the note notification interface (331) is used for displaying important notifications, nursing training information and important nursing information of patients issued by a nursing department or a nurse manager;
the electronic whiteboard interface (332) is used for inputting relevant information and notifications in a handwriting manner.
9. The hospital care interaction system according to claim 1, wherein the handheld digital terminal (100), the background control management center (200) and the nurses' station touch-control interaction large screen (300) are connected through an IP network or a WiFi network.
10. The hospital care interaction system of any of claims 1 to 9 wherein the back office control management center (200) includes a plurality of medical internet of things interfaces for connecting hospital service systems including at least one of HIS, LIS, EMR, PACS.
CN202011586085.8A 2020-12-28 2020-12-28 Hospital nursing interaction system Withdrawn CN112687383A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113744895A (en) * 2021-08-20 2021-12-03 海南视联大健康智慧医疗科技有限公司 Nurse station interactive system
CN116936133A (en) * 2023-09-18 2023-10-24 四川互慧软件有限公司 Nutrient condition monitoring method and system based on nursing morning shift data
CN116959694A (en) * 2023-05-30 2023-10-27 厦门大学附属中山医院 Portable mobile nursing recording system

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113744895A (en) * 2021-08-20 2021-12-03 海南视联大健康智慧医疗科技有限公司 Nurse station interactive system
CN116959694A (en) * 2023-05-30 2023-10-27 厦门大学附属中山医院 Portable mobile nursing recording system
CN116959694B (en) * 2023-05-30 2024-04-30 厦门大学附属中山医院 Portable mobile nursing recording system
CN116936133A (en) * 2023-09-18 2023-10-24 四川互慧软件有限公司 Nutrient condition monitoring method and system based on nursing morning shift data
CN116936133B (en) * 2023-09-18 2023-12-08 四川互慧软件有限公司 Nutrient condition monitoring method and system based on nursing morning shift data

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