An emergency monitoring method, system, medium, and electronic device
By generating authorized pairing information through mobile terminals, remote emergency connection and control of critical patient monitoring terminals can be achieved, solving the problem of handling sudden changes in patient conditions when medical staff are scarce at night, and improving the efficiency and accuracy of emergency response.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- SECOND MEDICAL CENT OF CHINESE PLA GENERAL HOSPITAL
- Filing Date
- 2022-03-29
- Publication Date
- 2026-06-26
AI Technical Summary
At night or when there are fewer medical staff, critically ill patients are more prone to sudden changes in their condition, which makes it difficult for medical staff to handle the situation and may lead to an inappropriate emergency response that endangers the patient's life.
Authorization pairing information is generated through the mobile terminal of the on-duty doctor, enabling the first monitoring terminal to establish a communication connection with the second monitoring terminal, granting the second monitoring terminal emergency query and operation permissions, realizing remote observation and control, and reducing server relay time.
This improved the efficiency and accuracy of emergency response, reduced the travel distance for medical staff, and ensured timely treatment of patients.
Smart Images

Figure CN115240839B_ABST
Abstract
Description
Technical Field
[0001] This disclosure relates to the field of medical monitoring technology, and more specifically, to an emergency monitoring method, system, medium, and electronic device. Background Technology
[0002] With the development of medical technology, many hospitals have implemented one-on-one real-time monitoring of each critically ill patient's condition using monitors. This allows for timely responses to changes in the patient's condition. If a critically ill patient's condition suddenly changes, medical staff need to rush to the patient's bedside, observe the patient's condition through the monitors, and make judgments and take appropriate measures.
[0003] However, nighttime is when medical staff are least available, and it's also a peak period for sudden changes in the condition of critically ill patients. If patients in different rooms experience sudden changes in their condition simultaneously, it often creates difficulties for medical staff to handle the situation. Improper handling can endanger the lives of critically ill patients.
[0004] Therefore, this disclosure provides an emergency monitoring method to solve one of the aforementioned technical problems. Summary of the Invention
[0005] The purpose of this disclosure is to provide an emergency monitoring method, system, medium, and electronic device that can solve at least one of the aforementioned technical problems. The specific solution is as follows:
[0006] According to specific embodiments of this disclosure, in a first aspect, this disclosure provides an emergency monitoring method applied to a server, comprising:
[0007] Acquire multiple monitoring parameter values of the monitored patient collected by the first monitoring terminal;
[0008] When at least one monitoring parameter value of the monitored patient exceeds a preset danger threshold, the first terminal identifier of the first monitoring terminal is obtained, and the first terminal identifier is transmitted to the mobile terminal of the on-duty doctor to request pairing, triggering the operation of the mobile terminal to extract the second terminal identifier of the second monitoring terminal, and performing the operation of generating authorized pairing information between the second terminal identifier and the first terminal identifier;
[0009] When the authorized pairing information returned by the mobile terminal is obtained, emergency query permissions for querying the patient's condition information and emergency operation permissions for controlling the first monitoring terminal are determined based on the at least one monitoring parameter value. The emergency query permissions and the emergency operation permissions are transmitted to the second monitoring terminal for authorization, and the authorized pairing information is transmitted to the first monitoring terminal. This triggers the operation of establishing a communication connection between the first and second monitoring terminals based on the authorized pairing information, so that the on-duty doctor can control and view the display content of the first monitoring terminal in real time through the second monitoring terminal.
[0010] According to a specific embodiment of this disclosure, in a second aspect, this disclosure provides an emergency monitoring system, including:
[0011] The first monitoring terminal communicates with the server and is configured to collect multiple monitoring parameter values of the monitored patient.
[0012] The second monitoring terminal is communicatively connected to the server.
[0013] The mobile terminal is wirelessly connected to the server.
[0014] The server is configured as follows:
[0015] Acquire multiple monitoring parameter values of the monitored patient collected by the first monitoring terminal;
[0016] When at least one monitoring parameter value of the monitored patient exceeds a preset danger threshold, the first terminal identifier of the first monitoring terminal is obtained, and the first terminal identifier is transmitted to the mobile terminal of the on-duty doctor to request pairing, triggering the operation of the mobile terminal to extract the second terminal identifier of the second monitoring terminal, and performing the operation of generating authorized pairing information between the second terminal identifier and the first terminal identifier;
[0017] When the authorized pairing information returned by the mobile terminal is obtained, emergency query permissions for querying the patient's condition information and emergency operation permissions for controlling the first monitoring terminal are determined based on the at least one monitoring parameter value. The emergency query permissions and the emergency operation permissions are transmitted to the second monitoring terminal for authorization, and the authorized pairing information is transmitted to the first monitoring terminal. This triggers the operation of establishing a communication connection between the first and second monitoring terminals based on the authorized pairing information, so that the on-duty doctor can control and view the display content of the first monitoring terminal in real time through the second monitoring terminal.
[0018] According to specific embodiments of the present disclosure, in a third aspect, the present disclosure provides a computer-readable storage medium having a computer program stored thereon, which, when executed by a processor, implements the emergency monitoring method as described in any of the preceding claims.
[0019] According to a specific embodiment of the present disclosure, in a fourth aspect, the present disclosure provides an electronic device, including: one or more processors; and a storage device for storing one or more programs, which, when executed by the one or more processors, cause the one or more processors to implement the emergency monitoring method as described in any of the preceding claims.
[0020] Compared with the prior art, the above-described solutions of this disclosure have at least the following beneficial effects:
[0021] This disclosure provides an emergency monitoring method, system, medium, and electronic device. When a monitored patient becomes critically ill, the method involves a mobile terminal carried by the on-duty doctor generating authorization pairing information. This authorization pairing information authorizes a communication connection between a first monitoring terminal monitoring the patient and a second monitoring terminal designated by the on-duty doctor. The second monitoring terminal, through the authorization pairing information, obtains emergency query permissions from the server to access the patient's condition information and emergency operation permissions to control the first monitoring terminal. This allows the on-duty doctor to remotely observe the vital signs of the critically ill patient through the second monitoring terminal, facilitating timely emergency response. The direct connection between the first and second monitoring terminals reduces server-side relay time and improves emergency response efficiency. By delegating the power to generate authorization pairing information to the on-duty doctor's mobile terminal, compared to the traditional method where authorization pairing information is generated by the server, intermediate communication links are reduced, improving the response speed of emergency monitoring. Because the on-duty doctor's mobile terminal can be carried with them, they can immediately retrieve the second terminal identifier from the nearby second monitoring terminal after receiving the first terminal identifier, generating authorization pairing information. This solves the problem of quickly locating the on-duty doctor, avoids long-distance movement, and reduces emergency response time. This publicly authorized emergency query and operation permissions for the second monitoring terminal ensure the targeted and effective query and control by the on-duty doctor in emergencies. Attached Figure Description
[0022] Figure 1 A flowchart of an emergency monitoring method according to an embodiment of this disclosure is shown;
[0023] Figure 2 A schematic diagram of a departmental local area network according to an embodiment of the present disclosure is shown;
[0024] Figure 3 A schematic diagram of a hospital local area network according to an embodiment of the present disclosure is shown;
[0025] Figure 4 A schematic diagram of an inter-hospital wide area network according to an embodiment of the present disclosure is shown;
[0026] Figure 5 A schematic diagram of a preset case tree or a preset general disease tree according to an embodiment of the present disclosure is shown;
[0027] Figure 6 A device block diagram of an emergency monitoring system according to an embodiment of the present disclosure is shown;
[0028] Figure 7 A schematic diagram of an electronic device connection structure according to an embodiment of the present disclosure is shown;
[0029] Explanation of reference numerals in the attached figures
[0030] 11-Server, 12-First monitoring terminal, 13-Second monitoring terminal, 14-Mobile terminal;
[0031] 21 - Department 1, 22 - Department 2;
[0032] 31 - The first hospital, 32 - The second hospital. Detailed Implementation
[0033] To make the objectives, technical solutions, and advantages of this disclosure clearer, the disclosure will be further described in detail below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this disclosure, and not all of them. Based on the embodiments of this disclosure, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this disclosure.
[0034] The terminology used in the embodiments of this disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of this disclosure. The singular forms “a,” “the,” and “the” as used in the embodiments of this disclosure and the appended claims are also intended to include the plural forms, and “multiple” generally includes at least two unless the context clearly indicates otherwise.
[0035] It should be understood that the term "and / or" used in this article is merely a description of the relationship between related objects, indicating that three relationships can exist. For example, A and / or B can represent: A existing alone, A and B existing simultaneously, and B existing alone. Additionally, the character " / " in this article generally indicates that the preceding and following related objects have an "or" relationship.
[0036] It should be understood that although the terms first, second, third, etc., may be used to describe embodiments of this disclosure, these descriptions should not be limited to these terms. These terms are only used to distinguish the descriptions. For example, first may also be referred to as second without departing from the scope of embodiments of this disclosure, and similarly, second may also be referred to as first.
[0037] Depending on the context, the words “if” or “suppose” as used here can be interpreted as “when” or “in response to determination” or “in response to detection.” Similarly, depending on the context, the phrases “if determination” or “if detection (of the stated condition or event)” can be interpreted as “when determination” or “in response to determination” or “when detection (of the stated condition or event)” or “in response to detection (of the stated condition or event).”
[0038] It should also be noted that the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that an article or device that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such an article or device. Without further limitation, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the article or device that includes said element.
[0039] It should be noted that any symbols and / or numbers present in the specification that are not marked in the accompanying drawings are not reference numerals.
[0040] The optional embodiments of this disclosure are described in detail below with reference to the accompanying drawings.
[0041] Example 1
[0042] The embodiments provided in this disclosure, namely, an embodiment of an emergency monitoring method, are applied to the server side.
[0043] The following is combined Figure 1 The embodiments of this disclosure will be described in detail.
[0044] Step S101: Obtain multiple monitoring parameter values of the monitored patient collected by the first monitoring terminal 12.
[0045] The monitoring parameter values include vital sign values.
[0046] The vital signs are indicators used to assess the severity and urgency of a patient's condition. Vital signs include measurements of heart rate, pulse, blood pressure, respiration, pain, blood oxygen saturation, blood glucose, pupillary light, and corneal reflex. For example, in a normal person at rest, the pulse is 60–100 beats per minute (generally 70–80 beats per minute). In cases of heart failure, shock, high fever, severe anemia and pain, thyroid storm, myocarditis, and drug poisoning such as atropine, the heart rate and pulse significantly increase. In cases of increased intracranial pressure or complete atrioventricular block, the pulse slows. Under normal circumstances, heart rate and pulse are synchronized, but in cases of arrhythmias such as atrial fibrillation and frequent premature beats, the pulse may be less than the heart rate.
[0047] A monitoring terminal is used to collect patient monitoring parameters (including vital signs) through sensors and display these values in various graphical tables. It also compares these values with preset thresholds; if any exceedances occur, an alarm is triggered, including both visual and audible prompts on the monitoring terminal's interface. During use, the monitoring terminal must continuously monitor patient parameters 24 hours a day, detecting trends and displaying critical situations for doctors to provide emergency treatment and timely relief. In addition to measuring and monitoring parameters, the monitoring terminal also monitors and manages medication administration and pre- and post-operative conditions. Monitoring terminals are commonly used medical devices in hospital emergency departments.
[0048] The monitoring parameters collected by the monitoring terminal are determined based on the patient's condition.
[0049] Each monitoring terminal logs into server 11 via the network to transmit the collected monitoring parameter values to server 11. Server 11 centrally manages the monitoring parameter values of all monitored patients, the query permissions for monitored patients' conditions, and the operation permissions for each monitoring terminal, so as to establish a comprehensive diagnosis and emergency data system and information sharing mechanism for the hospital.
[0050] The network includes wired networks and / or wireless networks.
[0051] If emergency monitoring is limited to a single department, such as the emergency department, then server 11 is limited to centralized management of monitoring terminals connected to the local area network of that department. For example... Figure 2 As shown, multiple monitoring terminals are installed inside the department. The first monitoring terminal 12 and the second monitoring terminal 13 are among the multiple monitoring terminals centrally managed by the server 11. The first monitoring terminal 12 and the second monitoring terminal 13 can be set up in the same room to monitor different patients, or they can be set up in different rooms.
[0052] If emergency monitoring is confined to the hospital premises, server 11 centrally manages the monitoring terminals connected to the hospital's internal LAN. The hospital has multiple departments, each with multiple monitoring terminals, for example... Figure 3 As shown, the hospital has a first department 21 and a second department 22. The first monitoring terminal 12 is located in the first department 21, while the second monitoring terminal 13 is located in the second department 22.
[0053] If emergency monitoring involves multiple hospitals, server 11 provides remote centralized management of monitoring terminals across these hospitals. Each hospital has multiple departments, and each department has multiple monitoring terminals. Each hospital's local area network (LAN) is remotely connected via a wide area network (WAN). For example, ... Figure 4 As shown, the first monitoring terminal 12 is installed in the first department 21 of the first hospital 31, while the second monitoring terminal 13 is installed in the second department 22 of the second hospital 32.
[0054] The embodiments disclosed herein are not limited to the above-described methods of centralized management and monitoring of the server 11.
[0055] Step S102: When at least one monitoring parameter value of the monitored patient exceeds a preset danger threshold, the first terminal identifier of the first monitoring terminal 12 is obtained, and the first terminal identifier is transmitted to the mobile terminal 14 of the on-duty doctor to request pairing, triggering the operation of the mobile terminal 14 to extract the second terminal identifier of the second monitoring terminal 13, and performing the operation of generating authorized pairing information between the second terminal identifier and the first terminal identifier.
[0056] The preset danger threshold refers to the critical value at which the monitoring parameters of the monitored patient exceed the vital signs of a normal person and endanger life.
[0057] The mobile terminal 14 of the on-duty doctor refers to a terminal that the on-duty doctor can carry with him, such as a tablet computer, PDA, and / or mobile phone, but this embodiment is not limited to these. The mobile terminal 14 of the on-duty doctor is logged into the server 11 so that the on-duty doctor can receive information sent by the server 11 and be aware of the critical condition of the monitored patient at any time.
[0058] When at least one monitoring parameter value of the monitored patient exceeds a preset danger threshold, the on-duty doctor should not be next to the first monitoring terminal 12, but should instead carry a mobile terminal 14 next to the second monitoring terminal 13. For example, if emergency monitoring is limited to only one department, the first monitoring terminal 12 is set up in the first ward, and the second monitoring terminal 13 is set up in the second ward; when the patient monitored by the first monitoring terminal 12 in the first ward becomes critically ill, the on-duty doctor is making rounds next to the second monitoring terminal 13 in the second ward; if the department is large, the on-duty doctor rushing from the second ward to the first ward will definitely delay the treatment time.
[0059] This disclosure is not limited to these embodiments. For example, if emergency monitoring is limited to within a hospital, the first monitoring terminal 12 is located in the first ward of the emergency department, and the second monitoring terminal 13 is located in the second ward of the internal medicine department. When the patient monitored by the first monitoring terminal 12 becomes critically ill, the on-duty physician in the internal medicine department is making rounds next to the second monitoring terminal 13 in the second ward of the internal medicine department. The server 11 transmits the first terminal identifier of the first monitoring terminal 12 to the mobile terminal 14 carried by the on-duty physician in the internal medicine department, hoping that the on-duty physician in the internal medicine department can provide emergency treatment for the patient monitored in the emergency department. Of course, the above situation can also be applied to emergency monitoring between multiple hospitals, which will not be elaborated further in this disclosure.
[0060] A terminal identifier is a unique value used to characterize the corresponding monitoring terminal, such as the ID value, IP address, or name of the monitoring terminal, though this disclosure is not limited to these.
[0061] When the on-duty doctor's mobile terminal 14 receives a first terminal identifier requesting pairing, a prompt message is displayed on the mobile terminal 14, such as a display prompt message, an audio prompt message, and / or a vibration prompt message. This is to remind the on-duty doctor to retrieve the second terminal identifier from the second monitoring terminal 13 via the mobile terminal 14 for authorized pairing.
[0062] The authorized pairing information is generated by the on-duty doctor through mobile terminal 14 and includes the terminal identifiers of both communicating parties. Therefore, the authorized pairing information is also unique, ensuring a one-to-one direct connection between the two communicating parties. Both monitoring terminals can only establish a direct communication connection after obtaining the authorized pairing information. If the on-duty doctor's mobile terminal 14 does not authorize after obtaining the first terminal identifier, i.e., does not generate authorized pairing information, then the first monitoring terminal 12 cannot establish a direct connection between the two monitoring terminals without obtaining the authorized pairing information.
[0063] This embodiment delegates the power to generate authorized pairing information to the mobile terminal 14 of the on-duty doctor. Compared with the traditional method where the server 11 generates authorized pairing information, this reduces intermediate communication links and improves the response speed of emergency monitoring. Since the mobile terminal 14 of the on-duty doctor can be carried with them, the on-duty doctor can immediately extract the second terminal identifier from the nearby second monitoring terminal 13 through the mobile terminal 14 after receiving the first terminal identifier, and generate authorized pairing information. This solves the problem of quickly locating the on-duty doctor, avoids long-distance movement of the on-duty doctor, and reduces emergency response time.
[0064] In some specific embodiments, the operation of triggering the mobile terminal 14 to extract the second terminal identifier of the second monitoring terminal 13 and the operation of generating authorization pairing information between the second terminal identifier and the first terminal identifier includes the following steps:
[0065] Step S102a: The operation of generating a QR code extraction interface is triggered on the mobile terminal 14, and after the mobile terminal 14 extracts the second terminal identifier from the QR code prompted by the second monitoring terminal 13 through the QR code extraction interface, the operation of generating the authorization pairing information by the second terminal identifier and the first terminal identifier is performed.
[0066] In this specific embodiment, each monitoring terminal has a unique QR code, and each QR code stores the terminal identifier of the monitoring terminal. The QR code of the second monitoring terminal 13 may be displayed on the second monitoring terminal 13 or affixed to the second monitoring terminal 13 in paper form; this embodiment is not limited to this.
[0067] For example, when the mobile terminal 14 of the on-duty doctor receives the first terminal identifier requesting pairing, it prompts the on-duty doctor to authorize pairing; the on-duty doctor extracts the second terminal identifier from the QR code of the second monitoring terminal 13 through the QR code extraction interface in the mobile terminal 14 and generates authorized pairing information.
[0068] QR codes offer advantages such as low cost, ease of generation and acquisition, large information storage capacity, strong fault tolerance, and encryption capability. In this specific embodiment, the mobile terminal 14 extracts the second terminal identifier from the QR code of the second monitoring terminal 13, ensuring the security and reliability of the extracted second terminal identifier. This avoids the cumbersome manual input process and improves the speed of emergency response.
[0069] In some other specific embodiments, the operation of triggering the mobile terminal 14 to extract the second terminal identifier of the second monitoring terminal 13 and the operation of generating authorization pairing information between the second terminal identifier and the first terminal identifier includes the following steps:
[0070] Step S102b triggers the operation of generating a barcode extraction interface on the mobile terminal 14, and after the mobile terminal 14 extracts the second terminal identifier from the barcode prompted by the second monitoring terminal 13 through the barcode extraction interface, it generates the authorization pairing information by combining the second terminal identifier with the first terminal identifier.
[0071] When the second terminal identifier is a string of numbers, a barcode can be used to represent it. Barcodes have the advantages of low cost, ease of generation, ease of acquisition, and fast information retrieval. In this specific embodiment, the mobile terminal 14 extracts the second terminal identifier from the barcode of the second monitoring terminal 13, avoiding the tedious operation of manual input and the complex decoding process, thus improving the speed of emergency response.
[0072] Step S103: When the authorized pairing information returned by the mobile terminal 14 is obtained, emergency query permission and emergency operation permission to control the first monitoring terminal 12 are determined based on the at least one monitoring parameter value. The emergency query permission and the emergency operation permission are transmitted to the second monitoring terminal 13 for authorization, and the authorized pairing information is transmitted to the first monitoring terminal 12. This triggers the operation of establishing a communication connection between the first monitoring terminal 12 and the second monitoring terminal 13 based on the authorized pairing information, so that the on-duty doctor can control and view the display content of the first monitoring terminal 12 in real time through the second monitoring terminal 13.
[0073] The emergency query permission refers to the permission to query the patient's condition information from the server 11 through the second monitoring terminal 13.
[0074] The patient's medical history includes the patient's medical records and the patient's historical monitoring parameter values during the current monitoring process.
[0075] The emergency operation permission refers to the permission of the second monitoring terminal 13 to control the first monitoring terminal 12. For example, the emergency operation permission obtained by the second monitoring terminal 13 can fully control the first monitoring terminal 12, including: displaying the display interface of the first monitoring terminal 12 on the second monitoring terminal 13, controlling the display interface of the first monitoring terminal 12 to switch from interface A to interface B, and controlling the first monitoring terminal 12 to collect multiple first monitoring parameter values and then collect multiple second monitoring parameter values. The embodiments disclosed herein are not limited to these.
[0076] The determination of emergency query permissions and emergency operation permissions for the first monitoring terminal 12 based on the at least one monitoring parameter value can be understood as limiting the emergency query permissions and emergency operation permissions to information related to the at least one monitoring parameter value. For example, if a monitored patient experiences tachycardia, the emergency query permission allows the second monitoring terminal 13 to query relevant medical information that could cause the tachycardia, such as cases of diabetes or hypertension; similarly, the emergency operation permission allows the second monitoring terminal 13 to control the first monitoring terminal 12 to collect monitoring parameter values that could cause the tachycardia, such as blood glucose or blood pressure; this embodiment is not limited to this. The emergency query and emergency operation permissions granted to the second monitoring terminal 13 in this embodiment ensure the targeted and effective query and control by the on-duty doctor in emergency situations.
[0077] Regarding the execution process of step S103, the authorization pairing information can be understood as not only authorizing the first monitoring terminal 12 and the second monitoring terminal 13 to establish a one-to-one direct connection, but also authorizing the server 11, instructing the server 11 to authorize the emergency query permission and the emergency operation permission to the second monitoring terminal 13. This allows the on-duty doctor to remotely observe the vital signs of critically ill patients through the second monitoring terminal 13, facilitating timely emergency response. Simultaneously, the direct connection between the first monitoring terminal 12 and the second monitoring terminal 13 reduces the relay time of the server 11, improving the efficiency of emergency response.
[0078] Optionally, when the first monitoring terminal 12 transmits multiple monitoring parameter values of the monitored patient to the authorized second monitoring terminal 13, the multiple monitoring parameter values are still transmitted to the server 11 so that the server 11 can save them for querying.
[0079] In some specific implementations, determining the emergency query permission to access the patient's condition information and the emergency operation permission to control the first monitoring terminal 12 based on the at least one monitoring parameter value includes the following steps:
[0080] Step S103a-1: Traverse each monitoring node in the preset case tree of the monitored patient that is related to the monitoring parameter value, and compare the monitoring parameter value with the preset risk index range in each related monitoring node.
[0081] A tree is a data structure that is a hierarchical collection of at least a finite number of nodes. Each node has zero or more child nodes; a node without a parent node is called the root node; every non-root node has exactly one parent node; and except for the root node, each child node can be divided into multiple disjoint subtrees.
[0082] The preset case tree is a pre-set tree that records the correlation between the patient's diseases and monitoring parameters, based on the historical medical records of the monitored patients. For example, as... Figure 5 As shown, at least one disease node is set under the root node of the preset case tree. The disease node stores the name and disease number of the disease suffered by the monitored patient in the case. At least one monitoring node is set under each disease node. Each monitoring node stores the monitoring parameters required for the corresponding disease and the preset risk index range of the monitoring parameters. A query node and an operation node are set under each monitoring node. The query node stores the preset emergency query permissions related to the monitoring parameters of the corresponding disease. The operation node stores the preset emergency operation permissions related to the monitoring parameters of the corresponding disease. Of course, this specific embodiment is not limited to this.
[0083] The preset case tree is stored in the memory of server 11. Within the preset case tree, the same monitoring parameter can be stored in different monitoring nodes under different disease nodes. Therefore, the emergency query permissions and emergency operation permissions corresponding to this type of monitoring node are different and related to the disease corresponding to that monitoring node.
[0084] The relevant monitoring node can be understood as a monitoring node in the preset case tree that is related to the monitoring parameter value, that is, the monitoring node in the preset case tree stores the monitoring parameter related to the monitoring parameter value.
[0085] The comparison between the monitoring parameter value and the preset risk indicator range in each relevant monitoring node can be understood as follows: the monitoring nodes obtained from the preset case tree store monitoring parameters related to the monitoring parameter value, and then the monitoring parameter value is compared with the preset risk indicator range in the relevant monitoring nodes. For example, the monitoring parameter value is related to the heart rate parameter, and the heart rate parameter is stored in the first monitoring node under the heart disease node and also in the second monitoring node under the diabetes node. Both the first and second monitoring nodes are related to the heart rate parameter value. Furthermore, the emergency query permissions and emergency operation permissions corresponding to the first monitoring node are related to heart disease, and the emergency query permissions and emergency operation permissions corresponding to the second monitoring node are related to diabetes.
[0086] Step S103a-2: When the monitoring parameter value is within the range of preset danger indicators in at least one related monitoring node, the preset emergency query permission in the query node under the at least one related monitoring node is determined as the emergency query permission, and the preset emergency operation permission in the operation node under the at least one related monitoring node is determined as the emergency operation permission.
[0087] For example, if heart rate parameters are stored in a first monitoring node under the heart disease node and also in a second monitoring node under the diabetes node, and the heart rate parameter value is within the preset risk index range in both the first and second monitoring nodes, then the emergency query permission includes the preset emergency query permission in the query node under the first and second monitoring nodes; the emergency operation permission includes the preset emergency operation permission in the operation node under the first and second monitoring nodes.
[0088] This specific embodiment integrates various emergency information for each monitored patient (such as the patient's personal medical record information, monitoring parameter information, and permission information) and builds a preset case tree for the corresponding monitored patient in memory. When an emergency occurs, the corresponding emergency query permissions and emergency operation permissions can be quickly obtained, which improves the speed of emergency response compared with database query methods.
[0089] Furthermore, in some other specific embodiments, the method further includes the following steps:
[0090] Step S103a-3: When the monitoring parameter value is within the range of preset danger indicators in at least one monitoring node, obtain the preset response strategy information in the at least one monitoring node, and transmit the preset response strategy information to the second monitoring terminal 13 for display.
[0091] For example, continuing with the example of the preset case tree and heart rate parameters, each monitoring node in the preset case tree stores preset response strategy information for monitoring parameter values within the preset danger index range. When the heart rate parameter value is within the preset danger index range in the first monitoring node and also within the preset danger index range in the second monitoring node, preset response strategy information for heart disease is obtained from the first monitoring node, and preset response strategy information for diabetes is obtained from the second monitoring node. Then, the preset response strategy information for the two diseases is transmitted to the second monitoring terminal 13 authorized by the on-duty doctor for display, so as to assist the on-duty doctor in emergency treatment.
[0092] This specific embodiment provides on-duty doctors with timely information on comprehensive strategies for managing critically ill patients, assisting them in making quick judgments and taking appropriate actions, thus improving the efficiency of emergency response.
[0093] Furthermore, in some other specific embodiments, the method further includes the following steps:
[0094] Step S103b-1: When no monitoring node related to the monitoring parameter value is found after traversing the preset case tree, traverse each monitoring node related to the monitoring parameter value in the preset general condition tree, and compare the monitoring parameter value with the preset risk indicator range in each related monitoring node.
[0095] The absence of a monitoring node related to the monitoring parameter value in the preset case tree can be understood as the absence of a monitoring node related to the monitoring parameter value in the preset case tree. In other words, no monitoring node in the preset case tree stores a monitoring parameter related to the monitoring parameter value. This implies that, in the case, the monitoring parameter has not been used for the monitored patient, or that the first monitoring terminal 12 used by the monitored patient has a new detection function.
[0096] The preset general disease tree is a pre-set tree that covers the relationship between all known diseases and monitoring parameters.
[0097] The data structure of the preset general disease tree is similar to the data structure of the preset case tree. For example, as... Figure 5 As shown, under the root node of the preset general disease tree, there are disease nodes for all known diseases. Each disease node stores the name and disease number of the disease. Under each disease node, there is at least one monitoring node for the corresponding disease. Each monitoring node stores the monitoring parameters required for the corresponding disease and the preset risk index range for those parameters. Under each monitoring node, there are query nodes and operation nodes. The query nodes store preset general query permissions related to the monitoring parameters of the corresponding disease, and the operation nodes store preset general operation permissions related to the monitoring parameters of the corresponding disease. The preset general query permissions include all query permissions related to monitoring parameters allowed by all monitoring terminals, and the preset general operation permissions include all operation permissions related to monitoring parameters allowed by all monitoring terminals. Of course, this specific embodiment is not limited to this. The usage method of the preset general disease tree is the same as that of the preset case tree, and will not be repeated here. Please refer to the usage method of the preset case tree.
[0098] Each monitoring node in the preset general condition tree that is related to the monitoring parameter value can be understood as a monitoring node in the preset general condition tree that is related to the monitoring parameter value, that is, the monitoring node in the preset general condition tree stores the monitoring parameter related to the monitoring parameter value.
[0099] The relevant monitoring node can be understood as a monitoring node in a preset general condition tree that is related to the monitoring parameter value, that is, the monitoring node in the preset general condition tree stores the monitoring parameter related to the monitoring parameter value.
[0100] The comparison between the monitoring parameter value and the preset risk indicator range in each relevant monitoring node can be understood as follows: the monitoring node obtained from the preset general disease tree stores the monitoring parameters related to the monitoring parameter value, the preset risk indicator range is obtained from the monitoring node, and the monitoring parameter value is compared with the preset risk indicator range.
[0101] Step S103b-2: When the monitoring parameter value is within the preset danger index range of at least one related monitoring node, obtain the preset general query permission of the query node under the at least one related monitoring node and the preset general operation permission of the operation node under the at least one related monitoring node.
[0102] The at least one relevant monitoring node refers to a relevant monitoring node in a preset general disease tree.
[0103] Step S103b-3: Obtain the preset maximum query permission and preset maximum operation permission of the first monitoring terminal 12.
[0104] Because monitoring terminals vary in purchase time, model, and manufacturer, especially in this embodiment applied to emergency response between different hospitals in a wide area network, the aforementioned preset general query permissions include all query permissions related to monitoring parameters allowed by all monitoring terminals, and the preset general operation permissions include all operation permissions related to monitoring parameters allowed by all monitoring terminals. Some of these permissions are not suitable for the first monitoring terminal 12; that is, the first monitoring terminal 12 is unrelated to certain permissions. To obtain permissions suitable for the first monitoring terminal 12, this specific embodiment provides preset maximum query permissions and preset maximum operation permissions for the first monitoring terminal 12.
[0105] The preset maximum query permissions include all permissions related to querying information collected by the first monitoring terminal 12.
[0106] The preset maximum operating permissions include all operating permissions for controlling the first monitoring terminal 12.
[0107] Step S103a-4: Determine the emergency query permission based on the intersection of the preset general query permission and the preset maximum query permission.
[0108] The determined emergency query permission is related to both the preset general query permission and the preset maximum query permission. It can be understood that the determined emergency query permission is a query permission suitable for the first monitoring terminal 12, which is the permission to query information related to the monitoring parameter value.
[0109] Step S103a-5: Determine the emergency operation permission based on the intersection of the preset general operation permission and the preset maximum operation permission.
[0110] The determined emergency operation permissions are related to both the preset general operation permissions and the preset maximum operation permissions. It can be understood that the determined emergency operation permissions are operation permissions suitable for the first monitoring terminal 12, and are permissions that enable control over the first monitoring terminal 12.
[0111] In the above two steps, the operation described in steps S103a-4 is performed first, and then the operation described in steps S103a-5 is performed. In other specific embodiments, the operation described in steps S103a-5 is performed first, and then the operation described in steps S103a-4 is performed; or, the operation described in steps S103a-4 and the operation described in steps S103a-5 are performed simultaneously. This disclosure does not impose any restrictions on the execution order of the above two steps.
[0112] Optionally, after transmitting the emergency query permission and the emergency operation permission to the second monitoring terminal 13 for authorization, the method further includes the following steps:
[0113] Step S104: The emergency query permission and / or the emergency operation permission, together with the preset removal identifier, are transmitted to the first monitoring terminal 12, triggering the first monitoring terminal 12 to remove the emergency query permission and / or the emergency operation permission based on the preset removal identifier.
[0114] For example, before authorizing the second monitoring terminal 13, the first monitoring terminal 12 has the permission to query the patient's diabetes condition information. After the second monitoring terminal 13 obtains the permission to query the condition information, the server 11 instructs the first monitoring terminal 12 to remove its emergency query permission through a preset removal flag, so that the first monitoring terminal 12 cannot query the patient's diabetes condition information. Similarly, before authorizing the second monitoring terminal 13, the first monitoring terminal 12 has the control right to adjust monitoring parameters and adjust the display interface. After the second monitoring terminal 13 obtains these two control rights, the server 11 instructs the first monitoring terminal 12 to remove these two control rights through a preset removal flag, so that the first monitoring terminal 12 cannot adjust monitoring parameters and adjust the display interface. This specific embodiment is not limited to this.
[0115] After granting the corresponding permissions to the second monitoring terminal 13, the corresponding permissions held by the first monitoring terminal 12 are removed, ensuring the uniqueness of control over the first monitoring terminal 12 and the authority of the on-duty doctor in emergency handling, thus ensuring the efficiency of emergency response.
[0116] Optionally, the method further includes the following steps:
[0117] Step S105: When the exit information transmitted by the second monitoring terminal 13 is obtained, the emergency query permission and / or the emergency operation permission together with the preset recovery identifier are transmitted to the first monitoring terminal 12, triggering the first monitoring terminal 12 to perform the operation of restoring the emergency query permission and / or the emergency operation permission based on the preset recovery identifier.
[0118] After the second monitoring terminal 13 completes remote emergency monitoring, it sends an exit message to the server 11. The server 11 then sends the corresponding permissions removed from the first monitoring terminal 12 in response to the emergency, along with a preset recovery identifier, to the first monitoring terminal 12. The server 11 instructs the first monitoring terminal 12 to restore the corresponding permissions using the preset recovery identifier. This ensures the uniqueness of control over the first monitoring terminal 12 and prevents it from becoming uncontrollable.
[0119] Example 2
[0120] This disclosure also provides system embodiments that follow the above embodiments, for implementing the method steps described in the above embodiments. The interpretation of the same names is the same as that in the above embodiments, and they have the same technical effects as those in the above embodiments, so they will not be repeated here.
[0121] like Figure 6 As shown, this disclosure provides an emergency monitoring system 10, including:
[0122] The first monitoring terminal 12 is communicatively connected to the server 11 and the second monitoring terminal 13, and is configured to collect multiple monitoring parameter values of the monitored patient.
[0123] The second monitoring terminal 13 is communicatively connected to the server 11;
[0124] Mobile terminal 14 is wirelessly connected to the server 11;
[0125] The server 11 is configured as follows:
[0126] Acquire multiple monitoring parameter values of the monitored patient collected by the first monitoring terminal 12;
[0127] When at least one monitoring parameter value of the monitored patient exceeds a preset danger threshold, the first terminal identifier of the first monitoring terminal 12 is obtained and the first terminal identifier is transmitted to the mobile terminal 14 of the on-duty doctor to request pairing, triggering the operation of the mobile terminal 14 to extract the second terminal identifier of the second monitoring terminal 13, and performing the operation of generating authorized pairing information between the second terminal identifier and the first terminal identifier;
[0128] When the authorized pairing information returned by the mobile terminal 14 is obtained, emergency query permissions for querying the patient's condition information and emergency operation permissions for controlling the first monitoring terminal 12 are determined based on the at least one monitoring parameter value. The emergency query permissions and the emergency operation permissions are transmitted to the second monitoring terminal 13 for authorization, and the authorized pairing information is transmitted to the first monitoring terminal 12. This triggers the operation of establishing a communication connection between the first monitoring terminal 12 and the second monitoring terminal 13 based on the authorized pairing information, so that the on-duty doctor can control and view the display content of the first monitoring terminal 12 in real time through the second monitoring terminal 13.
[0129] Optionally, the server 11 is configured to determine emergency query permissions for querying the patient's condition information and emergency operation permissions for controlling the first monitoring terminal 12 based on the at least one monitoring parameter value, including:
[0130] Traverse each monitoring node in the preset case tree of the monitored patient that is related to the monitoring parameter value, and compare the monitoring parameter value with the preset risk index range in each related monitoring node;
[0131] When the monitoring parameter value is within the preset danger index range of at least one relevant monitoring node, the preset emergency query permission in the query node under the at least one relevant monitoring node is determined as the emergency query permission, and the preset emergency operation permission in the operation node under the at least one relevant monitoring node is determined as the emergency operation permission.
[0132] Optionally, the server 11 is further configured as follows:
[0133] When the monitoring parameter value is within the range of a preset danger index in at least one monitoring node, the preset response strategy information in the at least one monitoring node is obtained, and the preset response strategy information is transmitted to the second monitoring terminal 13 for display.
[0134] Optionally, the server 11 is further configured as follows:
[0135] When no monitoring node related to the monitoring parameter value is found after traversing the preset case tree, each monitoring node related to the monitoring parameter value in the preset general condition tree is traversed, and the monitoring parameter value is compared with the preset risk indicator range in each related monitoring node.
[0136] When the monitoring parameter value is within the preset danger index range of at least one related monitoring node, the preset general query permission in the query node under the at least one related monitoring node and the preset general operation permission in the operation node under the at least one related monitoring node are obtained.
[0137] Obtain the preset maximum query permission and preset maximum operation permission of the first monitoring terminal 12;
[0138] The emergency query permission is determined based on the intersection of the preset general query permission and the preset maximum query permission, and...
[0139] The emergency operation permission is determined based on the intersection of the preset general operation permission and the preset maximum operation permission.
[0140] Optionally, the server 11 is configured to execute the operation of triggering the mobile terminal 14 to extract the second terminal identifier of the second monitoring terminal 13, and to execute the operation of generating authorization pairing information between the second terminal identifier and the first terminal identifier, including:
[0141] The operation of generating a QR code extraction interface is triggered on the mobile terminal 14, and after the mobile terminal 14 extracts the second terminal identifier from the QR code prompted by the second monitoring terminal 13 through the QR code extraction interface, the operation of generating the authorization pairing information by combining the second terminal identifier with the first terminal identifier is performed.
[0142] Optionally, the server 11, after transmitting the emergency query permission and the emergency operation permission to the second monitoring terminal 13 for authorization, further includes:
[0143] The emergency query permission and / or the emergency operation permission, together with a preset removal identifier, are transmitted to the first monitoring terminal 12, triggering the first monitoring terminal 12 to remove the emergency query permission and / or the emergency operation permission based on the preset removal identifier.
[0144] Optionally, the server 11 is further configured as follows:
[0145] When the exit information transmitted by the second monitoring terminal 13 is obtained, the emergency query permission and / or the emergency operation permission, together with the preset recovery identifier, are transmitted to the first monitoring terminal 12, triggering the first monitoring terminal 12 to perform the operation of restoring the emergency query permission and / or the emergency operation permission based on the preset recovery identifier.
[0146] In this embodiment, when a monitored patient becomes critically ill, the mobile terminal 14 carried by the on-duty doctor generates authorization pairing information. This authorization pairing information authorizes a communication connection between the first monitoring terminal 12 monitoring the patient and a second monitoring terminal 13 designated by the on-duty doctor. The second monitoring terminal 13, through the authorization pairing information, obtains emergency query permissions from the server 11 to access the patient's condition information and emergency operation permissions to control the first monitoring terminal 12. This allows the on-duty doctor to remotely monitor the vital signs of the critically ill patient via the second monitoring terminal 13, facilitating timely emergency response. The direct connection between the first and second monitoring terminals reduces the relay time of the server 11, improving emergency response efficiency. By delegating the power to generate authorization pairing information to the on-duty doctor's mobile terminal 14, compared to the traditional method where the server 11 generates authorization pairing information, intermediate communication links are reduced, increasing the response speed of emergency monitoring. Since the on-duty doctor's mobile terminal 14 can be carried with them, the on-duty doctor can immediately retrieve the second terminal identifier from the nearby second monitoring terminal 13 through the mobile terminal 14 after receiving the first terminal identifier, and generate authorized pairing information. This solves the problem of quickly locating the on-duty doctor, avoids long-distance movement of the on-duty doctor, and reduces emergency response time. This disclosure authorizes the second monitoring terminal 13 with emergency query and emergency operation permissions, ensuring the on-duty doctor's targeted and effective query and control in emergencies.
[0147] Example 3
[0148] like Figure 7As shown, this embodiment provides an electronic device, which includes: at least one processor; and a memory communicatively connected to the at least one processor; wherein the memory stores instructions executable by the at least one processor, which are executed by the at least one processor to enable the at least one processor to perform the method steps described in the above embodiment.
[0149] Example 4
[0150] This disclosure provides a non-volatile computer storage medium storing computer-executable instructions that can perform the steps described in the above embodiments.
[0151] Example 5
[0152] The following is for reference. Figure 7 The diagram illustrates a structural schematic of an electronic device suitable for implementing embodiments of the present disclosure. The terminal devices in the embodiments of the present disclosure may include, but are not limited to, mobile terminals such as mobile phones, laptops, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and fixed terminals such as digital TVs and desktop computers. Figure 7 The electronic device shown is merely an example and should not be construed as limiting the functionality and scope of the embodiments disclosed herein.
[0153] like Figure 7 As shown, the electronic device may include a processing unit (e.g., a central processing unit, a graphics processor, etc.) 701, which can perform various appropriate actions and processes according to a program stored in a read-only memory (ROM) 702 or a program loaded from a storage device 708 into a random access memory (RAM) 703. The RAM 703 also stores various programs and data required for the operation of the electronic device. The processing unit 701, ROM 702, and RAM 703 are interconnected via a bus 704. An input / output (I / O) interface 705 is also connected to the bus 704.
[0154] Typically, the following devices can be connected to I / O interface 705: input devices 706 including, for example, touchscreens, touchpads, keyboards, mice, cameras, microphones, accelerometers, gyroscopes, etc.; output devices 705 including, for example, liquid crystal displays (LCDs), speakers, vibrators, etc.; storage devices 708 including, for example, magnetic tapes, hard disks, etc.; and communication devices 709. Communication device 709 allows electronic devices to communicate wirelessly or wiredly with other devices to exchange data. Although Figure 7Electronic devices with various devices are shown, but it should be understood that it is not required to implement or have all of the devices shown. More or fewer devices may be implemented or have alternatively.
[0155] In particular, according to embodiments of this disclosure, the processes described above with reference to the flowcharts can be implemented as computer software programs. For example, embodiments of this disclosure include a computer program product comprising a computer program carried on a computer-readable medium, the computer program containing program code for performing the methods shown in the flowcharts. In such embodiments, the computer program can be downloaded and installed from a network via communication device 709, or installed from storage device 708, or installed from ROM 702. When the computer program is executed by processing device 701, it performs the functions defined in the methods of embodiments of this disclosure.
[0156] It should be noted that the computer-readable medium described in this disclosure can be a computer-readable signal medium or a computer-readable storage medium, or any combination thereof. A computer-readable storage medium can be, for example,—but not limited to—an electrical, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination thereof. More specific examples of a computer-readable storage medium may include, but are not limited to: an electrical connection having one or more wires, a portable computer disk, a hard disk, random access memory (RAM), read-only memory (ROM), erasable programmable read-only memory (EPROM or flash memory), optical fiber, portable compact disk read-only memory (CD-ROM), optical storage device, magnetic storage device, or any suitable combination thereof. In this disclosure, a computer-readable storage medium can be any tangible medium containing or storing a program that can be used by or in connection with an instruction execution system, apparatus, or device. In this disclosure, a computer-readable signal medium can include a data signal propagated in baseband or as part of a carrier wave, carrying computer-readable program code. Such propagated data signals can take various forms, including but not limited to electromagnetic signals, optical signals, or any suitable combination thereof. A computer-readable signal medium can be any computer-readable medium other than a computer-readable storage medium, which can send, propagate, or transmit a program for use by or in connection with an instruction execution system, apparatus, or device. The program code contained on the computer-readable medium can be transmitted using any suitable medium, including but not limited to: wires, optical fibers, RF (radio frequency), etc., or any suitable combination thereof.
[0157] The aforementioned computer-readable medium may be included in the aforementioned electronic device; or it may exist independently and not assembled into the electronic device.
[0158] Computer program code for performing the operations of this disclosure can be written in one or more programming languages or a combination thereof, including object-oriented programming languages such as Java, Smalltalk, and C++, and conventional procedural programming languages such as the "C" language or similar programming languages. The program code can be executed entirely on the user's computer, partially on the user's computer, as a standalone software package, partially on the user's computer and partially on a remote computer, or entirely on a remote computer or server. In cases involving remote computers, the remote computer can be connected to the user's computer via any type of network—including a local area network (LAN) or a wide area network (WAN)—or can be connected to an external computer (e.g., via the Internet using an Internet service provider).
[0159] The flowcharts and block diagrams in the accompanying drawings illustrate the architecture, functionality, and operation of possible implementations of systems, methods, and computer program products according to various embodiments of this disclosure. In this regard, each block in a flowchart or block diagram may represent a module, segment, or portion of code containing one or more executable instructions for implementing a specified logical function. It should also be noted that in some alternative implementations, the functions indicated in the blocks may occur in a different order than those indicated in the drawings. For example, two consecutively indicated blocks may actually be executed substantially in parallel, and they may sometimes be executed in reverse order, depending on the functions involved. It should also be noted that each block in the block diagrams and / or flowcharts, and combinations of blocks in the block diagrams and / or flowcharts, can be implemented using a dedicated hardware-based system that performs the specified function or operation, or using a combination of dedicated hardware and computer instructions.
[0160] The units described in the embodiments of this disclosure can be implemented in software or hardware. The names of the units are not, in some cases, intended to limit the specific unit.
Claims
1. An emergency monitoring method, applied to a server, characterized in that, include: Acquire multiple monitoring parameter values of the monitored patient collected by the first monitoring terminal; When at least one monitoring parameter value of the monitored patient exceeds a preset danger threshold, the first terminal identifier of the first monitoring terminal is obtained, and the first terminal identifier is transmitted to the mobile terminal of the on-duty doctor to request pairing, triggering the operation of the mobile terminal to extract the second terminal identifier of the second monitoring terminal, and performing the operation of generating authorized pairing information between the second terminal identifier and the first terminal identifier; When the authorized pairing information returned by the mobile terminal is obtained, emergency query permissions for querying the patient's condition information and emergency operation permissions for controlling the first monitoring terminal are determined based on the at least one monitoring parameter value. The emergency query permissions and emergency operation permissions are transmitted to the second monitoring terminal for authorization, and the authorized pairing information is transmitted to the first monitoring terminal. This triggers the operation of establishing a communication connection between the first monitoring terminal and the second monitoring terminal based on the authorized pairing information, so that the on-duty doctor can control and view the display content of the first monitoring terminal in real time through the second monitoring terminal. The determination of emergency query permissions for accessing the monitored patient's condition information and emergency operation permissions for controlling the first monitoring terminal based on the at least one monitoring parameter value includes: Traverse each monitoring node in the preset case tree of the monitored patient that is related to the monitoring parameter value, and compare the monitoring parameter value with the preset risk index range in each related monitoring node; When the monitoring parameter value is within the range of preset danger indicators in at least one relevant monitoring node, the preset emergency query permission in the query node under the at least one relevant monitoring node is determined as the emergency query permission, and the preset emergency operation permission in the operation node under the at least one relevant monitoring node is determined as the emergency operation permission. The method further includes: When no monitoring node related to the monitoring parameter value is found after traversing the preset case tree, each monitoring node related to the monitoring parameter value in the preset general condition tree is traversed, and the monitoring parameter value is compared with the preset risk indicator range in each related monitoring node. When the monitoring parameter value is within the preset danger index range of at least one related monitoring node, the preset general query permission in the query node under the at least one related monitoring node and the preset general operation permission in the operation node under the at least one related monitoring node are obtained. Obtain the preset maximum query permissions and preset maximum operation permissions of the first monitoring terminal; The emergency query permission is determined based on the intersection of the preset general query permission and the preset maximum query permission, and... The emergency operation permission is determined based on the intersection of the preset general operation permission and the preset maximum operation permission.
2. The method according to claim 1, characterized in that, The method further includes: When the monitoring parameter value is within the range of a preset danger index in at least one monitoring node, the preset response strategy information in the at least one monitoring node is obtained, and the preset response strategy information is transmitted to the second monitoring terminal for display.
3. The method according to claim 1, characterized in that, The operation of triggering the mobile terminal to extract the second terminal identifier of the second monitoring terminal and the operation of generating authorization pairing information between the second terminal identifier and the first terminal identifier include: The operation of generating a QR code extraction interface on the mobile terminal is triggered, and after the mobile terminal extracts the second terminal identifier from the QR code prompted by the second monitoring terminal through the QR code extraction interface, the operation of generating the authorization pairing information by combining the second terminal identifier with the first terminal identifier is performed.
4. The method according to claim 1, characterized in that, After transmitting the emergency query permission and the emergency operation permission to the second monitoring terminal for authorization, the process further includes: The emergency query permission and / or the emergency operation permission, together with a preset removal identifier, are transmitted to the first monitoring terminal, triggering the first monitoring terminal to remove the emergency query permission and / or the emergency operation permission based on the preset removal identifier.
5. The method according to claim 4, characterized in that, The method further includes: When the exit information transmitted by the second monitoring terminal is obtained, the emergency query permission and / or the emergency operation permission, together with the preset recovery identifier, are transmitted to the first monitoring terminal, triggering the first monitoring terminal to perform the operation of restoring the emergency query permission and / or the emergency operation permission based on the preset recovery identifier.
6. An emergency monitoring system, characterized in that, include: The first monitoring terminal is connected to the server and the second monitoring terminal and is configured to collect multiple monitoring parameter values of the monitored patient. The second monitoring terminal is communicatively connected to the server. The mobile terminal is wirelessly connected to the server. The server is configured as follows: Acquire multiple monitoring parameter values of the monitored patient collected by the first monitoring terminal; When at least one monitoring parameter value of the monitored patient exceeds a preset danger threshold, the first terminal identifier of the first monitoring terminal is obtained, and the first terminal identifier is transmitted to the mobile terminal of the on-duty doctor to request pairing, triggering the mobile terminal to extract the second terminal identifier of the second monitoring terminal, and performing the operation of generating authorized pairing information between the second terminal identifier and the first terminal identifier; When the authorized pairing information returned by the mobile terminal is obtained, emergency query permissions for querying the patient's condition information and emergency operation permissions for controlling the first monitoring terminal are determined based on the at least one monitoring parameter value. The emergency query permissions and emergency operation permissions are transmitted to the second monitoring terminal for authorization, and the authorized pairing information is transmitted to the first monitoring terminal. This triggers the operation of establishing a communication connection between the first monitoring terminal and the second monitoring terminal based on the authorized pairing information, so that the on-duty doctor can control and view the display content of the first monitoring terminal in real time through the second monitoring terminal. The determination of emergency query permissions for accessing the monitored patient's condition information and emergency operation permissions for controlling the first monitoring terminal based on the at least one monitoring parameter value includes: Traverse each monitoring node in the preset case tree of the monitored patient that is related to the monitoring parameter value, and compare the monitoring parameter value with the preset risk index range in each related monitoring node; When the monitoring parameter value is within the range of preset danger indicators in at least one relevant monitoring node, the preset emergency query permission in the query node under the at least one relevant monitoring node is determined as the emergency query permission, and the preset emergency operation permission in the operation node under the at least one relevant monitoring node is determined as the emergency operation permission. It is also configured as follows: When no monitoring node related to the monitoring parameter value is found after traversing the preset case tree, each monitoring node related to the monitoring parameter value in the preset general condition tree is traversed, and the monitoring parameter value is compared with the preset risk indicator range in each related monitoring node. When the monitoring parameter value is within the preset danger index range of at least one related monitoring node, the preset general query permission in the query node under the at least one related monitoring node and the preset general operation permission in the operation node under the at least one related monitoring node are obtained. Obtain the preset maximum query permissions and preset maximum operation permissions of the first monitoring terminal; The emergency query permission is determined based on the intersection of the preset general query permission and the preset maximum query permission, and... The emergency operation permission is determined based on the intersection of the preset general operation permission and the preset maximum operation permission.
7. A computer-readable storage medium having a computer program stored thereon, characterized in that, When the program is executed by the processor, it implements the method as described in any one of claims 1 to 5.
8. An electronic device, characterized in that, include: One or more processors; Storage device for storing one or more programs. Wherein, when the one or more programs are executed by the one or more processors, the one or more processors implement the method as described in any one of claims 1 to 5.