CN116705260A - Information specification method and system based on preoperative process node - Google Patents

Abstract

The application relates to an information standardization method and system based on preoperative process nodes, which establishes a preoperative process network through a background server; configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and the fingerprint information under the identity ID of each preoperative process node; fingerprint information of all preoperative process nodes implementing the operation is collected and reported to the background, identity ID identification is carried out according to the fingerprint information, and preoperative standard information bound under the identity ID is called and sent to all preoperative process nodes. After each medical staff who implements the operation carries out identification through fingerprint collection, the postoperative normative information is issued in the backstage, lets each medical staff who implements this operation check, confirm and learn once more to the preoperative operation and the preparation work of current operation, strengthens the operation preparation work to carry out normative requirement to medical staff, controls and prepares to the operation strictly.

Description

Information specification method and system based on preoperative process node

Technical Field

The disclosure relates to the technical field of medical operation information specification, in particular to an information specification method and system based on preoperative process nodes and electronic equipment.

Background

Medical surgery is performed according to a surgery operation flow preset in advance, a doctor of a surgical knife and a nurse of a doctor are required to keep the surgery operation time nodes in strict accordance with the operation flow, the respective surgery status is understood, and the surgery operation steps corresponding to the surgery nodes are strictly executed.

For the preoperative preparation process, which is also a key ring in the operation flow, a doctor and a nurse need to strictly execute and acquire own operation requirement information before performing an operation, and master preoperative preparation data corresponding to each node.

Before the operation, doctor nurses sometimes do not check operation related information according to the requirement, so that the subsequent preparation before the operation and operation behavior are not standard, and the quality of the subsequent operation can be affected. Therefore, it is necessary to establish a preoperative information standardization scheme for checking and learning management of preoperative preparation work of each medical node, so as to strengthen the standardization requirement for the operation preparation work of medical staff, and strictly control and prepare the operation.

Disclosure of Invention

In order to solve the problems, the application provides an information specification method and system based on preoperative process nodes and electronic equipment.

In one aspect of the present application, an information normalization method based on preoperative process nodes is provided, including the following steps:

establishing a preoperative flow network at a background server;

acquiring the identity ID of each preoperative process node, and distributing corresponding background storage addresses for each preoperative process node on a background server according to the identity ID;

configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and the fingerprint information under the identity ID of each preoperative process node;

fingerprint information of all preoperative process nodes implementing the operation is collected and reported to the background, identity ID identification is carried out according to the fingerprint information, and preoperative standard information bound under the identity ID is called and sent to all preoperative process nodes.

As an optional embodiment of the present application, optionally, establishing the preoperative flow network at the background server includes:

according to the preoperative operation flow, a background administrator divides the preoperative flow nodes and determines the interaction sequence of each preoperative flow node according to the preoperative operation flow;

determining preoperative specification information of each preoperative process node according to the preoperative operation process, and storing the preoperative specification information in a background database, wherein the preoperative specification information comprises preoperative preparation information and preoperative operation information of each preoperative process node;

and determining the preoperative specification information for each preoperative flow node to form the preoperative flow network, wherein the preoperative flow network is formed by interaction of each preoperative flow node provided with the preoperative specification information.

As an optional embodiment of the present application, optionally, collecting an ID of each preoperative process node, and allocating, on a background server, a corresponding background storage address to each preoperative process node according to the ID, including:

each medical staff logs in a background server through a terminal by utilizing the identity ID to request to join the preoperative process network;

the background server receives and responds to the request, and the identity IDs of the medical staff logged in through the terminal and submitted to the background server are stored in a management system of the background server;

the background associates the identity ID of each medical staff with the corresponding preoperative process node in the preoperative process network according to the identity ID attribute of each medical staff, and configures the corresponding identity ID for each preoperative process node;

and synchronously distributing corresponding background storage addresses for all the preoperative process nodes according to the identity IDs, and binding the background storage addresses under the identity IDs of all the preoperative process nodes.

As an optional embodiment of the present application, optionally, configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and the fingerprint information under an ID of each preoperative process node, including:

the background server binds the preoperative specification information predetermined for each preoperative process node under the identity ID of each preoperative process node; simultaneously issuing a first fingerprint acquisition instruction to each terminal;

the medical staff of each preoperative process node collects fingerprints through the terminal, responds to the first fingerprint collection instruction and uploads the first fingerprint information of each medical staff to the background server;

the background server receives and correspondingly binds the first fingerprint information of each medical staff under the identity ID of each preoperative process node, and simultaneously stores the first fingerprint information of each medical staff into a background fingerprint identification library.

As an optional embodiment of the present application, optionally, before collecting fingerprint information of each preoperative process node implementing the present operation and reporting the fingerprint information to the background, the method further includes:

a background manager establishes a task for implementing the operation at the background and informs each preoperative process node in the preoperative process network;

medical staff of each preoperative process node enter a background server through a terminal to check the implementation task of the operation;

pre-operative preparation is entered.

As an optional embodiment of the present application, optionally, collecting fingerprint information of each preoperative process node implementing the present operation and reporting the fingerprint information to the background, including:

the background server transmits a second fingerprint acquisition instruction for preoperative information verification to each preoperative process node;

medical staff of each preoperative process node enter the background server through the terminal, collect second fingerprints through the terminal, respond to the second fingerprint collection instruction, upload second fingerprint information of each medical staff to the background server and store.

As an optional embodiment of the present application, optionally, performing ID identification according to the fingerprint information, and calling and sending the preoperative specification information bound under the ID to each preoperative flow node, including:

the background server performs identity recognition with each first fingerprint information which is pre-stored in a fingerprint recognition library and is bound under the identity ID of each preoperative process node according to the second fingerprint information of each medical staff:

if the identification is successful, acquiring the preoperative specification information bound under the corresponding identity ID, and transmitting the preoperative specification information to the preoperative process node of the corresponding identity ID;

medical staff of each preoperative process node enter a background server through a terminal to check preoperative standard information, and preoperative preparation work check and preoperative learning are performed.

In another aspect of the present application, a system for implementing the information specification method based on preoperative process nodes is provided, including:

the preoperative flow network construction module is used for establishing a preoperative flow network at the background server;

the node configuration module is used for acquiring the identity ID of each preoperative process node, and distributing corresponding background storage addresses for each preoperative process node on a background server according to the identity ID;

the preoperative information configuration module is used for configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and the fingerprint information under the identity ID of each preoperative process node;

the identity recognition module is used for collecting fingerprint information of each preoperative process node implementing the operation, reporting the fingerprint information to the background, recognizing the identity ID according to the fingerprint information, and calling and sending preoperative standard information bound under the identity ID to each preoperative process node.

In another aspect, the present application further provides an electronic device, including:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to implement the pre-operative flow node based information specification method when executing the executable instructions.

The application has the technical effects that:

the method comprises the steps of establishing a preoperative flow network in a background server; acquiring the identity ID of each preoperative process node, and distributing corresponding background storage addresses for each preoperative process node on a background server according to the identity ID; configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and the fingerprint information under the identity ID of each preoperative process node; fingerprint information of all preoperative process nodes implementing the operation is collected and reported to the background, identity ID identification is carried out according to the fingerprint information, and preoperative standard information bound under the identity ID is called and sent to all preoperative process nodes. The background can be used for checking and learning management of preoperative preparation work of each medical care node. After each medical staff who implements the operation carries out identification through fingerprint collection, the backstage issues corresponding preoperative normative information to each medical staff, lets each medical staff who implements this operation check, confirm and learn once more to the preoperative operation and the preparation work of current operation, can strengthen the operation preparation work to carry out normative requirement to medical staff with this, strictly controls and prepares to the operation.

Other features and aspects of the present disclosure will become apparent from the following detailed description of exemplary embodiments, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate exemplary embodiments, features and aspects of the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a schematic flow chart of an information normalization method based on preoperative flow nodes according to the present application;

FIG. 2 is a schematic diagram of an application system of the present application;

FIG. 3 is a schematic diagram of an application system for fingerprint processing according to the present application;

fig. 4 shows a schematic application diagram of the electronic device of the application.

Detailed Description

Various exemplary embodiments, features and aspects of the disclosure will be described in detail below with reference to the drawings. In the drawings, like reference numbers indicate identical or functionally similar elements. Although various aspects of the embodiments are illustrated in the accompanying drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

In addition, numerous specific details are set forth in the following detailed description in order to provide a better understanding of the present disclosure. It will be understood by those skilled in the art that the present disclosure may be practiced without some of these specific details. In some instances, well known means, elements, and circuits have not been described in detail so as not to obscure the present disclosure.

Example 1

As shown in fig. 1, in one aspect of the present application, an information normalization method based on a preoperative process node is provided, including the following steps:

s1, establishing a preoperative flow network in a background server;

s2, acquiring the identity ID of each preoperative process node, and distributing corresponding background storage addresses for each preoperative process node on a background server according to the identity ID;

s3, configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and the fingerprint information under the identity ID of each preoperative process node;

s4, collecting fingerprint information of each preoperative process node implementing the operation, reporting the fingerprint information to the background, identifying an identity ID according to the fingerprint information, and calling and sending preoperative specification information bound under the identity ID to each preoperative process node.

The application uses the background to check and learn the preoperative preparation work of each medical care node. After each medical staff who implements the operation carries out identification through fingerprint collection, the backstage issues corresponding preoperative normative information to each medical staff, lets each medical staff who implements this operation check, confirm and learn once more to the preoperative operation and the preparation work of current operation, can strengthen the operation preparation work to carry out normative requirement to medical staff with this, strictly controls and prepares to the operation.

As shown in fig. 2, the scheme establishes a set of preoperative flow network before operation, so that each preoperative flow node in the network performs fingerprint identification, and after fingerprint identification, the background initiates identity authentication to medical staff of each node and performs preoperative information confirmation. Each medical staff can log in the background server through the terminal, check task instructions issued by the background, and respond to operation information confirmation and study of preoperative specification information.

By adopting the scheme, when entering preoperative preparation work, each medical staff is required to check own node information, preoperative preparation work and standard operation information of the implementing operation, preoperative flow and standard information of the operative flow, such as injection quantity and injection time of anesthetic, and surgical equipment (quantity and type) which each nursing staff should prepare through a terminal login background, so that preoperative operation and preparation information can be checked and preoperative learning can be performed, and the quality of the operation is strictly controlled. By adopting the scheme, the identity and the position of each medical staff in each operation flow can be checked, and the preoperative operation preparation and operation work which should be done by the medical staff can be clarified.

As an optional embodiment of the present application, optionally, establishing the preoperative flow network at the background server includes:

according to the preoperative operation flow, a background administrator divides the preoperative flow nodes and determines the interaction sequence of each preoperative flow node according to the preoperative operation flow;

determining preoperative specification information of each preoperative process node according to the preoperative operation process, and storing the preoperative specification information in a background database, wherein the preoperative specification information comprises preoperative preparation information and preoperative operation information of each preoperative process node;

and determining the preoperative specification information for each preoperative flow node to form the preoperative flow network, wherein the preoperative flow network is formed by interaction of each preoperative flow node provided with the preoperative specification information.

Preoperative procedures the specifics of the procedure are determined by the respective hospitals according to each procedure that is required to be performed. The surgical staff such as anesthesiologists, medical staff, doctors, and the related surgical instruments, medicine types, etc. required to be configured in the preoperative operation flow can be configured according to the requirements of each operation, so that the preoperative operation flow can be processed on line on the background server. Each operation can establish a corresponding operation management task in the background, and the operation management task is used for synchronously managing and configuring the preoperative operation.

The primary operator doctor or the assistant background manager can divide the preoperative process nodes in the background, and according to the operation process, the operation interaction sequence of each preoperative process node, such as the interaction sequence between an anesthesiologist and a nursing doctor, is determined. The determination of each preoperative procedure node to correspond to a different preoperative physician may be performed specifically by a background administrator.

It is therefore necessary to configure corresponding preoperative specification information for each preoperative flow node. When each subsequent doctor joins in the login background and joins in the preoperative flow network, the background manager manages and configures the corresponding identity ID of each doctor on each preoperative flow node, so that each preoperative flow node in the preoperative flow network has own identity information, such as the identity ID, again. After the identity ID of each preoperative process node is determined, the personnel synchronously configures preoperative specification information of each node, and can check preoperative specification information bound under the self identity ID after each medical personnel logs in the background.

The preoperative specification information includes preoperative preparation information and preoperative operation information, such as information of narcotics, medical surgical instruments, the number, etc. that should be prepared preoperatively. The preoperative operation information, such as sterilization information, includes identification information of personnel information of each preoperative process node. Specifically, a background administrator configures the system according to the function of each node in the preoperative flow network. And the background can be logged in according to the requirements of different personnel in a specific operation, and the contents in the configured preoperative specification information can be modified, adjusted, increased and the like.

As an optional embodiment of the present application, optionally, collecting an ID of each preoperative process node, and allocating, on a background server, a corresponding background storage address to each preoperative process node according to the ID, including:

each medical staff logs in a background server through a terminal by utilizing the identity ID to request to join the preoperative process network;

the background server receives and responds to the request, and the identity IDs of the medical staff logged in through the terminal and submitted to the background server are stored in a management system of the background server;

the background associates the identity ID of each medical staff with the corresponding preoperative process node in the preoperative process network according to the identity ID attribute of each medical staff, and configures the corresponding identity ID for each preoperative process node;

and synchronously distributing corresponding background storage addresses for all the preoperative process nodes according to the identity IDs, and binding the background storage addresses under the identity IDs of all the preoperative process nodes.

The preoperative flow network is just started to be a blank template in the background, and when the current round of operation is carried out, a background manager confirms the operation, and the network is established. Each preoperative flow node in each preoperative network can be subjected to identity allocation and corresponding specification information configuration by a background administrator. Each medical staff can log in the background server through a mobile phone or a terminal such as a PC (personal computer) and log in through an identity ID (identity) account number to request to join the current preoperative flow network, and the request and response of each medical staff are specifically accessed by the background.

After the back-office establishes the pre-operative flow network, the administrator needs to notify each healthcare worker who logs in to the back-office to request to join the pre-operative flow network. The background can register and record the identity ID of each medical staff logged in through the terminal, and the identity ID of each medical staff is stored in a user management system of the background service server. The background manager can check the attribute of the identity ID of each medical staff, acquire the operation position and the working attribute of each medical staff, and match the identity ID of each medical staff with the corresponding node. If the identity ID of the medical staff a is checked to be an anesthesiologist, the identity ID of the anesthesiologist is associated with an anesthesiologist flow node in a preoperative flow network, a corresponding anesthesiologist identity ID is configured for the node, and a corresponding background storage address is allocated for the node, so that when fingerprint collection and standard information configuration are carried out later, standard information and fingerprint data under each identity ID are stored under the corresponding storage address according to the background storage address, and data calling and storage are facilitated. The location of the background database corresponding to the storage address is determined by the type of the database.

The background management system configured on the background server of each hospital, such as a doctor-patient management system, a doctor-patient treatment system, an identity management system, a background database, a fingerprint database and the like, is specifically configured and deployed by each hospital, is limited and described in this embodiment, and can carry out task management and data storage of preoperative procedure preparation work along with user management and database management modules in the existing background management applications.

As an optional embodiment of the present application, optionally, configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and the fingerprint information under an ID of each preoperative process node, including:

the background server binds the preoperative specification information predetermined for each preoperative process node under the identity ID of each preoperative process node; simultaneously issuing a first fingerprint acquisition instruction to each terminal;

the medical staff of each preoperative process node collects fingerprints through the terminal, responds to the first fingerprint collection instruction and uploads the first fingerprint information of each medical staff to the background server;

the background server receives and correspondingly binds the first fingerprint information of each medical staff under the identity ID of each preoperative process node, and simultaneously stores the first fingerprint information of each medical staff into a background fingerprint identification library.

As shown in fig. 3, after the background distributes corresponding ID information for each node in the preoperative process network, the preoperative operation sequence is determined for each node in the network, so that the preoperative nodes can be controlled and checked according to the operation process. After the corresponding ID is bound for each node, the preoperative specification information which is configured for each flow node in the earlier stage can be bound under the ID of each node, so that the medical staff of each node can obtain the preoperative specification information of the medical staff.

The background manager can issue a first fingerprint acquisition instruction to a login terminal used by each medical staff logging in the identity ID through the background, each medical staff performs fingerprint acquisition on the terminal, acquired fingerprint information is uploaded to the background server, and the first fingerprint information of each medical staff is received and bound under the corresponding identity ID of each medical staff by the background server. Thus, the corresponding preoperative standard information and the fingerprint information of the corresponding medical staff are arranged under the identity ID of each flow node, so that the method is convenient for subsequent identity recognition and fingerprint identity recognition. The fingerprint processing is stored in a background fingerprint identification library, and the fingerprint processing can be also stored in an address storage mode, and a background storage address is configured for each identity ID, so that fingerprint information can be stored in the corresponding fingerprint identification library according to the background storage address.

As an optional embodiment of the present application, optionally, before collecting fingerprint information of each preoperative process node implementing the present operation and reporting the fingerprint information to the background, the method further includes:

a background manager establishes a task for implementing the operation at the background and informs each preoperative process node in the preoperative process network;

medical staff of each preoperative process node enter a background server through a terminal to check the implementation task of the operation;

pre-operative preparation is entered.

The background manager can inform medical staff of each node after the background establishes the task, check the respective preoperative preparation information and perform identity check. Each medical staff logs in the background through the terminal to check and verify the information, and enters preoperative preparation work.

As an optional embodiment of the present application, optionally, collecting fingerprint information of each preoperative process node implementing the present operation and reporting the fingerprint information to the background, including:

the background server transmits a second fingerprint acquisition instruction for preoperative information verification to each preoperative process node;

medical staff of each preoperative process node enter the background server through the terminal, collect second fingerprints through the terminal, respond to the second fingerprint collection instruction, upload second fingerprint information of each medical staff to the background server and store.

When entering the pre-operation preparation work, fingerprint collection needs to be carried out again, the second fingerprint information collected at this time is the second fingerprint information of each medical staff, and is used for confirming the identity information of each medical staff entering the pre-operation preparation work, and issuing the pre-operation standard information configured by each node to the login terminal of each medical staff according to the identity ID confirmed by the identity, and the second fingerprint collection and response can refer to the processing process of the first fingerprint information.

As an optional embodiment of the present application, optionally, performing ID identification according to the fingerprint information, and calling and sending the preoperative specification information bound under the ID to each preoperative flow node, including:

the background server performs identity recognition with each first fingerprint information which is pre-stored in a fingerprint recognition library and is bound under the identity ID of each preoperative process node according to the second fingerprint information of each medical staff:

if the identification is successful, acquiring the preoperative specification information bound under the corresponding identity ID, and transmitting the preoperative specification information to the preoperative process node of the corresponding identity ID;

medical staff of each preoperative process node enter a background server through a terminal to check preoperative standard information, and preoperative preparation work check and preoperative learning are performed.

Medical staff logs in the background through the terminal, collects and uploads own second fingerprint information to the background, and the background compares the second fingerprint information with the first fingerprint information pre-bound under the identity IDs of all nodes to perform identity verification. When the comparison is successful, the identification of the identity ID of the medical staff is successful, and then preoperative standard information bound under the identity ID of the preoperative process node corresponding to the medical staff can be sent to the medical staff corresponding to the identity ID. After medical staff enter the background through the terminal, preoperative standard information of the node can be checked, preoperative preparation check and preoperative learning can be performed.

The fingerprint information identification algorithm is not described herein, when the fingerprint is matched and identified in the background, medical staff of each node can be subjected to one-to-one comparison and identification with each fingerprint in the fingerprint database through the second fingerprint information reported by the terminal, when the identification is successful, the identity ID corresponding to the first fingerprint information which is successfully identified is bound and associated with the current medical staff, the standard information under the identity ID is sent to the medical staff, and the medical staff logs in the terminal to check preoperative standard information to perform preoperative preparation work check and preoperative learning.

It should be apparent to those skilled in the art that implementing all or part of the above-described embodiments may be accomplished by computer programs to instruct related hardware, and the programs may be stored in a computer readable storage medium, which when executed may include the processes of the embodiments of the controls described above. It will be appreciated by those skilled in the art that implementing all or part of the above-described embodiments may be accomplished by computer programs to instruct related hardware, and the programs may be stored in a computer readable storage medium, which when executed may include the processes of the embodiments of the controls described above. The storage medium may be a magnetic disk, an optical disc, a Read-only memory (ROM), a random access memory (RandomAccessMemory, RAM), a flash memory (flash memory), a hard disk (HDD), or a Solid State Drive (SSD); the storage medium may also comprise a combination of memories of the kind described above.

Example 2

Based on the implementation principle of embodiment 1, in another aspect, the present application proposes a system for implementing the information specification method based on preoperative process nodes, including:

the preoperative flow network construction module is used for establishing a preoperative flow network at the background server;

the node configuration module is used for acquiring the identity ID of each preoperative process node, and distributing corresponding background storage addresses for each preoperative process node on a background server according to the identity ID;

the preoperative information configuration module is used for configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and the fingerprint information under the identity ID of each preoperative process node;

the identity recognition module is used for collecting fingerprint information of each preoperative process node implementing the operation, reporting the fingerprint information to the background, recognizing the identity ID according to the fingerprint information, and calling and sending preoperative standard information bound under the identity ID to each preoperative process node.

The function and interaction of the above-described individual modules are specifically referred to in the description of embodiment 1.

The modules or steps of the application described above may be implemented in a general-purpose computing device, they may be centralized in a single computing device, or distributed across a network of computing devices, or they may alternatively be implemented in program code executable by a computing device, such that they may be stored in a memory device and executed by a computing device, or they may be separately fabricated into individual integrated circuit modules, or multiple modules or steps within them may be fabricated into a single integrated circuit module. Thus, the present application is not limited to any specific combination of hardware and software.

Example 3

As shown in fig. 4, in still another aspect, the present application further provides an electronic device, including:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to implement a system of the pre-operative flow node based information specification method when executing the executable instructions.

Embodiments of the present disclosure provide for an electronic device that includes a processor and a memory for storing processor-executable instructions. Wherein the processor is configured to implement a system of any of the pre-operative flow node based information specification methods described in the foregoing when executing the executable instructions.

Here, it should be noted that the number of processors may be one or more. Meanwhile, in the electronic device of the embodiment of the disclosure, an input device and an output device may be further included. The processor, the memory, the input device, and the output device may be connected by a bus, or may be connected by other means, which is not specifically limited herein.

The memory is a computer-readable storage medium that can be used to store software programs, computer-executable programs, and various modules, such as: the program or module corresponding to the method and system of the embodiment 1 of the disclosure. The processor executes various functional applications and data processing of the electronic device by running software programs or modules stored in the memory.

The input device may be used to receive an input number or signal. Wherein the signal may be a key signal generated in connection with user settings of the device/terminal/server and function control. The output means may comprise a display device such as a display screen.

The foregoing description of the embodiments of the present disclosure has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the technical improvement of the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (9)

1. An information specification method based on preoperative process nodes is characterized by comprising the following steps:

establishing a preoperative flow network at a background server;

acquiring the identity ID of each preoperative process node, and distributing corresponding background storage addresses for each preoperative process node on a background server according to the identity ID;

configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and the fingerprint information under the identity ID of each preoperative process node;

fingerprint information of all preoperative process nodes implementing the operation is collected and reported to the background, identity ID identification is carried out according to the fingerprint information, and preoperative standard information bound under the identity ID is called and sent to all preoperative process nodes.

2. The method of claim 1, wherein the step of establishing the preoperative flow network at the background server comprises:

according to the preoperative operation flow, a background administrator divides the preoperative flow nodes and determines the interaction sequence of each preoperative flow node according to the preoperative operation flow;

determining preoperative specification information of each preoperative process node according to the preoperative operation process, and storing the preoperative specification information in a background database, wherein the preoperative specification information comprises preoperative preparation information and preoperative operation information of each preoperative process node;

and determining the preoperative specification information for each preoperative flow node to form the preoperative flow network, wherein the preoperative flow network is formed by interaction of each preoperative flow node provided with the preoperative specification information.

3. The method according to claim 2, wherein collecting the ID of each preoperative process node, and assigning, on a background server, a corresponding background storage address to each preoperative process node according to the ID, includes:

each medical staff logs in a background server through a terminal by utilizing the identity ID to request to join the preoperative process network;

the background server receives and responds to the request, and the identity IDs of the medical staff logged in through the terminal and submitted to the background server are stored in a management system of the background server;

the background associates the identity ID of each medical staff with the corresponding preoperative process node in the preoperative process network according to the identity ID attribute of each medical staff, and configures the corresponding identity ID for each preoperative process node;

and synchronously distributing corresponding background storage addresses for all the preoperative process nodes according to the identity IDs, and binding the background storage addresses under the identity IDs of all the preoperative process nodes.

4. A method according to claim 3, wherein configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and fingerprint information under the identity ID of each preoperative process node, comprises:

the background server binds the preoperative specification information predetermined for each preoperative process node under the identity ID of each preoperative process node; simultaneously issuing a first fingerprint acquisition instruction to each terminal;

the medical staff of each preoperative process node collects fingerprints through the terminal, responds to the first fingerprint collection instruction and uploads the first fingerprint information of each medical staff to the background server;

the background server receives and correspondingly binds the first fingerprint information of each medical staff under the identity ID of each preoperative process node, and simultaneously stores the first fingerprint information of each medical staff into a background fingerprint identification library.

5. The method of claim 1, wherein before collecting fingerprint information of each preoperative process node for performing the present operation and reporting the fingerprint information to the background, the method further comprises:

a background manager establishes a task for implementing the operation at the background and informs each preoperative process node in the preoperative process network;

medical staff of each preoperative process node enter a background server through a terminal to check the implementation task of the operation;

pre-operative preparation is entered.

6. The method of claim 5, wherein collecting fingerprint information of each preoperative process node implementing the present operation and reporting the fingerprint information to the background, comprising:

the background server transmits a second fingerprint acquisition instruction for preoperative information verification to each preoperative process node;

medical staff of each preoperative process node enter the background server through the terminal, collect second fingerprints through the terminal, respond to the second fingerprint collection instruction, upload second fingerprint information of each medical staff to the background server and store.

7. The method according to claim 6, wherein the step of identifying the ID based on the fingerprint information, and retrieving and transmitting the preoperative specification information bound under the ID to each preoperative process node comprises:

the background server performs identity recognition with each first fingerprint information which is pre-stored in a fingerprint recognition library and is bound under the identity ID of each preoperative process node according to the second fingerprint information of each medical staff:

if the identification is successful, acquiring the preoperative specification information bound under the corresponding identity ID, and transmitting the preoperative specification information to the preoperative process node of the corresponding identity ID;

medical staff of each preoperative process node enter a background server through a terminal to check preoperative standard information, and preoperative preparation work check and preoperative learning are performed.

8. A system for implementing the preoperative flow node based information specification method of any one of claims 1-7, comprising:

the preoperative flow network construction module is used for establishing a preoperative flow network at the background server;

the node configuration module is used for acquiring the identity ID of each preoperative process node, and distributing corresponding background storage addresses for each preoperative process node on a background server according to the identity ID;

the preoperative information configuration module is used for configuring corresponding preoperative specification information and fingerprint information for each preoperative process node, and binding the preoperative specification information and the fingerprint information under the identity ID of each preoperative process node;

the identity recognition module is used for collecting fingerprint information of each preoperative process node implementing the operation, reporting the fingerprint information to the background, recognizing the identity ID according to the fingerprint information, and calling and sending preoperative standard information bound under the identity ID to each preoperative process node.

9. An electronic device, comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to implement the pre-operative flow node based information specification method of any one of claims 1-7 when executing the executable instructions.