CN109831543B

CN109831543B - Networking method, medical communication equipment and medical extension set

Info

Publication number: CN109831543B
Application number: CN201811522526.0A
Authority: CN
Inventors: 巩家雨; 王军; 王德山
Original assignee: Shandong Yahua Electronics Co ltd
Current assignee: Shandong Yahua Electronics Co ltd
Priority date: 2018-12-13
Filing date: 2018-12-13
Publication date: 2021-08-24
Anticipated expiration: 2038-12-13
Also published as: CN109831543A

Abstract

The application discloses a networking method, medical communication equipment and medical extension sets, wherein the networking method comprises the following steps: the medical communication equipment determines the static network protocol IP address and the extension identification of each medical extension in the medical extension group corresponding to the medical communication equipment; the medical communication equipment determines a first mapping relation table according to the static network protocol address and the extension identification, the first mapping relation table comprises the mapping relation between a plurality of static IP addresses and a plurality of extension identifications, and the static IP address of the same medical extension in the medical extensions is stored in correspondence with the corresponding extension identification; the medical communication equipment receives allocation request messages sent by a plurality of medical extension sets, wherein the allocation request messages comprise static IP addresses corresponding to the medical extension sets; the medical communication equipment sends the extension identification and the first mapping relation table to each medical extension according to the static IP address in the allocation request message, so that each medical extension and the medical communication equipment can interact according to each extension identification. The networking efficiency can be improved.

Description

Networking method, medical communication equipment and medical extension set

Technical Field

The invention relates to the field of medical communication, in particular to a networking method, medical communication equipment and a medical extension set.

Background

To facilitate communication between the doctor and the patient, the hospital will usually have an extension for each bed. The hospital beds in the same department form a local area network, so that all the extension sets can communicate with each other.

However, when an extension is added or a broken extension is replaced by a new extension or when the extension changes from one bed to another, the main health care unit needs to re-configure an extension for each patient bed so that all the extensions are updated. In addition, for a newly set ward, the beds in the ward may need to be installed in multiple batches, and the medical host needs to re-configure an extension for each bed. For example, 10 beds are required for a ward, and the beds are required to be set twice, 5 beds are set each time. When setting up the second batch of bed, probably lead to sick bed and extension corresponding relation to change, need the fortune dimension personnel to set up extension number for each extension again through medical host computer, increased fortune dimension personnel's work burden to networking efficiency has been reduced.

Disclosure of Invention

The invention provides a networking method, medical communication equipment and a medical extension set, which can improve networking efficiency.

In a first aspect, an embodiment of the present application provides a networking method.

The medical communication equipment determines the static network protocol IP address and the extension identification of each medical extension in the medical extension group corresponding to the medical communication equipment;

the medical communication equipment determines a first mapping relation table according to the static network protocol address and the extension identification, wherein the first mapping relation table comprises the mapping relation between a plurality of static IP addresses and a plurality of corresponding extension identifications, and the static IP address of the same medical extension in the medical extensions is stored in correspondence with the corresponding extension identification;

the medical communication equipment receives allocation request messages sent by the medical extension sets, wherein the allocation request messages comprise static IP addresses corresponding to the medical extension sets;

and the medical communication equipment sends the extension identification and the first mapping relation table to each medical extension according to the static IP address in the allocation request message, so that each medical extension and the medical communication equipment can interact according to each extension identification.

In one example, the medical communication device is a medical host.

The medical host acquires a grouping identifier, wherein the grouping identifier is an identifier of the medical sub-unit corresponding to the medical host acquired by the medical host, and each extension identifier in the medical sub-unit corresponding to the medical host, and an IP address and a connection identifier of a server corresponding to the medical host; the connection identifier is a connection identifier of the medical extension and the server;

according to the static IP address in the allocation request message, the medical host sends the grouping identifier, the IP address of the server and the connection identifier to a plurality of medical extension sets, so that the medical extension sets send the grouping identifier and the mapping relation between the static IP address corresponding to the medical extension set and the extension set identifier to the server according to the IP address of the server and the connection identifier;

the server verifies each extension identification according to the grouping identification to generate a second mapping relation table, wherein the second mapping relation table comprises the corresponding relation between each verified extension identification and the corresponding static IP address;

and the server sends the second mapping relation table to each extension medical service and the medical host to update the first mapping relation table.

In one example, the medical communication device determines service data of each medical extension in a medical extension group corresponding to the medical communication device; the business data comprises patient information corresponding to the extension sets;

the medical communication equipment creates a corresponding relation table according to the extension identification and the service data, the corresponding relation table comprises a mapping relation between a plurality of extension identifications and a plurality of service data, and the extension identification and the service data of the same medical extension in each group of medical extensions are stored correspondingly;

and the medical communication equipment sends the corresponding relation table to each medical extension.

In one example, the medical communication equipment receives static IP address application messages sent by a plurality of medical extension sets in sequence;

for each static IP address application message, the medical communication equipment determines a static IP address corresponding to a minimum first numerical value in a static IP address set, and sends the static IP address corresponding to the minimum first numerical value to the corresponding medical extension;

the set of static IP addresses includes one or more unused static IP addresses.

In one example, a first numerical value corresponding to each static IP address is determined, and a second numerical value corresponding to the extension identification or the extension number of the extension identification is determined;

obtaining the arrangement sequence of the static IP addresses and the sequence number corresponding to each static IP address according to the size of the first numerical value;

determining the arrangement sequence of the extension identifications and the sequence number of each extension identification according to the second numerical value or the extension number and the arrangement sequence;

the mapping relation is established aiming at the static IP addresses and the extension identifiers with the same serial numbers;

and determining the first mapping relation table according to each mapping relation.

In one example, a plurality of learning samples are obtained; the learning samples include: the character string comprises a plurality of Chinese characters or characters, a character string formed by the Chinese characters or the characters, pinyin corresponding to the Chinese characters or the characters and pinyin corresponding to the character string;

determining the probability of occurrence of a character string consisting of said plurality of said chinese characters or characters according to the following formula:

P(B|A)＝N(B|A)/N(X|A)；

the A and the B represent Chinese characters respectively, and the X represents any Chinese character in the learning sample; the P (B | A) characterizes the probability of occurrence of a word consisting of the A and the B, the N (B | A) characterizes the number of occurrences of a word consisting of the A and the B in the learning sample, the N (X | A) characterizes the number of occurrences of a word containing the A in the learning sample;

the determining a second value corresponding to the extension identifier includes:

respectively determining target Chinese characters included in the extension identifications;

determining the occurrence probability of the character strings corresponding to any two adjacent target Chinese characters according to the learning sample;

when the occurrence probability of the character string is larger than a threshold value, determining that the character string is a target character string contained in the extension identification;

determining the pinyin corresponding to the target character string and the pinyin of each target Chinese character identified by the extension set according to the learning sample;

and determining pinyin corresponding to the extension identification according to the arrangement sequence of the target character string and the target Chinese characters of the extension identification.

In one example, the medical host determines a second value corresponding to the extension identifier or an extension number of the extension identifier;

the medical host determines a plurality of value ranges according to the second numerical value or the extension number, wherein each value range comprises at least one second numerical value or at least one extension number;

the medical host determines the medical extension corresponding to each value range as the medical extension connected with the server;

and the medical host sends the server IP address and the connection identifier to each medical extension connected with the server.

In one example, after the sending the extension identification and the first mapping relation table to each medical extension, the method further includes:

when the medical extension set is newly added or replaced, the medical communication equipment determines the static IP address and the extension set identifier corresponding to each medical extension set to be set according to the arrangement sequence;

the medical communication equipment respectively creates a mapping relation between each determined static IP address and each determined extension identification, and updates the first mapping relation table;

according to the determined static IP addresses, the medical host allocates the determined extension identifiers to the medical extensions to be set, and sends the updated first mapping relation table to each medical extension.

In a second aspect, an embodiment of the present application provides another networking method.

The medical extension set sends an allocation request message to medical communication equipment, wherein the allocation request message comprises a static IP address corresponding to the medical extension set;

the medical extension receives an extension identifier sent by the medical communication equipment and a first mapping relation table created by the medical communication equipment, so that the medical extension and the medical communication equipment can interact according to the extension identifier;

the first mapping relation table comprises mapping relations between a plurality of static IP addresses and a plurality of corresponding extension identifiers, and the static IP addresses of the same medical extension in the plurality of medical extensions are stored in correspondence with the corresponding extension identifiers.

In one example, the extension set receives the extension set identifier, the group identifier and the first mapping relation table sent by the medical host, where the group identifier is an identifier of a medical sub-set group corresponding to the medical host acquired by the medical host;

when receiving the IP address and the connection identifier of the server corresponding to the medical host sent by the medical host, the medical extension sends the grouping identifier and the mapping relation between the static IP address and the extension identifier corresponding to the medical extension to the server according to the IP address and the connection identifier of the server, so that the server can verify each extension identifier according to the grouping identifier to generate a second mapping relation table; the connection identifier is a connection identifier of the medical extension and the server, and the second mapping relation table comprises a corresponding relation between each verified extension identifier and a corresponding static IP address;

and receiving a second mapping relation table sent by the server to update the first mapping relation table.

In one example, the medical extension sets receive a correspondence table sent by the medical communication device, the correspondence table includes mapping relationships between a plurality of extension set identifiers and a plurality of service data, and the extension set identifier of the same medical extension set in each group of the medical extension sets is stored in correspondence with the service data; and the patient information corresponding to the business data medical extension.

In one example, the medical extension sends a static IP address application message to the medical communication device.

Third aspect an embodiment of the present application provides a medical communication device, including: the device comprises an acquisition module, a data processing module, a receiving module and a sending module.

The acquisition module is used for determining the static network protocol IP address and the extension identification of each medical extension in the medical extension group corresponding to the medical communication equipment;

the data processing module is used for determining a first mapping relation table according to the static network protocol address and the extension identification, the first mapping relation table comprises the mapping relation between a plurality of static IP addresses and a plurality of corresponding extension identifications, and the IP address of the same medical extension in the medical extensions is stored in correspondence with the corresponding extension identification;

the receiving module is used for receiving allocation request messages sent by the plurality of medical extension sets, wherein the allocation request messages comprise static IP addresses corresponding to the medical extension sets;

the sending module is configured to send the extension identifier and the first mapping relation table to each medical extension according to the static IP address in the allocation request message, so that each medical extension and the medical communication device can interact according to each extension identifier.

In one example, the medical communication device is a medical host, and the obtaining module obtains a group identifier, an identifier of each extension in a medical sub-group corresponding to the medical host, an IP address of a server corresponding to the medical host, and a connection identifier, where the group identifier is an identifier of the medical sub-group corresponding to the medical host obtained by the medical host; the connection identifier is a connection identifier of the medical extension and the server;

the sending module is configured to send, according to the static IP address in the allocation request message, the packet identifier, the IP address of the server, and the connection identifier to the multiple medical extensions, so that the medical extensions send, according to the IP address of the server and the connection identifier, a mapping relationship between the static IP address and the extension identifier corresponding to the packet identifier and the medical extension to the server.

In one example, the data processing module is configured to obtain, according to the size of the first numerical value, an arrangement order of the static IP addresses and a sequence number corresponding to each static IP address; determining the arrangement sequence of the extension identifications and the sequence number of each extension identification according to the second numerical value or the extension number and the arrangement sequence; the mapping relation is established aiming at the static IP addresses and the extension identifiers with the same serial numbers; and determining the first mapping relation table according to each mapping relation.

In one example, further comprising: a calculation module;

the calculation module is used for acquiring a plurality of learning samples; the learning samples include: the character string comprises a plurality of Chinese characters or characters, a character string formed by the Chinese characters or the characters, pinyin corresponding to the Chinese characters or the characters and pinyin corresponding to the character string; determining the probability of occurrence of a character string consisting of said plurality of said chinese characters or characters according to the following formula:

P(B|A)＝N(B|A)/N(X|A)；

the data processing module is used for respectively determining target Chinese characters included in the extension identifiers; determining the occurrence probability of the character strings corresponding to any two adjacent target Chinese characters according to the learning sample; when the occurrence probability of the character string is larger than a threshold value, determining that the character string is a target character string contained in the extension identification; determining the pinyin corresponding to the target character string and the pinyin of each target Chinese character identified by the extension set according to the learning sample; and determining pinyin corresponding to the extension identification according to the arrangement sequence of the target character string and the target Chinese characters of the extension identification.

In a fourth aspect, the present application provides a medical extension, comprising: the device comprises a message sending module and a data receiving module;

the message sending module is used for sending an allocation request message to the medical communication equipment, wherein the allocation request message comprises a static IP address corresponding to the extension for medical treatment;

the data receiving module is used for receiving the extension identification sent by the medical communication equipment and a first mapping relation table created by the medical communication equipment so that the medical extension and the medical communication equipment can interact according to the extension identification;

the first mapping relation table comprises a plurality of mapping relations between the static IP addresses and a plurality of corresponding extension identifiers, and the IP addresses of the same medical extension in the plurality of medical extensions are stored in correspondence with the corresponding extension identifiers.

In a fifth aspect, the present application provides a networking system comprising: a medical communication device and a plurality of medical extensions.

In one example, the medical communication device comprises: at least one of a medical host and a server.

The server is used for receiving packet identifications sent by the medical extension sets and mapping relations between static IP addresses corresponding to the medical extension sets and the extension set identifications; verifying each extension identification according to the group identification so as to generate a second mapping relation table by using the verified extension identification and the corresponding static IP address; sending the second mapping relation table to each extension medical service and the medical host to update the first mapping relation table; the first mapping relation table comprises a plurality of mapping relations between the static IP addresses and a plurality of corresponding extension identifiers, and the IP addresses of the same medical extension in the medical extensions are stored in correspondence with the corresponding extension identifiers.

The calibration mode provided by the application can bring the following beneficial effects:

1. by establishing the mapping relation between the static IP address and the extension identification, a first mapping relation table is generated from each mapping relation and is stored in each medical extension to form a stable communication network without depending on the support of service data. When the service data changes, only the corresponding relation between the extension number and the service data needs to be updated, and operation and maintenance personnel do not need to update the mapping relation stored in the medical extension one by one, so that the workload of the operation and maintenance personnel is reduced, and the networking efficiency is improved.

2. The static IP address is used in the networking process, so that the IP address does not need to be set for each extension when the network is started every time, and the starting time of the system and the probability of errors of data are reduced.

3. The medical communication equipment detects whether the number of the static IP addresses is larger than that of the extension identifiers or not so as to ensure that the extension identifiers and the static IP addresses are in one-to-one correspondence, and the condition that a plurality of extension identifiers correspond to the same static IP address is avoided.

4. When the medical communication equipment is a server, the server determines whether the authenticated extension identification is the same as the received extension identification according to the grouping identification and the authenticated mapping relation so as to avoid the condition that a plurality of medical extensions corresponding to the extension identification appear.

5. The mapping relation between the static IP address and the extension identification is set by the medical communication equipment, and the extension identification is distributed to each medical extension, so that one-key networking is realized, and operation and maintenance personnel do not need to set the static IP address and the extension identification for each medical extension one by one, so that the networking efficiency is further improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a flowchart of a method for networking according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a medical communication device according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a medical extension provided in an embodiment of the present application;

fig. 4 is a schematic mechanism diagram of a networking system according to an embodiment of the present application.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

As shown in fig. 1, an embodiment of the present application provides a networking method.

Step 101, a medical host acquires corresponding extension identifiers of a plurality of medical extensions.

Step 102, the medical host judges whether the number of the static IP addresses which can be distributed in the same network segment is larger than the number of the extension identifiers, if so, step 103 is executed, otherwise, step 121 is executed.

Step 103, according to the number of the extension identifiers, the medical host determines a starting static IP address and an ending static IP address.

Step 104, the medical host acquires the initial static IP address, the termination static IP address and the static IP address between the initial static IP address and the termination static IP address.

In addition to the method provided in the embodiment, the medical communication device may directly obtain the static IP address from the database, or the operation and maintenance personnel may copy the static IP address to the medical communication device through a mobile device or a mobile hard disk. The extension identification is preset by operation and maintenance personnel and is directly arranged on the medical communication equipment. The extension identifier comprises: the extension number is Arabic numerals, and the extension name can be at least one of letters, Chinese characters and symbols. For example, the operation and maintenance personnel can represent the extension identification in the form of A, B, C or any one of 1, 2, 3 or 1-A, 1-B and 1-C.

In order to ensure that each static IP address corresponds to an extension, when the static IP addresses are acquired, it is determined whether the number of assignable static IP addresses in the same network segment is greater than the number of medical extensions, and the medical communication device may acquire each assignable static IP address through a network or receive the assignable static IP addresses input by operation and maintenance personnel. For example, if the assignable static IP addresses obtained by the medical communication device via the network are 19 × 1 × 1.0 to 19 × 1 × 1.255, the assignable static IP addresses total 256. When the number of assignable static IP addresses is greater than the number of medical extensions, a starting static IP address and a terminating static IP address are determined according to the number of medical extensions, and the static IP address is generally assigned as a segment of continuous IP addresses in a network segment, such as 19 × 1 × 1.0 to 19 × 1 × 1.25, the starting static IP address is the first IP address in the segment of continuous IP addresses, i.e., 19 × 1 × 1.0, and the terminating static IP address is determined by the number of medical extensions. For example, if the number of medical extensions is 20, the termination static IP address is 19 × 1 × 1.19.

And 105, the medical host determines a first numerical value corresponding to each static IP address and determines a second numerical value corresponding to the extension identification or an extension number corresponding to the extension identification.

And 106, the medical host obtains the arrangement sequence of the static IP addresses and the serial number corresponding to each static IP address according to the size of the first numerical value.

And step 107, the medical host determines the arrangement sequence of the extension identifications and the serial number of each extension identification according to the second numerical value or the size of the extension number and the arrangement sequence.

And step 108, the medical host creates a mapping relation aiming at the static IP addresses and the extension identifiers with the same serial numbers.

In step 109, the medical host computer generates a first mapping relation table by using the created mapping relation.

Mapping refers to the existence of a mapping relationship between two non-empty sets if each element in one set has a uniquely determined element in the other set corresponding to it. In order to establish the mapping relationship between the extension identifiers and the static IP addresses, a rule needs to be set so that the extension identifiers and the static IP addresses are arranged in the same order to ensure the mapping relationship between the extension identifiers and the static IP addresses. In the field of medical communication, the number of beds is usually a continuous natural number, for example, the number 1 bed, the number 2 bed, and the number 3 bed, and each hospital is accustomed to setting the number 1 extension, the number 2 extension, and the number 3 extension corresponding to each medical extension. Therefore, the order of arrangement of the extension identifiers is usually arranged in the order of 1, 2, and 3. In the embodiment provided by the present application, the above-described order is set as the order of extension identifiers and static IP address arrangements.

Because the static IP address is not a specific numerical value, the static IP address is converted into the specific numerical value, and then the arrangement sequence is obtained by comparing the specific numerical value. For example, the static IP addresses are converted into binary values, and then the order of conversion of the static IP addresses is obtained according to the size of the binary values. For the extension identifiers, when the extension identifiers are extension numbers, the extension identifiers can be directly sorted according to the numerical values represented by the extension numbers; and when the extension marks are letters, converting the letters of the extension marks into corresponding numerical values and then sequencing. For example, the extension is identified as A, B, C, A, B, C is converted into corresponding ASCII (american standard Code for Information exchange) codes 65, 66 and 67, and then sorted.

For the advanced care area of a ward, Chinese characters with special meanings are used as the names of a sickbed and the ward. In order to facilitate the medical staff to confirm the information of the patient, the operation and maintenance staff can set the extension identification to be the same Chinese character. At this time, the operation and maintenance personnel can establish the mapping relationship between the extension identifier and the static IP address through manual operation on the medical host, and can also automatically establish the mapping relationship between the extension identifier and the static IP address through the medical host.

The medical host automatically establishes a mapping relation between the extension identifier and the static IP address, and needs to convert the Chinese characters into pinyin firstly and then convert the corresponding pinyin into numbers, so as to obtain a second numerical value corresponding to the extension identifier. The pronunciation of a Chinese character is related to the context, and when the pronunciation of the Chinese character is determined, the context of the Chinese character is determined. The name used by a ward or a sickbed of a hospital is usually a word, so that when the corresponding extension identifier of the ward or the sickbed is judged, whether the extension identifier contains the word or not is judged, and the pronunciation of a Chinese character in the word is judged. For example, the "line" word, the pinyin in "bank" is hang, and the pinyin in "pedestrian" is xing. Therefore, the medical host determines the probability of the occurrence of a plurality of chinese characters or characters and the probability of the occurrence of a character string composed of a plurality of chinese characters or characters according to the learning sample. The hospital sickbed and ward can use limited words, operation and maintenance personnel can control the occurrence probability of each word to be larger than a threshold value by setting a learning sample, so that a medical host can judge whether the words exist in the extension identification or not according to the occurrence probability of each word, if two Chinese characters exist in the identification and the probability of the words formed by the simultaneous occurrence of the two Chinese characters is larger than 95%, the extension identification contains the words, and the Chinese characters in the identification are converted into corresponding disc pinyin. The calculation method of the occurrence probability of each word is shown as the following formula:

P(B|A)＝N(B|A)/N(X|A)；

the A and the B represent Chinese characters respectively, and the X represents any Chinese character in the learning sample; the P (B | A) characterizes the probability of occurrence of a word composed of the A and the B, the N (B | A) characterizes the number of occurrences of a word composed of the A and the B in the learning sample, and the N (X | A) characterizes the number of occurrences of a word containing the A in the learning sample.

The static IP address is used in the process of re-networking, and the dynamic IP address is not used, because compared with the dynamic IP address, the static IP address has the following advantages:

first, each time the system is restarted, the IP address does not need to be reconfigured for each extension, so as to speed up the system startup and reduce data errors caused by data update. Specifically, if a dynamic IP address is used, the whole networking system can normally operate only by configuring the IP address and then updating the mapping relation table every time the system is restarted, so that the starting time of the system is increased; in the process of updating the mapping relation table, it is not always guaranteed that each system can be updated successfully, for example, a network abnormality occurs in the updating process, so that some extension sets are not updated in time, and data errors occur when the extension sets interact with other extension sets. In addition, reconfiguring the IP address and updating the mapping relationship table occupy memory resources of the medical host and the server, thereby affecting normal operation of the medical host and the server and easily causing data errors.

Second, when a medical extension is newly added or replaced, the static IP address enables the operation and maintenance staff to set only for the newly added or replaced medical extension on the medical host, and does not need to set each medical extension. Specifically, if the dynamic IP address is used, the IP addresses of the replaced and newly added medical extensions cannot be determined, and at this time, the operation and maintenance staff can only reset extension numbers and IP addresses for all the medical extensions; and by using the static IP address, the medical host can automatically configure the static IP address and the extension identification according to the mapping relation table, so that the first numerical value of the newly generated static IP address and the second numerical value of the extension identification accord with the arrangement sequence, the first mapping relation table is updated, and the updated first mapping relation table is sent to each medical extension, thereby reducing the workload of operation and maintenance personnel.

In addition, the use of static IP addresses can improve the efficiency of medical personnel. In the network, the data needs to verify the identity of the other party according to the IP address during interaction, and if the medical extension uses a dynamic IP, the medical host cannot judge which patient is calling according to the IP address, so that the working efficiency of medical staff is reduced. If a static IP address is used, since each medical extension corresponds to one IP address, a mapping relationship between service data and an extension identifier, for example, a mapping relationship between patient identity information and an extension identifier, can be established. Therefore, when the medical extension call is received, the medical host can directly determine which patient is calling according to the static IP address, and the working efficiency of medical staff is improved.

Each extension to medical service sends an assignment request message to the host to medical service, step 110.

And step 111, the medical host receives the distribution request messages sent by the plurality of medical extensions.

In an embodiment provided by the present application, the assignment request message includes a static IP address corresponding to the extension. In order to ensure the accuracy of the mapping relationship, the operation and maintenance personnel can control the medical host to firstly send a number setting notification to the extension to notify that the mapping relationship of each medical extension is established and the extension number can be allocated.

The static IP on the extension may be manually set by an operation and maintenance person, or the IP address may be configured for each extension by using the medical host, for example, a network segment corresponding to the first mapping table is defined as a target network segment, and other network segments are non-target network segments, and the medical host and the router are set in the non-target network segments and connected. When the router is connected with a medical extension set in an open state, the router can configure a dynamic IP address included in a non-target network segment for the medical extension set; the medical branch machine sends a static IP address application message to the medical host machine, and the medical host machine determines a static IP address corresponding to a minimum first numerical value in unused static IP addresses after receiving an allocation request; and according to the dynamic IP address, allocating the static IP address corresponding to the minimum first numerical value to the medical extension set which sends the static IP address application message. Thus, the medical extension sets are started in sequence, and each medical extension set can be guaranteed to be allocated with a unique static IP address. In order to implement the method, the medical host and the router need to be arranged in a non-target network segment to prevent the router from distributing the static IP address in the target network segment to the medical extension, so that the medical host is under the condition of distributing the static IP to cause the missing distribution and the wrong distribution.

At step 112, the medical host obtains the packet identifier, the IP address of the server, and the connection identifier.

And step 113, the medical host sends the extension set identifier, the group identifier and the first mapping relation table to each medical extension set, and sends the address of the server IP and the connection identifier to the plurality of medical extension sets.

And step 114, the medical extension sends the grouping identification and the mapping relation corresponding to the grouping identification to the server according to the address and the connection identification of the server IP.

In the embodiment provided by the application, the server IP address is an IP address of a server connected with each medical extension, and the connection identifier represents connection between the medical extension and the server. Some of the medical extensions need to be connected with a server, such as a bedside extension, need to upload patient data to the server, and also need to receive data related to patients pushed by the server; there are also some medical extensions that do not need to be connected to a server, e.g. no data interaction between the call button and the server is required. Therefore, the medical host sends the connection identifier and the server IP address to the medical extensions which need to be connected to the server, so that the medical extensions execute the operation of sending the extension number to the server according to the server IP address. For convenience, the connection identifier may be set to two values, one value represents a connection server, and the other value represents no connection server, so that the server can send data with the same format, namely the server IP address and the connection identifier, to each extension. For example, setting the connection identifier to 0 and 1, wherein 1 represents connecting the server, 0 represents not connecting the server, when the extension sets receive the connection identifier, judging 1 or 0, if 1, the server sends the extension number and the static IP address; if 0, no transmission is made.

And step 115, the server receives the mapping relation between the group identifiers, the static IP addresses and the extension identifiers sent by the plurality of medical extensions.

Step 116, the server verifies whether the identification of each extension is correct according to the grouping identification, and if so, step 117 is executed; otherwise, step 119 is performed.

In step 117, the server determines that the received mapping relationship is correct and records the mapping relationship in the second mapping relationship table.

And step 118, the server sends the second mapping relation table to each medical extension and medical host, and the current process is ended.

In the embodiment provided by the application, the medical extension sets are grouped according to departments, and a grouping identifier is set for each department. The interaction among all the extension sets can be ensured as long as the extension set names in each department are not conflicted, so that the server can pre-store the grouping identification of each department and each extension set number corresponding to the grouping identification, when the mapping relation between the static IP address and the extension set number sent by the medical extension set of the department is received, whether the received extension set number exists is judged according to the stored grouping identification of each department and each extension set number corresponding to the grouping identification, if not, the received extension set number correctly determines that the received mapping relation is correct, and the corresponding relation between the received mapping relation record and the second grouping identification is established, so that the next verification is facilitated, and the detection is realized aiming at each extension set number in each department. And after the detection is finished, the server generates a second mapping relation table according to the correct mapping relation. For example, a department A exists in a hospital, a group identifier corresponding to the department A is stored in a server in advance, when the group identifier corresponding to the department A is received, the group identifier corresponding to the department A is detected, whether the received extension identifier exists in the extension identifiers verified by the department A is determined, if yes, the received extension identifier cannot be recorded, and the corresponding medical extension deletes the configured extension identifier; otherwise, it indicates that the received extension identifier is not used and can be used by the corresponding medical extension, so that the mapping relationship between the extension identifier and the static IP address is recorded in the second mapping relationship table. In order to facilitate interaction between each extension and the medical host, in the embodiment of the present application, the second mapping table generated by the server is used as a standard of the mapping. The server firstly checks whether the extension number is repeated or not and generates a final second mapping relation table. And then, the server sends the second mapping relation table to each medical extension and medical host to replace the first mapping relation table, so that each extension, medical host and server use the same mapping relation table.

And step 119, determining that the received mapping relation is incorrect, not recording the received mapping relation, and sending a distribution failure prompt message to the corresponding medical extension.

And step 120, after the medical extension receives the distribution failure prompt message, deleting the extension identification received from the medical host, and ending the current process.

In the embodiment provided by the application, if the authenticated extension identifier is the same as the received extension identifier, the newly set extension identifier is repeated with the originally set extension identifier, the server sends the distribution failure prompt message to the medical extension newly set with the extension identifier, and the medical extension deletes the extension identifier received from the medical host. For example, the server records that department B has extension identifier "a", when extension identifier "a" sent to the server by medical extension C in department B determines that the extension identifiers are repeated, and sends assignment failure prompt information to medical extension C in department B, after receiving the assignment failure prompt information, medical extension C deletes extension identifier "a", so that other extensions in department B cannot find medical extension C through extension identifier "a".

And step 121, the medical host prompts to reselect the network segment and ends the current process.

As shown in fig. 2, an embodiment of the present application provides a medical communication device. The medical communication apparatus includes: the system comprises an acquisition module 201, a data processing module 202, a receiving module 203 and a sending module 204;

the obtaining module 201 is configured to determine a static network protocol IP address and an extension identifier of each medical extension in the medical extension group corresponding to the medical communication device.

The data processing module 202 is configured to determine a first mapping relationship table according to the static network protocol address and the extension identifiers, where the first mapping relationship table includes mapping relationships between a plurality of static IP addresses and a plurality of corresponding extension identifiers, and the static IP address of the same medical extension in the medical extensions is stored in correspondence with the corresponding extension identifier.

The receiving module 203 is configured to receive an allocation request message sent by the multiple medical extensions, where the allocation request message includes static IP addresses corresponding to the medical extensions;

the sending module 204 is configured to send the extension identifier and the first mapping relationship table to each medical extension according to the static IP address in the allocation request message, so that each medical extension and the medical communication device can interact according to each extension identifier.

The medical communication device may be a host or a server, and generally speaking, because the host is convenient to operate and easy to set, in an embodiment of the present application, the above apparatus is described by taking the medical communication device as a medical host as an example, the medical communication device is a host, the obtaining module is configured to obtain a group identifier, each extension identifier in a medical sub-group corresponding to the medical host, and an IP address and a connection identifier of a server corresponding to the medical host, where the group identifier is an identifier of the medical sub-group corresponding to the medical host obtained by the medical host; the connection identifier is a connection identifier of the medical extension and the server;

the sending module is configured to send, according to the static IP address in the allocation request message, the packet identifier, the IP address of the server, and the connection identifier to the multiple medical extensions, so that the medical extensions send, according to the IP address of the server and the connection identifier, the packet identifier and the mapping relationship between the static IP address corresponding to the medical extension and the extension identifier to the server.

In an embodiment of the application, the data processing module 202 is configured to obtain, according to the size of the first numerical value, an arrangement order of each static IP address and a sequence number corresponding to each static IP address; determining the arrangement sequence of the extension identifications and the sequence number of each extension identification according to the second numerical value or the extension number and the arrangement sequence; the mapping relation is established aiming at the static IP addresses and the extension identifiers with the same serial numbers; and determining the first mapping relation table according to each mapping relation. The extension number and the static IP address need to establish a mapping relation, so the extension number and the static IP address are selected to be respectively sequenced, and then the mapping relation is established according to the sequencing.

As shown in fig. 2, in an embodiment of the present application, the medical communication device further includes: a calculation module 205;

the calculation module 205 is configured to obtain a plurality of learning samples; the learning samples include: the character string comprises a plurality of Chinese characters or characters, a character string formed by the Chinese characters or the characters, pinyin corresponding to the Chinese characters or the characters and pinyin corresponding to the character string; determining the probability of occurrence of a character string consisting of said plurality of said chinese characters or characters according to the following formula:

P(B|A)＝N(B|A)/N(X|A)；

the data processing module 202 is configured to determine target Chinese characters included in the extension identifiers respectively; determining the occurrence probability of the character strings corresponding to any two adjacent target Chinese characters according to the learning sample; when the occurrence probability of the character string is larger than a threshold value, determining that the character string is a target character string contained in the extension identification; determining the pinyin corresponding to the target character string and the pinyin of each target Chinese character identified by the extension set according to the learning sample; and determining pinyin corresponding to the extension identification according to the arrangement sequence of the target character string and the target Chinese characters of the extension identification.

As shown in fig. 3, an embodiment of the present application provides a medical extension. This medical extension includes: a message sending module 301 and a data receiving module 302.

The message sending module 301 is configured to send an allocation request message to the medical communication device, where the allocation request message includes a static IP address corresponding to the extension.

The data receiving module 302 is configured to receive the extension identifier sent by the medical communication device and the first mapping relationship table determined by the medical communication device, so that each medical extension and the medical communication device can interact with each other according to each extension identifier.

The first mapping relation table comprises a plurality of mapping relations between the static IP addresses and a plurality of corresponding extension identifications, and the IP addresses of the same medical extension in the plurality of medical extensions are stored in correspondence with the corresponding extension identifications.

As shown in fig. 4, an embodiment of the present application provides a networking system. The networking system includes a medical host 401, a server 402, a medical extension 403, and a router 404.

The networking system in fig. 4 is only one of the solutions in the present application, and the networking system provided in the present application further includes: the medical host, the medical extensions, the server, the medical extensions and the router only play a role in connecting with the network conventionally, and the technical scheme provided by the application is not influenced.

In fig. 4, a router 404, a medical host 401, and each medical extension 403 form a local area network within each department, and are connected to a server 402 through the router 404 to form a network system. As can be seen from fig. 4, when the server 402 does not exist or the medical host 401 does not exist, the whole network architecture is not affected. Therefore, the technical scheme provided by the application can adapt to various application scenes.

When only the medical extension 403 and the server 402 are provided, the operation and maintenance personnel can set the extension identifier and the static IP address on the medical extension, or can allocate the extension identifier by using the server 402 instead of the medical host 401.

Only with the medical host 401 and the medical extensions 403, when the server 402 has no access to the network for a while, the operation and maintenance personnel may first allocate an extension identifier, a static IP address, a connection identifier, and a group identifier to each medical extension 403 using the medical host, and when the server 402 has access, the medical extensions 403 directly transmit the extension identifier, the static IP address, the connection identifier, and the group identifier to the server 402 to complete authentication.

When only the medical host 401 and the medical extensions 403 are available, the operation and maintenance personnel can assign extension identifiers and static IP addresses to the medical extensions 403 to build a local area network of a department, so as to realize mutual communication among the medical extensions.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims

1. A networking method, comprising:

the medical communication equipment sends the extension identification and the first mapping relation table to each medical extension according to the static IP address in the allocation request message, so that each medical extension and the medical communication equipment can interact according to each extension identification;

the medical communication device is a medical host, and the method further comprises:

according to the static IP address in the allocation request message, the medical host sends the grouping identifier, the IP address of the server and the connection identifier to the plurality of medical extension sets, so that the medical extension sets send the grouping identifier and the mapping relation between the static IP address corresponding to the medical extension set and the extension set identifier to the server according to the IP address of the server and the connection identifier.

2. The method according to claim 1, wherein after said sending to said server said packet identity and said mapping of said static IP address corresponding to said medical extension to said extension identity, said method further comprises:

3. The method of claim 1, further comprising:

the medical communication equipment also determines the service data of each medical extension set in the medical extension set corresponding to the medical communication equipment; the business data comprises patient information corresponding to the extension sets;

the medical communication equipment also creates a corresponding relation table according to the extension identification and the service data, the corresponding relation table comprises a mapping relation between a plurality of extension identifications and a plurality of corresponding service data, and the extension identification and the service data of the same medical extension in each group of medical extensions are correspondingly stored;

4. The method of claim 1,

the determining a first mapping relation table includes:

determining a first numerical value corresponding to each static IP address, and determining a second numerical value corresponding to the extension identifier or an extension number of the extension identifier;

5. The method of claim 4, wherein the extension identifier is a Chinese character or a character, and further comprising, before the determining the second value corresponding to the extension identifier:

obtaining a plurality of learning samples; the learning samples include: the character string comprises a plurality of Chinese characters or characters, a character string formed by the Chinese characters or the characters, pinyin corresponding to the Chinese characters or the characters and pinyin corresponding to the character string;

P(B|A)＝N(B|A)/N(X|A)；

6. The method of claim 4, before the medical communication device receives the assignment request message sent by the plurality of medical extensions, after the medical communication device determines a first mapping table based on the static network protocol address and extension identification, the method further comprising:

the medical communication equipment sequentially receives static IP address application messages sent by the medical extension sets;

the set of static IP addresses includes one or more unused static IP addresses.

7. A networking method, comprising:

the method comprises the steps that a medical extension sends an allocation request message to medical communication equipment, wherein the allocation request message comprises a static IP address corresponding to the medical extension;

the medical extension receives an extension identifier sent by the medical communication equipment and a first mapping relation table determined by the medical communication equipment, so that the medical extension and the medical communication equipment can interact according to the extension identifier;

the first mapping relation table comprises mapping relations between a plurality of static IP addresses and a plurality of corresponding extension identifiers, and the static IP addresses of the same medical extension in the medical extensions are stored in correspondence with the corresponding extension identifiers;

the medical communication device is a medical host, and after the medical extension sends the allocation request message to the medical communication device, the method further comprises the following steps:

the medical branch computer receives the branch computer identification, the group identification and the first mapping relation table which are sent by the medical host computer, wherein the group identification is the identification of the medical branch computer group corresponding to the medical host computer and acquired by the medical host computer;

8. A medical communication device, comprising: the device comprises an acquisition module, a data processing module, a receiving module and a sending module;

the data processing module is used for determining a first mapping relation table according to the static network protocol address and the extension identification, the first mapping relation table comprises the mapping relation between a plurality of static IP addresses and a plurality of corresponding extension identifications, and the static IP address of the same medical extension in the medical extensions is stored in correspondence with the corresponding extension identification;

the sending module is configured to send the extension identifier and the first mapping relation table to each medical extension according to the static IP address in the allocation request message, so that each medical extension and the medical communication device can interact according to each extension identifier;

the medical communication equipment is a medical host;

the acquisition module is further configured to determine a group identifier, where the group identifier is an identifier of the medical sub-group corresponding to the medical host acquired by the medical host, and an identifier of each extension in the medical sub-group corresponding to the medical host, and an IP address and a connection identifier of a server corresponding to the medical host; the connection identifier is a connection identifier of the medical extension and the server;

the sending module is further configured to send the group identifier, the IP address of the server, and the connection identifier to the multiple medical extensions according to the static IP address in the allocation request message, so that the medical extensions send the group identifier and the mapping relationship between the static IP address corresponding to the medical extension and the extension identifier to the server according to the IP address of the server and the connection identifier.

9. A medical extension, comprising: the device comprises a message sending module and a data receiving module;

the data receiving module is used for receiving the extension identification sent by the medical communication equipment and a first mapping relation table determined by the medical communication equipment so that the medical extension and the medical communication equipment can interact according to the extension identification;

the first mapping relation table comprises mapping relations between the static IP addresses and corresponding extension identifiers, and the IP addresses of the same medical extension in the medical extensions are stored in correspondence with the corresponding extension identifiers;

the medical communication equipment is a medical host;

the data receiving module is further configured to receive the extension identifier, the group identifier, and the first mapping relationship table sent by the medical host, where the group identifier is an identifier of a medical sub-group corresponding to the medical host acquired by the medical host; the second mapping relation table is used for receiving the second mapping relation table sent by the server to update the first mapping relation table;

the message sending module is further configured to send, when receiving the IP address and the connection identifier of the server corresponding to the medical host sent by the medical host, the mapping relationship between the group identifier and the static IP address and the extension identifier corresponding to the medical extension to the server according to the IP address and the connection identifier of the server, so that the server verifies each extension identifier according to the group identifier to generate a second mapping relationship table; the connection identifier is a connection identifier of the medical extension set and the server, and the second mapping relation table comprises a corresponding relation between each verified extension set identifier and a corresponding static IP address.