CN114680507B - User data management method, device, equipment and storage medium of shared accompanying bed - Google Patents

Abstract

The invention relates to the field of data processing, and discloses a user data management method, a device, equipment and a storage medium for a shared accompanying bed, which are used for improving the maintenance efficiency of the shared accompanying bed. The method comprises the following steps: generating to-be-processed user filled fault data according to the filled shared accompanying bed fault questionnaire; analyzing the fault data filled by the user to obtain filled fault information; performing fault self-detection on the target fault sharing accompanying bed to obtain fault self-detection information; performing comprehensive analysis on the fault information on the fault self-detection information and the filled fault information to obtain fault primary detection data, and performing fault priority calculation on the fault primary detection data to obtain a fault priority; acquiring maintenance terminal position information, and generating a maintenance map route according to the fault sharing accompanying bed position information and the maintenance terminal position information; and generating a maintenance strategy by the maintenance map route, the fault initial inspection data and the fault priority, and sending the maintenance strategy to the maintenance terminal.

Description

User data management method, device, equipment and storage medium of shared accompanying bed

Technical Field

The invention relates to the field of data processing, in particular to a user data management method, device, equipment and storage medium for a shared nursing bed.

Background

With the popularization and development of the internet of things technology, shared accompanying beds are gradually released in various hospitals, nursing homes and other places, but the safety of the shared accompanying beds becomes a key point of more and more attention of people.

The existing scheme is that a maintenance person regularly inspects the shared accompanying bed, and the shared accompanying bed is taken back to a maintenance center for maintenance after the maintenance person overhauls on site to determine the fault reason, but the maintenance efficiency is reduced by manual maintenance.

Disclosure of Invention

The invention provides a user data management method, device and equipment of a shared accompanying bed and a storage medium, which are used for improving the maintenance efficiency of the shared accompanying bed.

The invention provides a user data management method of a shared accompanying bed, which comprises the following steps: receiving a shared accompanying bed fault questionnaire which is reported by a target user through a preset user terminal, storing the reported shared accompanying bed fault questionnaire into a preset user data management library, and generating to-be-processed user reporting fault data according to the reported shared accompanying bed fault questionnaire; analyzing the fault data of the user filled fault data to obtain filled fault information corresponding to the user filled fault data, wherein the filled fault information comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user; calling a preset fault self-checking model to perform fault self-checking on the target fault shared accompanying bed to obtain fault self-checking information; carrying out comprehensive analysis on the fault self-checking information and the filled fault information to obtain fault primary check data corresponding to the target fault sharing accompanying bed, and carrying out fault priority calculation on the fault primary check data to obtain a fault priority level corresponding to the target fault sharing accompanying bed; matching maintainers corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to maintenance terminals of the maintainers to obtain maintenance terminal position information, and generating a maintenance map route according to the fault sharing accompanying bed position information and the maintenance terminal position information; and generating a maintenance strategy according to the maintenance map route, the initial fault detection data and the fault priority level, and sending the maintenance strategy to the maintenance terminal.

Optionally, in a first implementation manner of the first aspect of the present invention, the receiving a shared accompanying bed fault questionnaire that is reported by a target user through a preset user terminal, storing the reported shared accompanying bed fault questionnaire in a preset user data management library, and generating to-be-processed user reported fault data according to the reported shared accompanying bed fault questionnaire includes: acquiring user use time and judging whether the user use time is smaller than a preset threshold value according to the user use time; if so, sending a shared accompanying bed fault questionnaire to a preset user terminal for a target user to fill in the questionnaire; receiving a shared accompanying bed fault questionnaire filled by a target user through a preset user terminal; storing the filled shared accompanying bed fault questionnaire to a preset user data management library; inputting the filled shared accompanying bed fault questionnaire into a preset text recognition model for fault data extraction, and obtaining user filled fault data.

Optionally, in a second implementation manner of the first aspect of the present invention, the analyzing the fault data of the user filled-in fault data to obtain filled-in fault information corresponding to the user filled-in fault data, where the filling-in fault information includes: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user comprise: performing keyword matching on the user filled fault data according to a plurality of preset fault keywords to obtain a keyword matching result, wherein the keyword matching result comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user; and taking the keyword matching result as the filled fault information corresponding to the user filled fault data.

Optionally, in a third implementation manner of the first aspect of the present invention, the invoking a preset fault self-checking model to perform fault self-checking on the target fault sharing accompanying bed to obtain fault self-checking information includes: collecting monitoring index data corresponding to the target fault sharing accompanying bed based on a plurality of monitoring terminals preset in the target fault sharing accompanying bed; inputting the monitoring index data into a preset fault self-checking model, and performing abnormity detection on the monitoring index data through the fault self-checking model to obtain an abnormal index item; and generating fault self-checking information corresponding to the target fault sharing accompanying bed according to the abnormal index item.

Optionally, in a fourth implementation manner of the first aspect of the present invention, the performing fault information comprehensive analysis on the fault self-checking information and the reported fault information to obtain fault primary detection data corresponding to the target fault sharing accompanying bed, and performing fault priority calculation on the fault primary detection data to obtain a fault priority level corresponding to the target fault sharing accompanying bed includes: extracting a plurality of first fault indexes in the fault self-checking information, and extracting a plurality of second fault indexes corresponding to the filled fault information; respectively matching the plurality of first fault indexes and the plurality of second fault indexes to obtain matching results; generating fault initial detection data corresponding to the target fault sharing accompanying bed according to the matching result; generating a fault danger level of the target fault sharing accompanying bed according to the fault initial inspection data; and matching the fault priority corresponding to the fault danger level according to the fault danger level to obtain the fault priority corresponding to the target fault sharing accompanying bed.

Optionally, in a fifth implementation manner of the first aspect of the present invention, the matching a maintainer corresponding to the target fault shared accompanying bed, obtaining location information corresponding to a maintenance terminal of the maintainer, obtaining location information of the maintenance terminal, and generating a maintenance map route according to the fault shared accompanying bed location information and the maintenance terminal location information includes: matching a maintainer nearest to the target fault sharing accompanying bed according to the fault sharing accompanying bed position information, and acquiring position information corresponding to a maintenance terminal of the maintainer to obtain maintenance terminal position information; setting the position information of the fault sharing accompanying bed as a terminal position, and setting the position information of the maintenance terminal as a starting position; and inputting the end position and the starting position into a preset map application program, and generating a maintenance map route through the map application program.

Optionally, in a sixth implementation manner of the first aspect of the present invention, after generating a maintenance policy according to the maintenance map route, the initial fault detection data, and the priority level of the fault, and sending the maintenance policy to the maintenance terminal, the method for managing user data of a shared nursing bed further includes: after the target fault shared accompanying bed is submitted for inspection, inquiring an schedulable shared accompanying bed within a preset radius; and generating a sharing accompanying bed scheduling strategy according to the schedulable sharing accompanying bed.

A second aspect of the present invention provides a user data management apparatus of a shared accompanying bed, comprising: the receiving module is used for receiving a sharing accompanying bed fault questionnaire which is reported by a target user through a preset user terminal, storing the reported sharing accompanying bed fault questionnaire into a preset user data management library, and generating to-be-processed user reporting fault data according to the reported sharing accompanying bed fault questionnaire; the analysis module is used for analyzing the fault data of the user filled fault data to obtain filled fault information corresponding to the user filled fault data, wherein the filled fault information comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user; the self-checking module is used for calling a preset fault self-checking model to perform fault self-checking on the target fault sharing accompanying bed to obtain fault self-checking information; the processing module is used for comprehensively analyzing the fault information of the fault self-checking information and the filled fault information to obtain fault initial check data corresponding to the target fault sharing accompanying bed, and calculating the fault priority of the fault initial check data to obtain the fault priority corresponding to the target fault sharing accompanying bed; the generating module is used for matching a maintainer corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to a maintenance terminal of the maintainer, acquiring position information of the maintenance terminal, and generating a maintenance map route according to the position information of the fault sharing accompanying bed and the position information of the maintenance terminal; and the sending module is used for generating a maintenance strategy according to the maintenance map route, the initial fault detection data and the fault priority level and sending the maintenance strategy to the maintenance terminal.

Optionally, in a first implementation manner of the second aspect of the present invention, the receiving module is specifically configured to: acquiring user use time and judging whether the user use time is smaller than a preset threshold value according to the user use time; if yes, sending a shared accompanying bed fault questionnaire to a preset user terminal for a target user to fill in the questionnaire; receiving a shared accompanying bed fault questionnaire filled by a target user through a preset user terminal; storing the filled shared accompanying bed fault questionnaire to a preset user data management library; inputting the filled shared accompanying bed fault questionnaire into a preset text recognition model for fault data extraction, and obtaining user filled fault data.

Optionally, in a second implementation manner of the second aspect of the present invention, the parsing module is specifically configured to: performing keyword matching on the user filled fault data according to a plurality of preset fault keywords to obtain a keyword matching result, wherein the keyword matching result comprises: the target fault sharing accompanying bed, the position information of the fault sharing accompanying bed and the fault type reported by the user; and taking the keyword matching result as the filled fault information corresponding to the user filled fault data.

Optionally, in a third implementation manner of the second aspect of the present invention, the self-checking module is specifically configured to: collecting monitoring index data corresponding to the target fault sharing accompanying bed based on a plurality of monitoring terminals preset in the target fault sharing accompanying bed; inputting the monitoring index data into a preset fault self-checking model, and performing abnormity detection on the monitoring index data through the fault self-checking model to obtain an abnormal index item; and generating fault self-checking information corresponding to the target fault sharing accompanying bed according to the abnormal index item.

Optionally, in a fourth implementation manner of the second aspect of the present invention, the processing module is specifically configured to: extracting a plurality of first fault indexes in the fault self-checking information, and extracting a plurality of second fault indexes corresponding to the filled fault information; matching the plurality of first fault indexes and the plurality of second fault indexes respectively to obtain matching results; generating fault initial inspection data corresponding to the target fault sharing accompanying bed according to the matching result; generating a fault danger level of the target fault sharing accompanying bed according to the fault initial inspection data; and matching the fault priority corresponding to the fault danger level according to the fault danger level to obtain the fault priority corresponding to the target fault sharing accompanying bed.

Optionally, in a fifth implementation manner of the second aspect of the present invention, the generating module is specifically configured to: matching a maintainer nearest to the target fault sharing accompanying bed according to the fault sharing accompanying bed position information, and acquiring position information corresponding to a maintenance terminal of the maintainer to obtain maintenance terminal position information; setting the position information of the fault sharing accompanying bed as a destination position, and setting the position information of the maintenance terminal as a starting position; and inputting the end position and the starting position into a preset map application program, and generating a maintenance map route through the map application program.

Optionally, in a sixth implementation manner of the second aspect of the present invention, the user data management apparatus for a shared nursing bed further includes: the scheduling module is used for inquiring the schedulable shared accompanying bed within the preset radius after the target fault shared accompanying bed is submitted for inspection; and generating a sharing accompanying bed scheduling strategy according to the schedulable sharing accompanying bed.

A third aspect of the present invention provides a user data management apparatus of a shared accompanying bed, including: a memory and at least one processor, the memory having instructions stored therein; the at least one processor calls the instructions in the memory to cause the user data management device of the shared accompanying bed to execute the user data management method of the shared accompanying bed.

A fourth aspect of the present invention provides a computer-readable storage medium having stored therein instructions, which, when run on a computer, cause the computer to execute the above-described user data management method of a shared nursing bed.

In the technical scheme provided by the invention, a sharing accompanying bed fault questionnaire which is filled by a target user through a preset user terminal is received, the filled sharing accompanying bed fault questionnaire is stored in a preset user data management library, and to-be-processed user filling fault data is generated according to the filled sharing accompanying bed fault questionnaire; analyzing the fault data of the user filled fault data to obtain filled fault information corresponding to the user filled fault data, wherein the filled fault information comprises: the target fault sharing accompanying bed, the position information of the fault sharing accompanying bed and the fault type reported by the user; calling a preset fault self-checking model to perform fault self-checking on the target fault sharing accompanying bed to obtain fault self-checking information; carrying out comprehensive analysis on the fault self-checking information and the filled fault information to obtain fault primary check data corresponding to the target fault sharing accompanying bed, and carrying out fault priority calculation on the fault primary check data to obtain a fault priority level corresponding to the target fault sharing accompanying bed; matching a maintainer corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to a maintenance terminal of the maintainer to obtain maintenance terminal position information, and generating a maintenance map route according to the fault sharing accompanying bed position information and the maintenance terminal position information; and generating a maintenance strategy according to the maintenance map route, the initial fault detection data and the fault priority level, and sending the maintenance strategy to the maintenance terminal. According to the invention, questionnaire analysis is carried out on the shared accompanying bed fault questionnaire fed back by the user, the obtained filled fault information is compared with the fault self-checking information detected by the fault self-checking model, and the fault initial-checking data is finally generated, and the fault initial-checking data can effectively assist maintainers to overhaul and reduce the early detection time before maintenance, so that the maintenance efficiency of the shared accompanying bed is improved.

Drawings

Fig. 1 is a schematic view of an embodiment of a user data management method of a shared nursing bed according to an embodiment of the present invention;

fig. 2 is a schematic diagram of another embodiment of a user data management method of a shared nursing bed according to an embodiment of the present invention;

fig. 3 is a schematic view of an embodiment of a user data management apparatus sharing a bed for accompanying persons in the embodiment of the present invention;

fig. 4 is a schematic view of another embodiment of the user data management device sharing a bed for accompanying nursing in the embodiment of the present invention;

fig. 5 is a schematic diagram of an embodiment of a user data management device sharing a bed for accompanying nursing in the embodiment of the present invention.

Detailed Description

The embodiment of the invention provides a user data management method, device, equipment and storage medium of a shared accompanying bed, which are used for improving the maintenance efficiency of the shared accompanying bed. The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises," "comprising," or "having," and any variations thereof, are intended to cover non-exclusive inclusions, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

For convenience of understanding, a specific flow of an embodiment of the present invention is described below, and referring to fig. 1, an embodiment of a user data management method for a shared nursing bed in an embodiment of the present invention includes:

101. receiving a sharing accompanying bed fault questionnaire filled by a target user through a preset user terminal, storing the filled sharing accompanying bed fault questionnaire into a preset user data management library, and generating to-be-processed user filled fault data according to the filled sharing accompanying bed fault questionnaire;

it is understood that the executing subject of the present invention may be a user data management device of a shared nursing bed, and may also be a terminal or a server, which is not limited herein. The embodiment of the present invention is described by taking a server as an execution subject.

Specifically, when sending a fault questionnaire of the shared accompanying bed to the target user, the server directly judges whether the target user is a returning operation of the shared accompanying bed caused by the fault of the shared accompanying bed, specifically including: the method comprises the steps that a server receives a time interval between a shared accompanying bed use request sent by a target user for the first time through a user terminal and a shared accompanying bed return request sent for the second time, wherein the time interval is user use time, the server compares the user use time with a preset threshold value, if the user use time is smaller than the preset threshold value, the shared accompanying bed is determined to have a fault, and if the user use time is larger than or equal to the preset threshold value, the shared accompanying bed is determined not to have the fault; after judging that the shared accompanying bed has a fault, the server sends a shared accompanying bed fault questionnaire to the user terminal for a target user to fill in, receives the filled-in shared accompanying bed fault questionnaire, stores the filled-in shared accompanying bed fault questionnaire into a preset user data management base, and generates to-be-processed user filled-in fault data according to the filled-in shared accompanying bed fault questionnaire.

102. Analyzing the fault data of the user filled fault data to obtain filled fault information corresponding to the user filled fault data, wherein the filled fault information comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user;

specifically, the user reported fault data reported by the target user includes a fault shared accompanying bed, that is, a target fault shared accompanying bed; and the user parking position of the target fault sharing accompanying bed is obtained, and in addition, the user can judge the fault type which possibly occurs in the target fault sharing accompanying bed according to the self use experience to obtain the fault type reported by the user. And the server extracts the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault types filled by the users to obtain filled fault information and outputs the filled fault information.

103. Calling a preset fault self-checking model to carry out fault self-checking on the target fault sharing accompanying bed to obtain fault self-checking information;

specifically, a server acquires monitoring index data corresponding to the target fault sharing accompanying bed through a monitoring data acquisition terminal preset in the target fault sharing accompanying bed; and the server inputs the monitoring index data into the fault self-checking model for abnormal index detection, and generates fault self-checking information corresponding to the target fault sharing accompanying bed according to the detected abnormal index.

104. Performing comprehensive analysis on the fault information on the fault self-checking information and the filled fault information to obtain fault primary check data corresponding to the target fault sharing accompanying bed, and performing fault priority calculation on the fault primary check data to obtain a fault priority corresponding to the target fault sharing accompanying bed;

specifically, the server extracts a plurality of first fault indexes in the fault self-checking information and extracts a plurality of second fault indexes corresponding to the filled fault information, where the fault indexes are, for example: battery failure, structural damage to the bed, etc.; the server respectively matches the first fault indexes and the second fault indexes to obtain matching results, wherein the matching results comprise the same fault indexes and different fault indexes; the server generates fault primary inspection data corresponding to the target fault sharing accompanying bed according to the matching result, wherein the fault primary inspection data comprise the same fault indexes and different fault indexes; the server generates a fault danger level of the target fault sharing accompanying bed according to the fault initial inspection data, sorts the fault indexes needing emergency processing in the fault initial inspection data, and compares a sorting result with a preset fault danger level to obtain the fault danger level of the target fault sharing accompanying bed; and the server matches the fault priority corresponding to the fault danger level according to the fault danger level to obtain the fault priority corresponding to the target fault sharing accompanying bed.

105. Matching maintainers corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to maintenance terminals of the maintainers to obtain position information of the maintenance terminals, and generating a maintenance map route according to the position information of the fault sharing accompanying bed and the position information of the maintenance terminals;

specifically, a maintainer nearest to a target fault sharing accompanying bed is matched according to the position information of the fault sharing accompanying bed, the position information corresponding to a maintenance terminal held by the maintainer is obtained, the maintenance terminal is used for receiving maintenance information to be maintained and sent by a server, a maintenance map route is generated according to the position information of the fault sharing accompanying bed and the position information of the maintenance terminal, and the maintenance map route is used for the maintainer to go to the position where the target fault sharing accompanying bed is located according to the maintenance map route.

106. And generating a maintenance strategy according to the maintenance map route, the initial fault detection data and the fault priority level, and sending the maintenance strategy to a maintenance terminal.

Specifically, the server packs the maintenance map route, the fault initial inspection data and the fault priority level to produce a maintenance strategy of the target fault shared accompanying bed, and then sends the maintenance strategy to the maintenance terminal, so that a maintainer can overhaul the target fault shared accompanying bed according to the maintenance strategy.

In the embodiment of the invention, a sharing accompanying bed fault questionnaire which is reported by a target user through a preset user terminal is received, the reported sharing accompanying bed fault questionnaire is stored in a preset user data management library, and to-be-processed user reporting fault data is generated according to the reported sharing accompanying bed fault questionnaire; analyzing the fault data filled and reported by the user to obtain filled and reported fault information corresponding to the user filled and reported fault data, wherein the filled and reported fault information comprises the following steps: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user; calling a preset fault self-checking model to perform fault self-checking on the target fault sharing accompanying bed to obtain fault self-checking information; comprehensively analyzing the fault information of the fault self-checking information and the reported fault information to obtain fault initial-checking data corresponding to the target fault sharing accompanying bed, and calculating the fault priority of the fault initial-checking data to obtain the fault priority corresponding to the target fault sharing accompanying bed; matching maintainers corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to maintenance terminals of the maintainers to obtain position information of the maintenance terminals, and generating a maintenance map route according to the position information of the fault sharing accompanying bed and the position information of the maintenance terminals; and generating a maintenance strategy according to the maintenance map route, the fault initial inspection data and the fault priority level, and sending the maintenance strategy to a maintenance terminal. According to the invention, questionnaire analysis is carried out on the shared accompanying bed fault questionnaire fed back by the user, the obtained filled fault information is compared with the fault self-checking information detected by the fault self-checking model, and finally fault initial-checking data is generated, and the fault initial-checking data can effectively assist maintainers to overhaul and reduce the early-stage detection time before maintenance, so that the maintenance efficiency of the shared accompanying bed is improved.

Referring to fig. 2, another embodiment of the method for managing user data of a shared nursing bed according to an embodiment of the present invention includes:

201. receiving a sharing accompanying bed fault questionnaire filled by a target user through a preset user terminal, storing the filled sharing accompanying bed fault questionnaire into a preset user data management library, and generating to-be-processed user filled fault data according to the filled sharing accompanying bed fault questionnaire;

specifically, the using time of a user is obtained, whether the using time of the user is smaller than a preset threshold value or not is judged according to the using time of the user, a server receives a time interval between a first-time sending request of the target user through the user terminal and a second-time sending request of returning the shared accompanying bed, the time interval is the using time of the user, the server compares the using time of the user with the preset threshold value, if the using time of the user is smaller than the preset threshold value, it is determined that the shared accompanying bed has a fault, and if the using time of the user is larger than or equal to the preset threshold value, it is determined that the shared accompanying bed does not have the fault; if yes, sending a shared accompanying bed fault questionnaire to a preset user terminal for a target user to perform questionnaire filling, sending the preset shared accompanying bed fault questionnaire to the user terminal by a server, performing questionnaire filling on the shared accompanying bed fault questionnaire by the target user through the user terminal, and sending the filled shared accompanying bed fault questionnaire to the server through the user terminal after the target user completes the questionnaire filling; the server receives a shared accompanying bed fault questionnaire which is filled by a target user through a preset user terminal; storing the filled shared accompanying bed fault questionnaire to a preset user data management base, wherein the user data management base stores authorization information, fault feedback information, use times and the like of the target user; inputting the filled shared accompanying bed fault questionnaire into a preset text recognition model for fault data extraction to obtain user filled fault data, wherein the text recognition model can be a natural language processing model, and extracting text data in the filled shared accompanying bed fault questionnaire through the text recognition model, and the text data is the user filled fault data.

202. Analyzing the fault data of the user filled fault data to obtain filled fault information corresponding to the user filled fault data, wherein the filled fault information comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user;

specifically, keyword matching is performed on the fault data filled by the user according to a plurality of preset fault keywords to obtain a keyword matching result, wherein the keyword matching result comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type filled by the user, wherein the keyword is the fault sharing accompanying bed, the fault sharing accompanying bed position and the fault type; the user filled fault data filled by the target user comprises a fault shared accompanying bed, namely a target fault shared accompanying bed; and the user parking position of the target fault sharing accompanying bed is obtained, and in addition, the user can judge the fault type which possibly occurs in the target fault sharing accompanying bed according to the self use experience to obtain the fault type reported by the user. The server extracts the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault types filled by the user to obtain filled fault information and outputs the filled fault information; and taking the keyword matching result as the filled fault information corresponding to the user filled fault data.

203. Calling a preset fault self-checking model to perform fault self-checking on the target fault sharing accompanying bed to obtain fault self-checking information;

specifically, monitoring index data corresponding to the target fault sharing accompanying bed is collected based on a plurality of monitoring terminals preset in the target fault sharing accompanying bed, and the monitoring terminals can be monitoring sensors, video collecting terminals and the like; inputting monitoring index data into a preset fault self-checking model, and performing abnormity detection on the monitoring index data through the fault self-checking model to obtain an abnormal index item, wherein the abnormity detection specifically comprises the steps of performing data abnormity comparison on the monitoring index data and standard index data in the preset fault self-checking model, and generating the abnormal index item if the monitoring index data is detected to be abnormal; and generating fault self-checking information corresponding to the target fault sharing accompanying bed according to the abnormal index item. The server acquires monitoring index data corresponding to the target fault sharing accompanying bed through a monitoring data acquisition terminal preset in the target fault sharing accompanying bed; and the server inputs the monitoring index data into the fault self-checking model for abnormal index detection, and generates fault self-checking information corresponding to the target fault sharing accompanying bed according to the detected abnormal index.

204. Extracting a plurality of first fault indexes in the fault self-checking information, and extracting a plurality of second fault indexes corresponding to the filled fault information;

205. respectively matching the plurality of first fault indexes and the plurality of second fault indexes to obtain matching results;

the matching process specifically comprises the following steps: the server generates a plurality of fault data sets corresponding to the first fault indexes according to a plurality of second fault indexes, the server determines the Euclidean distance between the two fault data sets, and then combines the two fault data sets with the minimum Euclidean distance, for example, if the fault data set A, B, C exists, the server respectively determines the Euclidean distance between A and B, the Euclidean distance between B and C and the Euclidean distance between A and C; and the server merges the two fault data sets with the minimum Euclidean distance. And the server repeatedly executes the step of determining the Euclidean distance and the step of combining the sets until the Euclidean distance between any two fault data sets reaches a preset threshold value. In the above loop process, only two fault data sets are merged in each loop process, and the euclidean distance between the two merged fault data sets is the minimum, so as to ensure the uniqueness of elements in the fault data sets. For example: assuming that a plurality of first fault indexes and second fault indexes 1, 2, 3 and 4 respectively correspond to four fault data sets a, b, c and d, if the Euclidean distance between the set a and the set b is minimum and does not reach a preset threshold value, three sets e, c and d are obtained after combination, wherein elements in the set e are 1 and 2. At this time, if the euclidean distance between the set c and the set e is the minimum and does not reach the preset threshold, two sets f and d are obtained after combination, wherein the elements in the set f are 1, 2 and 3, and the elements 1, 2 and 3 in the set f are used as matching results.

206. Generating fault initial inspection data corresponding to the target fault shared accompanying bed according to the matching result;

specifically, the server takes the index abnormal data in the matching result as the fault initial check data corresponding to the target fault sharing accompanying bed.

207. Generating a fault danger level of the target fault sharing accompanying bed according to the fault initial inspection data;

for example: when structural damage exists in the fault initial detection data, determining that the fault danger level of the target fault sharing accompanying bed is high; and when structural damage does not exist in the fault initial detection data, determining that the fault risk level of the target fault sharing accompanying bed is low.

208. Matching fault priority levels corresponding to the fault danger levels according to the fault danger levels to obtain fault priority levels corresponding to the target fault sharing accompanying bed;

specifically, the server generates a high fault risk level and also generates a high corresponding fault priority; the server generates a corresponding failure priority with a low failure risk level.

209. Matching maintainers corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to maintenance terminals of the maintainers to obtain position information of the maintenance terminals, and generating a maintenance map route according to the position information of the fault sharing accompanying bed and the position information of the maintenance terminals;

specifically, a maintainer nearest to a target fault sharing accompanying bed is matched according to the position information of the fault sharing accompanying bed, and the position information corresponding to a maintenance terminal of the maintainer is obtained to obtain the position information of the maintenance terminal; setting the position information of the fault sharing accompanying bed as a terminal position, and setting the position information of the maintenance terminal as a starting position; and inputting the end position and the starting position into a preset map application program, and generating a maintenance map route through the map application program. The method comprises the steps of matching a maintainer nearest to a target fault sharing accompanying bed according to position information of the fault sharing accompanying bed, obtaining position information corresponding to a maintenance terminal held by the maintainer, wherein the maintenance terminal is used for receiving maintenance information to be maintained and sent by a server, generating a maintenance map route according to the position information of the fault sharing accompanying bed and the position information of the maintenance terminal, and the maintenance map route is used for enabling the maintainer to go to the position where the target fault sharing accompanying bed is located according to the maintenance map route

210. And generating a maintenance strategy according to the maintenance map route, the fault initial inspection data and the fault priority level, and sending the maintenance strategy to a maintenance terminal.

Specifically, the server packs the maintenance map route, the fault initial inspection data and the fault priority level to produce a maintenance strategy of the target fault shared accompanying bed, and then sends the maintenance strategy to the maintenance terminal, so that a maintainer can overhaul the target fault shared accompanying bed according to the maintenance strategy. After the target fault shared accompanying bed is submitted for inspection, inquiring the schedulable shared accompanying bed within a preset radius; generating a shared accompanying bed scheduling strategy according to the schedulable shared accompanying bed, wherein the preset radius is 1000-2000 m; the maintainer can carry out sharing accompanying bed scheduling through the sharing accompanying bed scheduling strategy, and then the maintenance efficiency of the sharing accompanying bed is improved.

In the embodiment of the invention, a shared accompanying bed fault questionnaire which is reported by a target user through a preset user terminal is received, the reported shared accompanying bed fault questionnaire is stored in a preset user data management library, and to-be-processed user reporting fault data is generated according to the reported shared accompanying bed fault questionnaire; analyzing the fault data of the user filled fault data to obtain filled fault information corresponding to the user filled fault data, wherein the filled fault information comprises: the target fault sharing accompanying bed, the position information of the fault sharing accompanying bed and the fault type reported by the user; calling a preset fault self-checking model to carry out fault self-checking on the target fault sharing accompanying bed to obtain fault self-checking information; comprehensively analyzing the fault information of the fault self-checking information and the reported fault information to obtain fault initial-checking data corresponding to the target fault sharing accompanying bed, and calculating the fault priority of the fault initial-checking data to obtain the fault priority corresponding to the target fault sharing accompanying bed; matching maintainers corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to maintenance terminals of the maintainers to obtain position information of the maintenance terminals, and generating a maintenance map route according to the position information of the fault sharing accompanying bed and the position information of the maintenance terminals; and generating a maintenance strategy according to the maintenance map route, the fault initial inspection data and the fault priority level, and sending the maintenance strategy to a maintenance terminal. According to the invention, questionnaire analysis is carried out on the shared accompanying bed fault questionnaire fed back by the user, the obtained filled fault information is compared with the fault self-checking information detected by the fault self-checking model, and finally fault initial-checking data is generated, and the fault initial-checking data can effectively assist maintainers to overhaul and reduce the early-stage detection time before maintenance, so that the maintenance efficiency of the shared accompanying bed is improved.

In the above description of the user data management method for sharing a bed according to an embodiment of the present invention, referring to fig. 3, a user data management device for sharing a bed according to an embodiment of the present invention is described below, where an embodiment of the user data management device for sharing a bed according to an embodiment of the present invention includes:

the receiving module 301 is configured to receive a shared accompanying bed fault questionnaire which is reported by a target user through a preset user terminal, store the reported shared accompanying bed fault questionnaire in a preset user data management library, and generate to-be-processed user reporting fault data according to the reported shared accompanying bed fault questionnaire;

an analyzing module 302, configured to perform fault data analysis on the user filled fault data to obtain filled fault information corresponding to the user filled fault data, where the filled fault information includes: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user;

the self-checking module 303 is configured to call a preset fault self-checking model to perform fault self-checking on the target fault sharing accompanying bed, so as to obtain fault self-checking information;

the processing module 304 is configured to perform comprehensive analysis on the fault self-checking information and the reported fault information to obtain fault primary check data corresponding to the target fault sharing accompanying bed, and perform fault priority calculation on the fault primary check data to obtain a fault priority corresponding to the target fault sharing accompanying bed;

a generating module 305, configured to match a maintainer corresponding to the target fault sharing accompanying bed, obtain location information corresponding to a maintenance terminal of the maintainer, obtain location information of the maintenance terminal, and generate a maintenance map route according to the location information of the fault sharing accompanying bed and the location information of the maintenance terminal;

a sending module 306, configured to generate a maintenance policy according to the maintenance map route, the initial fault detection data, and the fault priority, and send the maintenance policy to the maintenance terminal.

In the embodiment of the invention, a sharing accompanying bed fault questionnaire which is reported by a target user through a preset user terminal is received, the reported sharing accompanying bed fault questionnaire is stored in a preset user data management library, and to-be-processed user reporting fault data is generated according to the reported sharing accompanying bed fault questionnaire; analyzing the fault data filled and reported by the user to obtain filled and reported fault information corresponding to the user filled and reported fault data, wherein the filled and reported fault information comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user; calling a preset fault self-checking model to perform fault self-checking on the target fault shared accompanying bed to obtain fault self-checking information; carrying out comprehensive analysis on the fault self-checking information and the filled fault information to obtain fault primary check data corresponding to the target fault sharing accompanying bed, and carrying out fault priority calculation on the fault primary check data to obtain a fault priority level corresponding to the target fault sharing accompanying bed; matching maintainers corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to maintenance terminals of the maintainers to obtain maintenance terminal position information, and generating a maintenance map route according to the fault sharing accompanying bed position information and the maintenance terminal position information; and generating a maintenance strategy according to the maintenance map route, the initial fault detection data and the fault priority level, and sending the maintenance strategy to the maintenance terminal. According to the invention, questionnaire analysis is carried out on the shared accompanying bed fault questionnaire fed back by the user, the obtained filled fault information is compared with the fault self-checking information detected by the fault self-checking model, and finally fault initial-checking data is generated, and the fault initial-checking data can effectively assist maintainers to overhaul and reduce the early-stage detection time before maintenance, so that the maintenance efficiency of the shared accompanying bed is improved.

Referring to fig. 4, another embodiment of the user data management apparatus for sharing a nursing bed according to the embodiment of the present invention includes:

the receiving module 301 is configured to receive a shared accompanying bed fault questionnaire which is reported by a target user through a preset user terminal, store the reported shared accompanying bed fault questionnaire in a preset user data management library, and generate to-be-processed user reporting fault data according to the reported shared accompanying bed fault questionnaire;

an analyzing module 302, configured to perform fault data analysis on the user filled fault data to obtain filled fault information corresponding to the user filled fault data, where the filled fault information includes: the target fault sharing accompanying bed, the position information of the fault sharing accompanying bed and the fault type reported by the user;

the self-checking module 303 is configured to call a preset fault self-checking model to perform fault self-checking on the target fault shared accompanying bed, so as to obtain fault self-checking information;

the processing module 304 is configured to perform comprehensive analysis on the fault self-detection information and the reported fault information to obtain fault primary detection data corresponding to the target fault sharing accompanying bed, and perform fault priority calculation on the fault primary detection data to obtain a fault priority corresponding to the target fault sharing accompanying bed;

a generating module 305, configured to match a maintainer corresponding to the target fault sharing accompanying bed, obtain location information corresponding to a maintenance terminal of the maintainer, obtain location information of the maintenance terminal, and generate a maintenance map route according to the location information of the fault sharing accompanying bed and the location information of the maintenance terminal;

a sending module 306, configured to generate a maintenance policy according to the maintenance map route, the initial fault detection data, and the fault priority, and send the maintenance policy to the maintenance terminal.

Optionally, the receiving module 301 is specifically configured to: acquiring user use time and judging whether the user use time is smaller than a preset threshold value according to the user use time; if so, sending a shared accompanying bed fault questionnaire to a preset user terminal for a target user to fill in the questionnaire; receiving a shared accompanying bed fault questionnaire filled by a target user through a preset user terminal; storing the filled shared accompanying bed fault questionnaire to a preset user data management library; inputting the filled shared accompanying bed fault questionnaire into a preset text recognition model for fault data extraction, and obtaining user filled fault data.

Optionally, the parsing module 302 is specifically configured to: performing keyword matching on the user filled fault data according to a plurality of preset fault keywords to obtain a keyword matching result, wherein the keyword matching result comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user; and taking the keyword matching result as the filled fault information corresponding to the user filled fault data.

Optionally, the self-checking module 303 is specifically configured to: collecting monitoring index data corresponding to the target fault sharing accompanying bed based on a plurality of monitoring terminals preset in the target fault sharing accompanying bed; inputting the monitoring index data into a preset fault self-checking model, and carrying out abnormity detection on the monitoring index data through the fault self-checking model to obtain an abnormal index item; and generating fault self-checking information corresponding to the target fault sharing accompanying bed according to the abnormal index item.

Optionally, the processing module 304 is specifically configured to: extracting a plurality of first fault indexes in the fault self-checking information, and extracting a plurality of second fault indexes corresponding to the filled fault information; matching the plurality of first fault indexes and the plurality of second fault indexes respectively to obtain matching results; generating fault initial inspection data corresponding to the target fault sharing accompanying bed according to the matching result; generating a fault danger level of the target fault sharing accompanying bed according to the fault initial inspection data; and matching the fault priority corresponding to the fault danger level according to the fault danger level to obtain the fault priority corresponding to the target fault sharing accompanying bed.

Optionally, the generating module 305 is specifically configured to: matching a maintainer nearest to the target fault sharing accompanying bed according to the fault sharing accompanying bed position information, and acquiring position information corresponding to a maintenance terminal of the maintainer to obtain maintenance terminal position information; setting the position information of the fault sharing accompanying bed as a destination position, and setting the position information of the maintenance terminal as a starting position; and inputting the end position and the starting position into a preset map application program, and generating a maintenance map route through the map application program.

Optionally, the user data management apparatus of the shared nursing bed further includes: the scheduling module 307 is configured to query the schedulable shared accompanying bed within the preset radius after the target fault shared accompanying bed is submitted for inspection; and generating a shared accompanying bed scheduling strategy according to the schedulable shared accompanying bed.

In the embodiment of the invention, a sharing accompanying bed fault questionnaire which is reported by a target user through a preset user terminal is received, the reported sharing accompanying bed fault questionnaire is stored in a preset user data management library, and to-be-processed user reporting fault data is generated according to the reported sharing accompanying bed fault questionnaire; analyzing the fault data of the user filled fault data to obtain filled fault information corresponding to the user filled fault data, wherein the filled fault information comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user; calling a preset fault self-checking model to perform fault self-checking on the target fault sharing accompanying bed to obtain fault self-checking information; carrying out comprehensive analysis on the fault self-checking information and the filled fault information to obtain fault primary check data corresponding to the target fault sharing accompanying bed, and carrying out fault priority calculation on the fault primary check data to obtain a fault priority level corresponding to the target fault sharing accompanying bed; matching maintainers corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to maintenance terminals of the maintainers to obtain maintenance terminal position information, and generating a maintenance map route according to the fault sharing accompanying bed position information and the maintenance terminal position information; and generating a maintenance strategy according to the maintenance map route, the initial fault detection data and the fault priority level, and sending the maintenance strategy to the maintenance terminal. According to the invention, questionnaire analysis is carried out on the shared accompanying bed fault questionnaire fed back by the user, the obtained filled fault information is compared with the fault self-checking information detected by the fault self-checking model, and finally fault initial-checking data is generated, and the fault initial-checking data can effectively assist maintainers to overhaul and reduce the early-stage detection time before maintenance, so that the maintenance efficiency of the shared accompanying bed is improved.

Fig. 3 and 4 describe the user data management device of the shared bed in the embodiment of the present invention in detail from the perspective of the modular functional entity, and the user data management device of the shared bed in the embodiment of the present invention is described in detail from the perspective of hardware processing.

Fig. 5 is a schematic structural diagram of a user data management device for a shared nursing bed according to an embodiment of the present invention, where the user data management device 500 for a shared nursing bed may have a relatively large difference due to different configurations or performances, and may include one or more processors (CPUs) 510 (e.g., one or more processors) and a memory 520, and one or more storage media 530 (e.g., one or more mass storage devices) storing applications 533 or data 532. Memory 520 and storage media 530 may be, among other things, transient or persistent storage. The program stored in the storage medium 530 may include one or more modules (not shown), each of which may include a series of instruction operations in the user data management apparatus 500 for the shared nursing bed. Further, the processor 510 may be configured to communicate with the storage medium 530, and perform a series of instruction operations in the storage medium 530 on the user data management apparatus 500 sharing the nursing bed.

The user data management device 500 of the shared cote may also include one or more power supplies 540, one or more wired or wireless network interfaces 550, one or more input-output interfaces 560, and/or one or more operating systems 531, such as Windows server, Mac OS X, Unix, Linux, FreeBSD, and the like. It will be understood by those skilled in the art that the configuration of the user data management device of the shared cote shown in fig. 5 does not constitute a limitation of the user data management device of the shared cote, and may include more or fewer components than those shown, or some components in combination, or a different arrangement of components.

The invention also provides user data management equipment of the shared accompanying bed, which comprises a memory and a processor, wherein the memory stores computer readable instructions, and when the computer readable instructions are executed by the processor, the processor executes the steps of the user data management method of the shared accompanying bed in the above embodiments.

The present invention also provides a computer-readable storage medium, which may be a non-volatile computer-readable storage medium, and which may also be a volatile computer-readable storage medium, having stored therein instructions, which, when run on a computer, cause the computer to perform the steps of the method for user data management of a shared carebed.

Further, the computer-readable storage medium may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function, and the like; the storage data area may store data created according to the use of the blockchain node, and the like.

The block chain is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, a consensus mechanism, an encryption algorithm and the like. A block chain (Blockchain), which is essentially a decentralized database, is a series of data blocks associated by using a cryptographic method, and each data block contains information of a batch of network transactions, so as to verify the validity (anti-counterfeiting) of the information and generate a next block. The blockchain may include a blockchain underlying platform, a platform product service layer, an application service layer, and the like.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. A user data management method of a shared accompanying bed is characterized by comprising the following steps:

receiving a sharing accompanying bed fault questionnaire filled by a target user through a preset user terminal, storing the filled sharing accompanying bed fault questionnaire to a preset user data management library, and generating to-be-processed user filled fault data according to the filled sharing accompanying bed fault questionnaire;

analyzing the fault data of the user filled fault data to obtain filled fault information corresponding to the user filled fault data, wherein the filled fault information comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user; specifically, keyword matching is performed on the fault data filled by the user according to a plurality of preset fault keywords to obtain a keyword matching result, wherein the keyword matching result comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user, wherein the keywords are the fault sharing accompanying bed, the fault sharing accompanying bed position and the fault type; the user reported fault data reported by the target user comprises a target fault sharing accompanying bed; the target user judges the fault type of the target fault sharing accompanying bed according to the self use experience to obtain the fault type reported by the user; extracting the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault types filled by the user to obtain filled fault information and outputting the filled fault information;

calling a preset fault self-checking model to carry out fault self-checking on the target fault shared accompanying bed to obtain fault self-checking information, wherein the preset fault self-checking model is called to carry out fault self-checking on the target fault shared accompanying bed to obtain fault self-checking information, and the method comprises the following steps: collecting monitoring index data corresponding to the target fault sharing accompanying bed based on a plurality of monitoring terminals preset in the target fault sharing accompanying bed; inputting the monitoring index data into a preset fault self-checking model, and carrying out abnormity detection on the monitoring index data through the fault self-checking model to obtain an abnormal index item; generating fault self-checking information corresponding to the target fault sharing accompanying bed according to the abnormal index item; specifically, monitoring index data corresponding to the target fault sharing accompanying bed is collected based on a plurality of monitoring terminals preset in the target fault sharing accompanying bed, and the monitoring terminals can be monitoring sensors and video collecting terminals; inputting the monitoring index data into a preset fault self-checking model, and carrying out abnormal detection on the monitoring index data through the fault self-checking model to obtain an abnormal index item, wherein the specific process of the abnormal detection is as follows: comparing the monitoring index data with standard index data in a preset fault self-checking model for data abnormity, and if the monitoring index data is detected to be abnormal, generating an abnormal index item; generating fault self-checking information corresponding to the target fault sharing accompanying bed according to the abnormal index item;

carrying out fault information comprehensive analysis on the fault self-checking information and the reported fault information to obtain fault initial checking data corresponding to the target fault sharing accompanying and attending bed, carrying out fault priority calculation on the fault initial checking data to obtain a fault priority level corresponding to the target fault sharing accompanying and attending bed, wherein carrying out fault information comprehensive analysis on the fault self-checking information and the reported fault information to obtain fault initial checking data corresponding to the target fault sharing accompanying and attending bed, carrying out fault priority calculation on the fault initial checking data to obtain a fault priority level corresponding to the target fault sharing accompanying and attending bed comprises the following steps: extracting a plurality of first fault indexes in the fault self-checking information, and extracting a plurality of second fault indexes corresponding to the filled fault information; matching the plurality of first fault indexes and the plurality of second fault indexes respectively to obtain matching results; generating fault initial detection data corresponding to the target fault sharing accompanying bed according to the matching result; generating a fault danger level of the target fault sharing accompanying bed according to the fault initial inspection data; matching a fault priority corresponding to the fault danger level according to the fault danger level to obtain a fault priority corresponding to the target fault sharing accompanying bed; the step of generating the fault danger level of the target fault shared accompanying bed according to the fault initial inspection data comprises the following steps: when structural damage exists in the fault initial inspection data, determining that the fault danger level of the target fault shared accompanying bed is high; when structural damage does not exist in the fault initial inspection data, determining that the fault danger level of the target fault shared accompanying bed is low;

matching a maintainer corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to a maintenance terminal of the maintainer to obtain maintenance terminal position information, and generating a maintenance map route according to the fault sharing accompanying bed position information and the maintenance terminal position information;

generating a maintenance strategy according to the maintenance map route, the fault initial inspection data and the fault priority level, and sending the maintenance strategy to the maintenance terminal; specifically, the maintenance map route, the fault initial inspection data and the fault priority level are packaged to generate a maintenance strategy of the target fault shared accompanying bed, and then the maintenance strategy is sent to the maintenance terminal, so that a maintainer can overhaul the target fault shared accompanying bed according to the maintenance strategy; after the target fault shared accompanying bed is submitted for inspection, inquiring an schedulable shared accompanying bed within a preset radius; generating a sharing accompanying bed scheduling strategy according to the schedulable sharing accompanying bed; and the maintenance personnel carry out sharing accompanying bed scheduling through the sharing accompanying bed scheduling strategy.

2. The method for managing user data of a shared accompanying bed according to claim 1, wherein the receiving of the fault questionnaire of the shared accompanying bed filled by the target user through a preset user terminal, the storing of the filled fault questionnaire of the shared accompanying bed into a preset user data management library, and the generating of the fault data filled by the user to be processed according to the filled fault questionnaire of the shared accompanying bed comprise:

acquiring user use time and judging whether the user use time is smaller than a preset threshold value according to the user use time;

if so, sending a shared accompanying bed fault questionnaire to a preset user terminal for a target user to fill in the questionnaire;

receiving a shared accompanying bed fault questionnaire filled by a target user through a preset user terminal;

storing the filled shared accompanying bed fault questionnaire to a preset user data management library;

inputting the filled shared accompanying bed fault questionnaire into a preset text recognition model for fault data extraction, and obtaining user filled fault data.

3. The user data management method of a shared nursing bed according to claim 1, wherein the fault data analysis is performed on the user filled-in fault data to obtain filled-in fault information corresponding to the user filled-in fault data, wherein the filled-in fault information includes: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user comprise:

performing keyword matching on the user filled fault data according to a plurality of preset fault keywords to obtain a keyword matching result, wherein the keyword matching result comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user;

and taking the keyword matching result as the filled fault information corresponding to the user filled fault data.

4. The user data management method of a shared accompanying bed as claimed in claim 1, wherein the matching of the maintainers corresponding to the target fault shared accompanying bed and the obtaining of the location information corresponding to the maintenance terminals of the maintainers obtain the location information of the maintenance terminals and the generation of the maintenance map route according to the location information of the fault shared accompanying bed and the location information of the maintenance terminals comprises:

matching a maintainer nearest to the target fault sharing accompanying bed according to the fault sharing accompanying bed position information, and acquiring position information corresponding to a maintenance terminal of the maintainer to obtain maintenance terminal position information;

setting the position information of the fault sharing accompanying bed as a terminal position, and setting the position information of the maintenance terminal as a starting position;

and inputting the end position and the starting position into a preset map application program, and generating a maintenance map route through the map application program.

5. The user data management method of a shared accompanying bed as claimed in any one of claims 1 to 4, wherein after the generating of the maintenance policy according to the maintenance map route, the initial fault detection data and the fault priority level and the sending of the maintenance policy to the maintenance terminal, the user data management method of a shared accompanying bed further comprises:

after the target fault shared accompanying bed is submitted for inspection, inquiring the schedulable shared accompanying bed within a preset radius;

and generating a sharing accompanying bed scheduling strategy according to the schedulable sharing accompanying bed.

6. A user data management apparatus of a shared accompanying bed, characterized by comprising:

the receiving module is used for receiving a sharing accompanying bed fault questionnaire which is reported by a target user through a preset user terminal, storing the reported sharing accompanying bed fault questionnaire into a preset user data management library, and generating to-be-processed user reporting fault data according to the reported sharing accompanying bed fault questionnaire;

the analysis module is used for analyzing the fault data of the user filled fault data to obtain filled fault information corresponding to the user filled fault data, wherein the filled fault information comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user; specifically, keyword matching is performed on the user filled fault data according to a plurality of preset fault keywords to obtain a keyword matching result, wherein the keyword matching result comprises: the target fault sharing accompanying bed, the fault sharing accompanying bed position information and the fault type reported by the user, wherein the keywords are the fault sharing accompanying bed, the fault sharing accompanying bed position and the fault type; the user filled fault data filled by the target user comprises a target fault sharing accompanying bed; the target user judges the fault type of the target fault sharing accompanying bed according to the self use experience to obtain the fault type reported by the user; extracting the target fault sharing accompanying bed, the position information of the fault sharing accompanying bed and the fault types reported by the users to obtain reported fault information and outputting the reported fault information;

the self-checking module is used for calling a preset fault self-checking model to carry out fault self-checking on the target fault sharing accompanying and attending bed to obtain fault self-checking information, wherein the preset fault self-checking model is called to carry out fault self-checking on the target fault sharing accompanying and attending bed to obtain fault self-checking information, and the fault self-checking module comprises: collecting monitoring index data corresponding to the target fault sharing accompanying bed based on a plurality of monitoring terminals preset in the target fault sharing accompanying bed; inputting the monitoring index data into a preset fault self-checking model, and carrying out abnormity detection on the monitoring index data through the fault self-checking model to obtain an abnormal index item; generating fault self-checking information corresponding to the target fault sharing accompanying bed according to the abnormal index item; specifically, monitoring index data corresponding to the target fault sharing accompanying bed is collected based on a plurality of monitoring terminals preset in the target fault sharing accompanying bed, and the monitoring terminals can be monitoring sensors and video collecting terminals; inputting the monitoring index data into a preset fault self-checking model, and carrying out abnormal detection on the monitoring index data through the fault self-checking model to obtain an abnormal index item, wherein the specific process of the abnormal detection is as follows: comparing the monitoring index data with standard index data in a preset fault self-checking model for data abnormity, and if the monitoring index data is detected to be abnormal, generating an abnormal index item; generating fault self-checking information corresponding to the target fault sharing accompanying bed according to the abnormal index item;

processing module, be used for right fault self-checking information with fill out fault information and carry out fault information integrated analysis, obtain the fault primary inspection data that target fault sharing accompanies and attends to bed correspondence, and right fault primary inspection data carries out the fault priority and calculates, obtains the fault priority that target fault sharing accompanies and attends to the bed correspondence, wherein, right fault self-checking information with fill out fault information and carry out fault information integrated analysis, obtain the fault primary inspection data that target fault sharing accompanies and attends to bed correspondence, and right fault primary inspection data carries out the fault priority and calculates, obtains the fault priority that target fault sharing accompanies and attends to the bed correspondence includes: extracting a plurality of first fault indexes in the fault self-checking information, and extracting a plurality of second fault indexes corresponding to the filled fault information; matching the plurality of first fault indexes and the plurality of second fault indexes respectively to obtain matching results; generating fault initial inspection data corresponding to the target fault sharing accompanying bed according to the matching result; generating a fault danger level of the target fault sharing accompanying bed according to the fault initial inspection data; matching a fault priority corresponding to the fault danger level according to the fault danger level to obtain a fault priority corresponding to the target fault sharing accompanying bed; the generating of the fault danger level of the target fault shared accompanying bed according to the fault initial examination data comprises the following steps: when structural damage exists in the fault initial inspection data, determining that the fault danger level of the target fault shared accompanying bed is high; when structural damage does not exist in the fault initial inspection data, determining that the fault danger level of the target fault shared accompanying bed is low;

the generating module is used for matching a maintainer corresponding to the target fault sharing accompanying bed, acquiring position information corresponding to a maintenance terminal of the maintainer, acquiring position information of the maintenance terminal, and generating a maintenance map route according to the position information of the fault sharing accompanying bed and the position information of the maintenance terminal;

the sending module is used for generating a maintenance strategy according to the maintenance map route, the initial fault detection data and the fault priority level and sending the maintenance strategy to the maintenance terminal; specifically, the maintenance map route, the fault initial inspection data and the fault priority level are packaged to generate a maintenance strategy of the target fault shared accompanying bed, and then the maintenance strategy is sent to the maintenance terminal, so that a maintainer can overhaul the target fault shared accompanying bed according to the maintenance strategy; after the target fault shared accompanying bed is submitted for inspection, inquiring the schedulable shared accompanying bed within a preset radius; generating a sharing accompanying bed scheduling strategy according to the schedulable sharing accompanying bed; and the maintainer carries out sharing accompanying bed scheduling through the sharing accompanying bed scheduling strategy.

7. A user data management apparatus of a shared accompanying bed, characterized by comprising: a memory and at least one processor, the memory having instructions stored therein;

the at least one processor invokes the instructions in the memory to cause the user data management apparatus of the shared attendant bed to perform the user data management method of the shared attendant bed as set forth in any one of claims 1 to 5.

8. A computer-readable storage medium having instructions stored thereon, wherein the instructions, when executed by a processor, implement the user data management method of a shared nursing bed according to any one of claims 1 to 5.

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