CN116450098A - Digital cockpit of digital cloud desktop system based on business trip industry - Google Patents

Abstract

The invention discloses a digital cockpit of a digital cloud desktop system based on the business travel industry, which relates to the technical field of computer software, and comprises a data architecture and a data platform, wherein the data architecture is used for sorting business requirements and data applications of the business travel industry to obtain sorting results, the data architecture is also used for obtaining data corresponding to the sorting results and analyzing the data to obtain analysis results, and the data platform is used for displaying the analysis results; the data set module is integrated in the data architecture and is used for integrating application data of various preset data sources; the construction module is integrated in the data platform and is used for displaying analysis results by adopting at least one component; the analysis submodule is used for: establishing an interaction rule between application data based on the data type of the application data; and based on the interaction rule, the analysis submodule analyzes the application data to obtain a first analysis result. The invention can realize the digital management and use of the cloud desktop system.

Description

Digital cockpit of digital cloud desktop system based on business trip industry

Technical Field

The invention relates to the field of computer software, in particular to a digital cockpit of a digital cloud desktop system based on the business and travel industry.

Background

Nowadays, people are increasingly pursuing mental culture, so that the business industry is actively developed, and the method has important influence and significance on life, economic development of various places and the like of people. Meanwhile, the business systems in the text traveling industry are more and more complicated, and the problem that the business systems in the text traveling industry are more and more complicated is solved by integrating a plurality of business systems through a digital cloud desktop system at present. However, the digital cloud desktop system based on the business industry cannot realize digital management and use after application integration, and cannot fuse the service data of the integrated application, and effective linkage between data sources and data in the system is also lacking, for example, the business amount of scenic spots is 100 ten thousand, but the problems of 100 ten thousand of reasons such as increase or decrease of data sources, compositions and amounts cannot be intuitively displayed to users or managers through the existing cloud desktop system.

Disclosure of Invention

In order to realize the digital management and the use of the digital cloud desktop system based on the business trip industry, the invention provides a digital cockpit of the digital cloud desktop system based on the business trip industry, which comprises a data architecture and a data platform, wherein the data architecture is used for sorting business requirements and data applications of the business trip industry to obtain a sorting result, and the data architecture is also used for obtaining data corresponding to the sorting result and analyzing the data to obtain an analysis result, and the data platform is used for displaying the analysis result;

the data set module is integrated in the data architecture and is used for integrating application data of various preset data sources;

the construction module is integrated in the data platform and is used for displaying the analysis result by adopting at least one component;

an analysis submodule integrated in the dataset module, the analysis submodule being configured to:

establishing an interaction rule between the application data based on the data type of the application data;

and based on the interaction rule, the analysis submodule analyzes the application data to obtain a first analysis result.

The existing cloud desktop system solves the problems of more and miscellaneous business systems in the text traveling industry though application integration, but cannot realize digital management and use, so the problems are solved through a digital cockpit, the digital cockpit consists of a data architecture and a data platform, the data architecture is used for sorting business requirements and data applications in the business industry, so that the data which are required to be collected and analyzed are clearly known, and the data analysis results are uniformly displayed and managed through the data platform. The data set module is used for integrating and adapting data of various data sources, and the construction module is used for generating components to display analysis results. Meanwhile, the existing digital cloud desktop system has the defect that data among data sources still lack effective linkage, but in reality, the data among the data sources are linked, so that the effective linkage of the data is realized by arranging an analysis submodule, and a more comprehensive and reliable result can be obtained when the application data is analyzed.

Preferably, a plurality of first data types are defined in the data acquisition module;

acquiring the data types of the application data, performing one-to-one matching with all the first data types, and classifying and collecting the application data corresponding to the successfully matched data types;

and storing the application data obtained by classified acquisition into a preset memory in a classified manner and transmitting the application data to a communication module, wherein the communication module is used for establishing a communication relationship between the data set module and the plurality of preset data sources.

The method has the advantages that the classified collection of the application data is realized in a mode that the data types of the application data are matched with all the first data types one by one, the classified collection is beneficial in that the collected data do not need to be subjected to classified treatment, and the application data after the classified collection can be transmitted to the data set module through the communication module, so that the collection efficiency of the data is improved as a whole.

Preferably, the analysis sub-module is further configured to:

acquiring a second data type of the application data;

based on the second data type, acquiring historical application data matched with the second data type in the preset memory;

and the analysis sub-module analyzes the application data and the corresponding historical application data to obtain a second analysis result.

The conventional application data and the historical application data are subjected to longitudinal comparison analysis, such as the same-cycle-ratio data and the like, so that a user or a manager can know the development and change process of a certain data index, and the development rule of the data index is revealed, thereby providing an auxiliary decision for the manager.

Preferably, the digital cockpit further comprises a data transmission module integrated in the data architecture, and the data transmission module is used for:

establishing a matching relation between the component information in the data platform and the application data;

different transmission rules are preset for different components in the data platform;

and based on the matching relation and the transmission rule, the data transmission module transmits the application data to the data platform.

In the process of transmitting the application data to the data platform, the data platform displays the data information through various components, so that the application data to be transmitted for different components is different, and in the process of transmitting the application data to the components, as for each component, the transmission rules may have differences when uploading the application data, if some components need to collect real-time data only once in a preset time period, some components only need to collect data once, so that the application data is transmitted to the data platform by setting the matching relation between the components and the application data and setting the transmission rules, thereby ensuring the accuracy of data transmission and simultaneously saving resources as much as possible.

Preferably, at least one set of data encapsulation specifications is preset for data transmission between the communication module and the data set module. After the data is packaged, the data transmission can be more reliably and accurately performed, and meanwhile, transmission resources can be efficiently utilized.

Preferably, the digital cockpit further comprises a monitoring module integrated in the data architecture, the monitoring module being configured to: and monitoring the application data in real time, and displaying and notifying event information corresponding to third application data on the data platform when the fact that the third application data meet a second preset requirement exists in the application data is monitored. The digital cloud desktop system generates some tasks to be done or information to be audited and the like in operation, and if each application is operated to finish the tasks to be done, time is wasted, so that the tasks to be done or the information to be audited are presented on a data platform through a design monitoring module, and a user can directly process the tasks to be done on the data platform, so that the processing efficiency is improved.

Preferably, the digital cockpit further includes an early warning module integrated in the data architecture, and the early warning module is configured to: and monitoring the application data in real time, and performing instant early warning on the data platform when the occurrence of abnormality of fourth application data in the application data is monitored. The application data is monitored and early-warned, when abnormality of the application data is detected, such as system problems, bug is detected, or the flow of people in a scenic spot is detected to exceed a threshold value, if early-warned is not timely carried out, bad results are possibly generated.

Preferably, the digital cockpit further comprises a component management submodule integrated in the construction module, wherein the component management submodule is used for carrying out style management on the components. Each component has its own style, such as a chart, bar chart, or line graph, and the user can design the style and style of the component through the component management sub-module.

Preferably, the digital cockpit further comprises a user module integrated in the data architecture, the user module being configured to implement the following steps: acquiring user login information; and acquiring authority information of the digital cockpit based on the user login information. And according to different posts and different levels of distinguishing authorities, personalized interfaces and contents are presented, so that the data security is protected to the greatest extent.

Preferably, the building block employs a Smartbi module. The Smartbi module can provide a customized and automatic data cockpit construction mode, a user can improve the efficiency of constructing the assembly by means of the Smartbi module, and the work load can be reduced to a great extent.

The one or more technical schemes provided by the invention have at least the following technical effects or advantages:

the invention can realize the digital management and use of the digital cloud desktop system based on the business and travel industry, and simultaneously realize the effective linkage of data among all data sources of the cloud desktop system.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention;

fig. 1 is a schematic diagram of the components of a digital cockpit of a digital cloud desktop system based on the travel industry in the present invention.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description. In addition, the embodiments of the present invention and the features in the embodiments may be combined with each other without collision.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than within the scope of the description, and the scope of the invention is therefore not limited to the specific embodiments disclosed below.

Example 1

Referring to fig. 1, a schematic diagram of a digital cockpit of a digital cloud desktop system based on the text industry in the present invention is shown, where the cockpit includes a data architecture and a data platform, the data architecture is used for sorting business requirements and data applications of the text industry to obtain a sorting result, the data architecture is further used for obtaining data corresponding to the sorting result and analyzing the data to obtain an analysis result, and the data platform is used for displaying the analysis result;

the data set module is integrated in the data architecture and is used for integrating application data of various preset data sources;

the construction module is integrated in the data platform and is used for displaying the analysis result by adopting at least one component;

an analysis submodule integrated in the dataset module, the analysis submodule being configured to:

establishing an interaction rule between the application data based on the data type of the application data;

and based on the interaction rule, the analysis submodule analyzes the application data to obtain a first analysis result.

Because the digital cloud desktop system integrates a plurality of applications, the services of the integrated applications are to be fused for use, and because a plurality of third party applications are not integrated into the digital cloud desktop system, how to fuse the third party application data and the service data of the cloud desktop system needs to integrate and adapt the application data of a plurality of data sources through the data set module.

For the analysis submodule, for example, the application data is the business of the current day of the scenic spot, the business of the scenic spot is composed of ticket sales data, souvenir sales data, tour guide service fees and snack drink sales data, then for the business of the scenic spot, the ticket sales data, souvenir sales data, tour guide service fees and snack drink sales data need to be counted, meanwhile, the business of the scenic spot is influenced by the environmental data and traffic data of the current day, for example, the current traffic jam or the low air quality can influence the travel willingness of tourists, thus influencing the business of the scenic spot, therefore, the interaction rule between the business data and the environmental data and the traffic data needs to be established, finally, based on the interaction rule, the analysis submodule carries out specific analysis on the business data to obtain an analysis result, and a scenic spot manager makes a corresponding decision based on the analysis result.

The digital cockpit is also provided with a semantic dictionary in advance and integrated in the data platform, and because the data platform displays analysis results, such as the same index of 'yield', the values of different reports are different, and the values are caused by inconsistent statistical caliber in the process of statistics, so that unified semantics are required in the process of data display, all index names displayed in the data platform are required to be recorded in the semantic dictionary, and the statistical caliber and definition of the semantic dictionary are definitely defined for the recorded indexes. If the data index to be displayed is found not to be found in the semantic dictionary before various data indexes are displayed through the data platform, the data index name is required to be sent to a preset platform for verification, the data index name is added into the semantic dictionary after verification is passed, and finally the data platform can display the data index.

The digital cockpit further comprises a data acquisition module integrated in the data architecture, wherein the data acquisition module is used for:

defining a plurality of first data types in the data acquisition module;

acquiring the data types of the application data, performing one-to-one matching with all the first data types, and classifying and collecting the application data corresponding to the successfully matched data types;

and storing the application data obtained by classified acquisition into a preset memory in a classified manner and transmitting the application data to a communication module, wherein the communication module is used for establishing a communication relationship between the data set module and the plurality of preset data sources.

Defining a plurality of first data types in a data acquisition module, distinguishing according to the source, the user, the time sequence and other dimensions, classifying the data into service types, abnormal types, log types and index types, and classifying the data again according to the types to ensure that the data has layering property and dependency. When data acquisition is carried out, only the data types of application data to be acquired are matched with the first data types one by one, so that the effect of classified acquisition is achieved. The preset memory may be selected from SRAM, RAM or ROM series memory, and may be selected according to actual needs, which is not particularly limited in the present invention.

Dirty data in the application data is processed before classified collection, and the dirty data types comprise four types of data missing, data repeated, data error and data unavailable. The reasons for the absence of data, the absence of some records, the absence of some values (null values) in one record, or the absence of both, may be various, and the possibility of systematic or artificial results exists, if null values exist, in order not to affect the accuracy of the subsequent analysis, or not to bring the null values into the analysis range, the sample size of the analysis is reduced, or the value is complemented, and the filling needs to be selected with average, zero or equal proportion random numbers and the like according to the calculation logic of the analysis. If the backup data exists, the backup data is directly introduced, and if the backup data does not exist, the compensation is needed or the null value is not included in the analysis range.

And repeating the data, wherein a plurality of identical records appear, and removing the repeated records. However, for the records which are not completely repeated, for example, two member records, the rest values are the same, but the addresses are different, and the two member records have no time data and cannot be judged by the time attribute, and for the data, a manual judgment process is required.

Data errors, data are not recorded exactly in the specification. Such as outliers, price intervals within 100, but there are records with data prices equal to 200; such as a format error, the date format is recorded as a string; for example, the data is not uniform, for example, there are recorded data of Beijing, BJ and beijin for the place name of Beijing. For abnormal values, exclusion can be found by interval definition, e.g., a price interval of 0 to 50, and for price data exceeding 50, abnormal data. For format errors, data that does not conform to the format is looked up by the internal logic structure of the system. And for data non-unification, establishing a cleaning rule table, wherein the first column is an original value, the second column is a cleaning value, and providing a matching relation between the original value and the cleaning value, and unifying the data through the cleaning rule table.

The data is not available, the data is correct, but not available. For example, the address is recorded as "Chengdu Gao Xin", if the area of the "region" level is to be analyzed, the "Gao Xin" needs to be split for use, for the dirty data, firstly, matching is performed through preset keywords to find out relevant fields, and then the text function is utilized to split the needed data.

Wherein the analysis sub-module is further configured to:

acquiring a second data type of the application data;

based on the second data type, acquiring historical application data matched with the second data type in the preset memory;

and the analysis sub-module analyzes the application data and the corresponding historical application data to obtain a second analysis result.

For example, the second data type is the data type of the tourist volume, firstly, the tourist volume of the current month of a certain scenic spot is obtained, then, the same-ratio data and the ring-ratio data of the current month of the tourist volume are obtained, and the manager can be helped to clearly know the change trend of the current scenic spot of the tourist volume by comparing and analyzing the data of the current month of the tourist volume with the historical data (same-ratio data), so that the next decision is made; by comparing and analyzing the current data of the tourist volume with the historical data (loop ratio data), the manager can be helped to know which months are the time when the tourist is willing to travel and which months are the time when the tourist is unwilling to travel in one year, for the months with larger tourist volume, the scenic spot manager can make preventive and current limiting measures in advance, and for the months with smaller tourist volume, the scenic spot manager can push out some drainage activities to attract the tourist.

The digital cockpit further comprises a data transmission module integrated in the data architecture, wherein the data transmission module is used for:

establishing a matching relation between the component information in the data platform and the application data;

different transmission rules are preset for different components in the data platform;

and based on the matching relation and the transmission rule, the data transmission module transmits the application data to the data platform.

For example, the component information comprises a pie chart, a line graph and a histogram, the pie chart corresponds to the composition and proportion of business sales of a scenic spot in one day, the line graph corresponds to the air humidity change condition in the scenic spot in one day, the histogram corresponds to the number of tourists in different age groups in the scenic spot in one day, the pie chart component is preset to transmit data once every 4 hours and adopts a transmission rule of low-rate transmission, the line chart component is preset to transmit data in real time and adopts a transmission rule of high-rate transmission, the histogram component is preset to transmit data once every 6 hours and adopts a transmission rule of low-rate transmission, and the application data is transmitted to a data platform based on a matching relation and the corresponding transmission rule, so that the accuracy of data transmission is ensured and resources are saved as much as possible.

At least one set of data packaging specifications is preset for data transmission between the communication module and the data set module. The data encapsulation is to map service data into a payload of a certain encapsulation protocol, then fill a packet header of a corresponding protocol to form a data packet of the encapsulation protocol, and complete rate adaptation, and when the data packet is transmitted between different devices by using a network, in order to reliably and accurately send the data packet to a destination and efficiently utilize transmission resources, the data packet needs to be split and packed, and a target address, a local address and a plurality of bytes for error correction are added to the sent data packet. The invention presets a set of data encapsulation specifications based on Json format, including the following,

json format:

{

"touser (recipient)": "",

"app ID (application ID)": "",

"template ID": "",

"title (message title)": "",

"data (message content)": [

{“key1”：“”}，

{“key2”：“”}，

{“key3”：“”}，

]

"page (link)": ""

}

The digital cockpit further comprises a monitoring module integrated in the data architecture, wherein the monitoring module is used for: and monitoring the application data in real time, and displaying and notifying event information corresponding to third application data on the data platform when the fact that the third application data meet a second preset requirement exists in the application data is monitored. For example, when the third data is monitored to be the order data of the order for the commodity purchased by the customer, the order data needs to be checked, the order data is displayed on the data platform and notified, and the manager can notify the data platform to check the order data directly, so that the checking efficiency is improved. If the digital cloud desktop system is used, a specific application needs to be clicked to audit the order data, the operation is troublesome and the time is long, and especially when tasks to be handled or information to be audited is too much and miscellaneous, different applications need to be clicked to process, the time is long, and therefore the problems are solved through the design of the monitoring module.

The digital cockpit further comprises an early warning module which is integrated in the data architecture and is used for: and monitoring the application data in real time, and performing instant early warning on the data platform when the occurrence of abnormality of fourth application data in the application data is monitored. The abnormal application data can be abnormal system data, such as problems in the system or bugs in the application in the system, or abnormal externally monitored data, such as the exceeding of the concentration of suspended particles in the environment or the exceeding of the set threshold value of the flow of people in a certain scenic spot, which belong to abnormal data, so that the instant early warning is needed on the data platform, so that a manager or a user can timely process related problems, and larger loss is avoided.

The digital cockpit further comprises a component management submodule which is integrated in the construction module and is used for carrying out style management on the components. Each component has a style, such as a chart, a bar chart or a line graph, for example, the color of the chart can be blue, yellow or red, and the component management submodule is used for designing and managing the style of the component, so that the component is personalized and customized, and the interactivity of a user or a manager and a digital cockpit is improved.

The digital cockpit further comprises a user module integrated in the data architecture, wherein the user module is used for realizing the following steps: acquiring user login information; and acquiring authority information of the digital cockpit based on the user login information. In order to protect data safety to the maximum extent, and meanwhile, in order to present personalized interfaces and contents according to different posts and levels, a user module is arranged, for example, for a common employee and an administrator, the user module is preferred to acquire login information of the common employee and the administrator so as to distinguish the common employee from the administrator, if the common employee is identified, the authority information of a digital cockpit corresponding to the common employee is acquired, and if the common employee is identified, the authority information of the digital cockpit corresponding to the administrator is acquired.

Wherein, the building block adopts a Smartbi module. The Smartbi module has a powerful 'story board function', a user can organize a plurality of charts on the same panel to output a story board, and a slide show can be directly generated through text boxes, components, charts and the like, so that the user can quickly report without exporting data and charts, and the business problem is solved in time. Meanwhile, the Smartbi module can provide a customized and automatic digital cockpit construction mode, so that the work load is reduced to a great extent.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. The digital cockpit of the digital desktop system based on the business trip industry is characterized by comprising a data architecture and a data platform, wherein the data architecture is used for sorting business requirements and data applications of the business trip industry to obtain sorting results, the data architecture is also used for obtaining data corresponding to the sorting results and analyzing the data to obtain analysis results, and the data platform is used for displaying the analysis results;

the data set module is integrated in the data architecture and is used for integrating application data of various preset data sources;

the construction module is integrated in the data platform and is used for displaying the analysis result by adopting at least one component;

an analysis submodule integrated in the dataset module, the analysis submodule being configured to:

establishing an interaction rule between the application data based on the data type of the application data;

and based on the interaction rule, the analysis submodule analyzes the application data to obtain a first analysis result.

2. The digital cockpit of a digital desktop system of claim 1 further comprising a data acquisition module integrated into the data architecture, the data acquisition module configured to:

defining a plurality of first data types in the data acquisition module;

acquiring the data types of the application data, performing one-to-one matching with all the first data types, and classifying and collecting the application data corresponding to the successfully matched data types;

and storing the application data obtained by classified acquisition into a preset memory in a classified manner and transmitting the application data to a communication module, wherein the communication module is used for establishing a communication relationship between the data set module and the plurality of preset data sources.

3. A digital cockpit of a digital desktop system based on the business of travel according to claim 2, wherein said analysis sub-module is further configured to:

acquiring a second data type of the application data;

based on the second data type, acquiring historical application data matched with the second data type in the preset memory;

and the analysis sub-module analyzes the application data and the corresponding historical application data to obtain a second analysis result.

4. The digital cockpit of a digital desktop system of claim 1 further comprising a data transmission module integrated into the data architecture, the data transmission module configured to:

establishing a matching relation between the component information in the data platform and the application data;

different transmission rules are preset for different components in the data platform;

and based on the matching relation and the transmission rule, the data transmission module transmits the application data to the data platform.

5. A digital cockpit of a digital desktop system according to claim 1, wherein at least one set of data package specifications is preset for data transmission between said communication module and said data set module.

6. The digital cockpit of a digital desktop system of claim 1, further comprising a monitoring module integrated into the data architecture, the monitoring module configured to: and monitoring the application data in real time, and displaying and notifying event information corresponding to third application data on the data platform when the fact that the third application data meet a second preset requirement exists in the application data is monitored.

7. The digital cockpit of a digital desktop system of claim 1, further comprising an early warning module integrated into the data architecture, the early warning module configured to: and monitoring the application data in real time, and performing instant early warning on the data platform when the occurrence of abnormality of fourth application data in the application data is monitored.

8. The digital cockpit of a digital desktop system according to claim 1, further comprising a component management sub-module integrated into the building module, the component management sub-module configured to perform style management on the component.

9. The digital cockpit of a digital desktop system based on the business of claim 1, further comprising a user module integrated in the data architecture, said user module for implementing the steps of: acquiring user login information; and acquiring authority information of the digital cockpit based on the user login information.

10. The digital cockpit of a digital desktop system of claim 1 wherein said building block is a Smartbi block.