CN109636307B - River chang APP system - Google Patents

Abstract

The invention relates to a river chang APP system, which sequentially comprises from bottom to top: the system comprises a sensing layer, a network layer, an IAAS layer, a DAAS layer, a PAAS layer, an SAAS layer and an interaction layer; the sensing layer is used for providing multi-source data required by the business application of the river reach APP for an upper layer structure; the IAAS layer is used for integrating infrastructure of terminal equipment where the river reach APP is located; the DAAS layer is used for providing access service of public data; the PAAS layer is used for providing a unified platform application support service; the SAAS layer is used for providing service application; the interaction layer is used for providing a user interaction interface. The river reach APP system adopts a system structure related to a cloud computing service mode, so that not only can timely collection and report of river reach data be realized, but also complex functions such as analysis and statistics of river reach information at all levels can be realized.

Description

River chang APP system

Technical Field

The invention relates to the technical field of application programs, in particular to an APP system for river growers.

Background

With the development of society, people pay more and more attention to the environment on which people live, wherein, the important work of further strengthening the river and lake management and protection work is one of the key works, namely, the main responsible person of each level of Chinese administration plays a role of 'river length', and is responsible for organizing and leading the management and protection work of the corresponding rivers and lakes. The daily work of the river master comprises river patrol so as to find the pollution problem of the river in time and report the problem.

At present, after a river reach patrols the river, the relative river patrol work can be recorded and reported only by manually inputting the relative river patrol information, so that the river reach patrolling information and events cannot be reported in time, the river patrol recording is delayed or even is lost, and the river reach management is not facilitated.

Aiming at the problem, at present, no corresponding mobile terminal application program exists temporarily, and the automatic reporting, analysis and statistics of the daily river patrol work information of the river leader can be supported.

Disclosure of Invention

In view of the above, there is a need to provide an estuary APP system.

The embodiment of the invention provides a river chang APP system, which sequentially comprises the following components from bottom to top: the system comprises a sensing layer, a network layer, an IAAS layer, a DAAS layer, a PAAS layer, an SAAS layer and an interaction layer;

the sensing layer is used for providing multi-source data required by the business application of the river reach APP for an upper layer structure;

the network layer is used for realizing data transmission;

the IAAS layer is used for providing physical environment support for data storage and data calling of business application of the river chang APP through infrastructure integration of terminal equipment where the river chang APP is located;

the DAAS layer is used for providing access service of public data for business application of the river leader APP;

the PAAS layer is used for providing a uniform platform application support service for the business application of the river reach APP;

the SAAS layer is used for providing service application for the users of the river chang APP;

the interaction layer is used for providing a user interaction interface for the user of the river reach APP.

In one embodiment, the sensing layer is specifically configured to obtain multi-source data through a plurality of engineering monitoring devices, realize data interaction of a plurality of relevant departments by using a front exchange acquisition platform, and provide multi-source data required by business application of the estuary APP for an upper layer.

In one embodiment, the plurality of engineering monitoring devices comprises: at least two of water quality monitoring equipment, flow monitoring equipment, water level monitoring equipment, rainfall monitoring equipment, remote sensing satellite monitoring equipment and video monitoring equipment;

the plurality of relevant departments comprises: at least two of the water department, the homeland planning department, the traffic department, the residential and construction department, the agricultural department, the environmental protection department and the public security department.

In one embodiment, the network layer is specifically configured to implement secure and stable data transmission through a public network or a private network by using at least one of technologies of optical fiber, GPRS, 3G, 4G, satellite, and short-wave transmission.

In one embodiment, the IAAS layer is specifically configured to integrate a plurality of basic facilities through a virtualization technology to construct a cloud support, so as to implement monitoring management and resource allocation scheduling management of a plurality of basic facilities, and provide a physical environment support for data storage and data call of the estuary APP;

wherein the plurality of infrastructures includes: at least two of server, switch, router, firewall, cabinet, UPS.

In one embodiment, the DAAS layer is specifically configured to implement integration of multidimensional data by using a data mining technology and a data association analysis technology, implement query and classification statistics functions, and provide data resources for data capture of the SAAS layer;

the multi-dimensional data includes: the system comprises business cooperation data, river growth business static data and river growth business dynamic data.

In one embodiment, the service coordination data includes: at least two items of water level data, rainfall data, meteorological data, work condition data, video data and water quality data;

the static data of the river growth service comprises: at least two of river reach, administrative region, river chang, lake chang, remote sensing image, working scheme, conference system, information reporting system, working supervising system, assessment and accountability system, incentive system, first river grade and first river grade data;

the dynamic data of the river growth business comprises at least two of data of river patrol management, event processing, spot check and supervision, assessment and evaluation, social supervision and water administration law enforcement.

In one embodiment, the PAAS layer further comprises: GIS service (geographic information service), system service support, public application service bus, intelligent application component support platform, support component, middleware, ESB bus, EAI integration and ETL extraction;

wherein the system service support comprises: a system application support service and a mobile application support service;

the smart application component support platform comprises: the system comprises a river leader scheduling model component, a river leader patrolling and performing evaluation component, an intelligent early warning component and a data mining component;

the support assembly includes: the system comprises a business component, a flow component, a data component, a message component, a monitoring component, an interaction component, an interface component, a river length and river reach directory component, a river length and river reach management component, a river length report component and a river length identity authentication and access authentication interface;

the middleware includes: BI tools, message middleware, estuary report middleware, integration middleware and portal server middleware.

In one embodiment, the SAAS layer is specifically configured to provide one or more of the following service applications for the user of the estuary APP: daily work, instant messaging, river tour by river captain, statistical analysis and my correlation;

the business functions corresponding to the daily work comprise: one or more items of picture carousel, transaction processing, special columns, special subjects, river patrol dynamics and special column postings;

the service function corresponding to the instant messaging comprises the following steps: one or more of a session, an address book, and a workgroup;

the service functions corresponding to the river patrolling of the river reach comprise: one or more items of information of river patrol, problem report, river patrol diversification, local draft box and historical report;

the service functions corresponding to the statistical analysis comprise: one or more of river reach APP installation statistics, river reach attendance statistics and river reach patrol statistics;

the my relevant corresponding business functions include: one or more of my check-in, my river channel, my patrol river, my weekly newspaper, my river length, my score, account number setting, river patrol authority setting and legal statement.

In one embodiment, the interaction layer is specifically configured to provide a first user interaction interface compliant with an android system and/or a second user interaction interface compliant with an iOS system for the user.

One of the above technical solutions has the following advantages or beneficial effects: by adopting a system structure related to a cloud computing service mode, the river reach patrol data can be timely collected and reported, complex functions such as analysis and statistics of river reach patrol information at all levels can be realized, and intelligent river patrol is further realized.

Drawings

FIG. 1 is a diagram of an embodiment of an application environment for a river length system;

FIG. 2 is a schematic block diagram of a estuary APP system in accordance with an embodiment;

FIG. 3 is a schematic block diagram of a sensing layer in the estuary APP system according to an embodiment;

FIG. 4 is a schematic block diagram of a network layer in the Hechang APP system according to an embodiment;

FIG. 5 is a schematic block diagram of an IAAS layer in the estuary APP system according to an embodiment;

FIG. 6 is a schematic block diagram of the DAAS layer in the estuary APP system according to an embodiment;

FIG. 7 is a schematic block diagram of the PAAS layer in the estuary APP system according to an embodiment;

FIG. 8 is a schematic block diagram of the SAAS layer in the estuary APP system according to an embodiment;

fig. 9 is a schematic structural diagram of an interaction layer in the estuary APP system according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The river length APP provided by the application can be applied to the application environment shown in fig. 1. The terminal 102 communicates with the cloud 104 through a network. Wherein, terminal 102 can be but not limited to various personal computer, notebook computer, smart mobile phone, panel computer and portable wearable equipment, installs the river reach APP in the terminal 102, and this river reach APP can be used for realizing the automatic acquisition and the report of river reach patrol information to and the history of automatic recording river reach patrol information, and be used for realizing patrolling river information to the river reach and carry out the analysis statistics, and show the result of analysis statistics through terminal 102's user interface.

The cloud 104 may be implemented by an independent server or a server cluster composed of a plurality of servers.

In one embodiment, as shown in fig. 2, wherein the estuary APP installed in the terminal 102 system has a system structure that, from bottom to top, includes: the system comprises a sensing layer, a network layer, an IAAS layer, a DAAS layer, a PAAS layer, an SAAS layer and an interaction layer; the function of the layers and the interaction between the layers is explained as follows:

in the river reach APP system, the bottom layer is a sensing layer used for providing multi-source data required by business application of the river reach APP for an upper layer structure;

a network layer is arranged above the sensing layer and used for realizing data transmission; the specific way of implementing data transmission by the network layer may be the existing data transmission way, which is not limited to this;

and an IAAS layer is arranged above the network layer and is used for providing physical environment support for data storage and data calling of the business application of the river leader APP through infrastructure integration of the terminal equipment where the river leader APP is located.

IAAS is an abbreviation for Infrastructure as a server, meaning Infrastructure as a service. The cloud company builds infrastructure of the IT environment, and then directly rents a hardware server or a virtual machine to the outside; consumers can leverage all of the computing infrastructure, including processing CPUs, memory, storage, networks, and other basic computing resources, and users can deploy and run arbitrary software, including operating systems and applications. Consumers do not manage or control any cloud computing infrastructure, but can control operating system selection, storage space, deployed applications, and possibly limited network components (e.g., routers, firewalls, load balancers, etc.). The IAAS-type leasing method has advantages for users including: it is very flexible and is also the type of the greatest freedom, the user can decide what operating system to install, and whether or not it is necessary to install or install what type of database, what software to install, etc.

And the DAAS layer above the IAAS layer is used for providing public data access service for the business application of the river chang APP.

DaaS is an abbreviation of Date as a Server, meaning data as a service. The cloud company is responsible for establishing all IT environments, collecting basic data required by a user and performing data analysis, and finally providing a programming interface for an analysis structure or algorithm to enable the data to become a service.

And the PAAS layer above the DAAS layer is used for providing a uniform platform application support service for the business application of the river chang APP.

PAAS is an abbreviation of Platform as a Server, meaning Platform as a service, i.e., a Platform running software required by a user is rented as a service. The cloud company needs to do the fact that the lower layer deployment required by software running is completed, then small blocks (which are conventionally called as containers) are divided on the PAAS for renting out, and the tenant only needs to install and use the software.

And the SAAS layer above the PAAS layer is used for providing service application for the users of the river chang APP.

SAAS is an abbreviation of Software as a Server, meaning Software as a service. The software is rented out, and the user does not need to install the software. Compared with the PAAS layer, the SAAS layer provides business applications that are installed, operated and maintained by cloud companies, and tenants use software and need to manage data information generated by the software.

Generally, the service application applicable to the SAAS layer has the following characteristics: the complexity is as follows: the software is large, complex to install, complex to use, complex to operate and maintain, and expensive to buy a framework separately, such as ERP, CRM, BI and the like. Modularization: the functions are divided according to the functional modules, and the functions are grouped into the modules. Multi-tenant: multiple enterprise users operate simultaneously, using the same software, rather than interfering with each other. Of course, the data is logically isolated, and one of the data retrieval fields of different users is necessarily user identity information. Support for multiple currencies, multiple languages and multiple time zones.

And an interaction layer above the SAAS, which is mainly used for providing a user interaction interface for the user of the river reach APP. The interaction layer is a layer of interaction with the river chang user and can be accessed in the form of a web browser or an APP application interface.

Cloud is a metaphor of the internet, and cloud computing is actually using the internet to access applications, data, or services stored or running on a remote server side. Any company that uses internet-based methods for computing, storage and development may be referred to in the art as a cloud company. In the field of cloud computing, the infrastructure is at the very bottom, with the PAAS layer above the IaaS layer and below the SAAS layer.

The river reach APP system of the embodiment adopts a system structure related to a cloud computing service mode, so that not only can timely collection and report of river reach river patrol data be realized, but also complex business functions such as analysis and statistics of river patrol information of all levels can be realized, and the intelligent river reach river patrol system is further realized.

Further, referring to fig. 3, in an embodiment, the sensing layer may be specifically configured to: the method comprises the steps of obtaining multi-source data through a plurality of engineering monitoring devices, realizing data interaction of a plurality of relevant departments by utilizing a front exchange acquisition platform, and providing multi-source data required by business application of the river reach APP for the upper layer.

Wherein the plurality of engineering monitoring devices may include: at least two of water quality monitoring equipment, flow monitoring equipment, water level monitoring equipment, rainfall monitoring equipment, remote sensing satellite monitoring equipment and video monitoring equipment; wherein the plurality of relevant departments may include: at least two of the water department, the homeland planning department, the traffic department, the residential and construction department, the agricultural department, the environmental protection department and the public security department.

Therefore, the sensing layer can provide multi-source data for the realization of the river chang APP through engineering monitoring equipment such as water quality, flow, water level, rainfall, remote sensing satellites and videos, and can also realize data interaction of relevant departments such as water affairs, homeland planning, traffic, residential building, agriculture, environmental protection and public security by utilizing the front exchange acquisition platform.

In some scenarios, as shown with reference to fig. 4, the network layer may be specifically configured to: and the safe and stable transmission of data is realized by utilizing at least one technology of optical fiber, GPRS, 3G, 4G, satellite and short-wave transmission through a public network or a private network.

Further, referring to fig. 5, in an embodiment, the IAAS layer may be specifically configured to: a plurality of basic facilities are integrated through a virtualization technology to construct a cloud support, monitoring management and resource allocation scheduling management of the basic facilities are achieved, and a physical environment support is provided for data storage and data calling of the river reach APP. Referring to fig. 3, a plurality of infrastructures may include: at least two of server, switch, router, firewall, cabinet, UPS.

In some scenarios, the IAAS provides services after integrated utilization of the computer infrastructure. Basic facilities such as a server, a switch, a router, a firewall, a cabinet and a UPS are reintegrated through a virtualization technology to construct a cloud support, so that monitoring management of the basic facilities and allocation and scheduling management of resources are realized, and a powerful physical environment support is provided for storage and calling of data.

Further, referring to fig. 6, in an embodiment, the DAAS layer may be specifically configured to: the integration of multidimensional data is realized by adopting a data mining technology and a data association analysis technology, the functions of query and classification statistics are realized, and data resources are provided for data capture of an SAAS layer.

In some scenarios, the multidimensional data comprises: the system comprises business cooperation data, river growth business static data and river growth business dynamic data.

In some scenarios, the business collaboration data includes: at least two items of water level data, rainfall data, meteorological data, work condition data, video data and water quality data;

in some scenarios, the river growth business static data includes: at least two of data of a river and a lake (river reach), administrative regions, a river chang, a lake chang, remote sensing images, a working scheme, a conference system, an information reporting system, a working supervision system, an assessment and accountability system, an incentive system, a river-grade and the like;

in some scenarios, the dynamic data of the river growth business comprises at least two of data of river patrol management, event processing, spot check supervision, assessment and evaluation, social supervision, water administration law enforcement and the like.

Therefore, the DAAS layer provides public data access service for business applications and provides potentially valuable information service in data, the data is divided into business cooperation data (water level data, rainfall data, meteorological data, work condition data, video data, water quality data and the like), river growth business static data (river reach, administrative district, river length, lake length, remote sensing image, working scheme, conference system, information reporting system, working supervision system, assessment and accountability system, incentive system, river-by-river system and the like), river growth business dynamic data (river patrol management, event processing, pump survey, assessment, social supervision, water administration law enforcement and the like), and the integration and sharing of the data are realized by using a data platform technology; the data mining technology and the data association analysis technology are fully utilized to realize the integration and utilization of the multidimensional data, the functions of query, classification statistics and the like are realized, and reasonable and effective data resources are further provided for data capture of the SAAS layer.

Further, the PAAS provides a uniform platform application support service for the business system, provides uniform platform public service support such as basic data access, data analysis, interface expression and the like for the business application system of the river growth APP, and can provide a uniform information service access interface for related departments. Referring to fig. 7, in an embodiment, the PAAS layer further includes: GIS services (geographic information services), system service support, common application service bus, intelligent application component support platform, support component, middleware, ESB bus, EAI integration, and ETL extraction.

Wherein the system service support may include: a system application support service and a mobile application support service; the smart application component support platform may include: the system comprises a river leader scheduling model component, a river leader patrolling and performing evaluation component, an intelligent early warning component and a data mining component. The support assembly may include: the system comprises a business component, a flow component, a data component, a message component, a monitoring component, an interaction component, an interface component, a river reach and river reach directory component, a river reach and river reach management component, a river reach report component and a river reach identity authentication and access authentication interface. The middleware may include: BI tools, message middleware, estuary report middleware, integration middleware and portal server middleware.

Further, the SAAS layer provides a comprehensive business application for the user of the estuary APP, and in an embodiment, as shown in fig. 8, the SAAS layer is specifically configured to provide one or more of the following business applications for the user of the estuary APP: daily work, instant messaging, river tour by river captain, statistical analysis and my correlation. The business functions corresponding to daily work may include: one or more items of picture carousel, transaction processing, special columns, special subjects, river patrol dynamics and special column postings; the service function corresponding to the instant messaging may include: one or more of a session, an address book, and a workgroup; the business functions corresponding to the river tour of the river reach can include: one or more items of information of river patrol, problem report, river patrol diversification, local draft box and historical report; the statistical analysis of the corresponding business function may include: one or more of river reach APP installation statistics, river reach attendance statistics and river reach patrol statistics; the my relevant corresponding business functions may include: one or more of my check-in, my river channel, my patrol river, my weekly newspaper, my river length, my score, account number setting, river patrol authority setting and legal statement.

In some scenarios, the business applications provided for the estuary APP by the SAAS layer may include daily work, instant messaging, estuary patrol, statistical analysis, my; the service applications are described as follows:

(1) daily work comprises page head picture carousel, transaction processing, special columns, special subjects, river patrol dynamics and special column message leaving;

in some scenes, in a daily work-processing problem interface, data is filled in a content input field, and data query can be realized by clicking query; in a problem interface in daily work-processing, any record is selectively opened, and detailed data information and a problem processing flow of the record are displayed; in a problem interface submitted by I in daily work, data query is realized according to 'condition selection' -fields of being accepted, being returned, being processed, being rechecked, being finished and inputting contents; in a problem interface submitted by the user during daily work, any record is selected to be clicked and checked, and detailed data information and a problem processing flow of the record can be displayed; in a daily work-news dynamic interface, selecting any news record to click and open, and normally displaying detailed data information of the news record; in a daily work-policy and regulation interface, any record is selected to be clicked and opened, and detailed data information of the record can be displayed; in a daily work-red blacklist interface, any record is selected to be clicked and opened, and detailed data information of the record can be displayed; in a daily work-affair disclosure interface, data query is realized according to 'condition selection' -area selection and a keyword input field; in a daily work-affairs open interface, any record is selected to be clicked and opened, and detailed data information and a problem processing flow of the record can be displayed; in a daily work-river length directory interface, data query is realized according to 'condition selection' -river length information and region selection; in a daily work-river reach directory interface, any river reach is selected to be clicked and opened, and detailed data information of the river reach, problem data information reporting and river surge information management can be displayed; in the daily work-transaction interface, the information of the transaction data of the river leaders in the city can be displayed.

(2) The instant messaging service application comprises the following steps: sessions, address book, and workgroup.

In some scenarios, in an instant messaging-conversation interface, optional personnel communicate with the group for detection; and in an instant messaging-address book interface, data query is realized according to 'condition selection' -name, zoning and river surge. And in the instant messaging-working group interface, selecting any working group for communication detection.

(3) The application of the estuary patrol business comprises the following steps: track recording, problem reporting, a local draft box, historical reported information and a river-patrol track draft box.

Specifically, in some scenes, in a river length patrol-track recording interface, clicking a start patrol river and detecting a certain distance, clicking an end patrol river button, and normally displaying detection path data information by the APP. In a estuary patrolling river-problem reporting interface, performing data filling selection, clicking a 'problem submitting' button, and normally reporting and submitting problems by an APP (application); and in the estuary patrolling-river-problem reporting interface, performing data filling selection, clicking a 'draft storage' button, and normally performing problem storage to a draft box by the APP. In the estuary patrolling river-local draft box interface, after any record is selected and opened, editing and submitting problem detection are carried out. In a river-tour-history reported information-tour track interface of the river reach, any record is selected to be opened, and tour record data information can be displayed; in the river-estuary-historical reported information-patrolling problem interface, any reported problem record is selected to be opened, and detailed data information and a processing flow of the problem can be displayed. In a riverside patrolling river-patrolling river track draft box interface, selecting any patrolling river track record, clicking and opening the record, and displaying detailed data information of the patrolling river track; and in a riverside patrolling river-patrolling river track draft box interface, selecting any patrolling river track record to submit, and then submitting the track.

(4) The statistical analysis comprises APP installation statistics, check-in rate statistics and river patrol statistics.

In some scenes, in a statistical analysis-APP installation statistical interface, selecting any region to click and open, and displaying detailed installers and uninstallers in the region; displaying the check-in data information of each region in a statistical analysis-check-in rate statistical interface; selecting any area in a statistical analysis-check-in rate statistical interface, clicking and opening, and displaying detailed personnel check-in data and non-check-in personnel data information of the day in the area; displaying river patrol data information of each region in a statistical analysis-river patrol statistical interface; and selecting any area in a statistical analysis-river patrol statistical interface, clicking and opening the area, and displaying detailed river patrol data information and non-river patrol data information of the area.

(5) My includes: my sign-in, my river channel, my cruise, my river captain, account setting and the like.

In some scenarios, check-in data information is displayed in a my-my check-in interface. Displaying the responsible river surge data information in a my-my river interface; in the my-my river interface, any river surge is selected and clicked to be opened, and whether the river surge is responsible for other river lengths or not is normally displayed. Displaying patrol record data information in a my-my patrol interface; selecting any patrol record in my-my patrol interface, clicking to open the patrol record, and displaying detailed data information of the patrol record; in my-my estuary interface, data information of other estuaries responsible for the estuary is displayed. And in the My-account setting interface, performing closing/opening detection on the new message notification.

Further, referring to fig. 9, the interaction layer may be specifically configured to provide a first user interaction interface conforming to an android system and/or a second user interaction interface conforming to an iOS system for the user.

Aiming at different systems of the terminal, the river chang APP can provide a suitable user interaction interface so as to meet the operation habits of different users.

The river chang APP system meets the river chang operation management requirements of a certain area and achieves comprehensive water affair information management. Therefore, the data perception of the area, the government affair cloud of the area and the water affair integrated platform of the area are used as the basis, the middleware, the supporting component, the intelligent application component supporting platform, the public application service bus, the system service support and the GIS service are used as the platforms, an information platform which takes information management as the core and utilizes the technologies of water affair professional technology, communication technology, computer network technology and the like to build the automatic circulation of the processes of river length management, assessment management, river (lake) first level, problem reporting, handling matters and the like serving the area is used, and the system architecture of the river reach APP with information technology standardization, information acquisition automation, information transmission networking, information management integration, function structure modularization and service processing intellectualization is realized.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

The terms "comprises" and "comprising," as well as any variations thereof, of the embodiments herein are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or (module) elements is not limited to only those steps or elements but may alternatively include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Reference herein to "a plurality" means two or more. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

References to "first \ second" herein are merely to distinguish between similar objects and do not denote a particular ordering with respect to the objects, it being understood that "first \ second" may, where permissible, be interchanged with a particular order or sequence. It should be understood that "first \ second" distinct objects may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced in sequences other than those illustrated or described herein.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. The utility model provides a river chang APP system which characterized in that includes from bottom to top in proper order: the system comprises a sensing layer, a network layer, an IAAS layer, a DAAS layer, a PAAS layer, an SAAS layer and an interaction layer;

the sensing layer is used for providing multi-source data required by business application of the river reach APP for the upper layer structure; the method is particularly used for acquiring multi-source data through a plurality of engineering monitoring devices, realizing data interaction of a plurality of relevant departments by utilizing a front exchange acquisition platform, and providing multi-source data required by business application of the river reach APP for an upper layer;

the network layer is used for realizing data transmission required by the business application of the river reach APP;

the IAAS layer is used for providing physical environment support for data storage and data calling of business application of the river chang APP through infrastructure integration of terminal equipment where the river chang APP is located;

the DAAS layer is used for providing access service of public data for business application of the river leader APP; the method is particularly used for collecting basic data required by business application of the estuary APP and performing data analysis, and providing a programming interface for an analysis structure or algorithm to be accessed by an upper layer structure of the analysis structure or algorithm;

the PAAS layer is used for providing a uniform platform application support service for the business application of the river reach APP; the method specifically comprises the following steps: GIS geographic information service, system service support, public application service bus, intelligent application component support platform, support component, middleware, ESB bus, EAI integration and ETL extraction; wherein the system service support comprises a system application support service and a mobile application support service; the intelligent application component supporting platform comprises a river reach scheduling model component, a river reach patrolling and performing evaluation component, an intelligent early warning component and a data mining component; the supporting component comprises a business component, a flow component, a data component, a message component, a monitoring component, an interaction component, an interface component, a river length and river reach directory component, a river length and river reach management component, a river length report component and a river length identity authentication and access authentication interface; the middleware comprises a BI tool, a message middleware, a river length report middleware, an integration middleware and a portal server middleware;

the SAAS layer is used for providing a service application implementation module for the users of the river chang APP; specifically, the method includes at least one of the following implementation modules of the service application: daily work, instant messaging, river tour by river captain, statistical analysis and my correlation;

the interaction layer is used for providing a user interaction interface for the user of the river reach APP.

2. The estuary APP system of claim 1,

the plurality of engineering monitoring devices includes: at least two of water quality monitoring equipment, flow monitoring equipment, water level monitoring equipment, rainfall monitoring equipment, remote sensing satellite monitoring equipment and video monitoring equipment;

the plurality of relevant departments comprises: at least two of the water department, the homeland planning department, the traffic department, the residential and construction department, the agricultural department, the environmental protection department and the public security department.

3. The estuary APP system of claim 1,

the network layer is specifically used for realizing the safe and stable transmission of data by utilizing at least one technology of optical fiber, GPRS, 3G, 4G, satellite and short wave transmission through a public network or a private network.

4. The estuary APP system of claim 1,

the IAAS layer is specifically used for integrating a plurality of basic facilities through a virtualization technology to construct a cloud support, so that monitoring management and resource allocation scheduling management of the plurality of basic facilities are realized, and a physical environment support is provided for data storage and data calling of the river reach APP;

wherein the plurality of infrastructures includes: at least two of server, switch, router, firewall, cabinet, UPS.

5. The estuary APP system of claim 1,

the DAAS layer is specifically used for realizing integration of multidimensional data by adopting a data mining technology and a data association analysis technology, realizing query and classification statistical functions and providing data resources for data capture of the SAAS layer;

the multi-dimensional data includes: the system comprises business cooperation data, river growth business static data and river growth business dynamic data.

6. The estuary APP system of claim 5,

the service cooperation data comprises: at least two items of water level data, rainfall data, meteorological data, work condition data, video data and water quality data.

7. The estuary APP system of claim 6,

the static data of the river growth service comprises: at least two of river reach, administrative region, river chang, lake chang, remote sensing image, working scheme, conference system, information reporting system, working supervising system, assessment and accountability system, incentive system, first river grade and first river grade data;

the dynamic data of the river growth business comprises at least two of data of river patrol management, event processing, spot check and supervision, assessment and evaluation, social supervision and water administration law enforcement.

8. The estuary APP system of claim 1,

the business functions corresponding to the daily work comprise: one or more items of picture carousel, transaction processing, special columns, special subjects, river patrol dynamics and special column postings;

the service function corresponding to the instant messaging comprises the following steps: one or more of a session, an address book, and a workgroup;

the service functions corresponding to the river patrolling of the river reach comprise: one or more items of information of river patrol, problem report, river patrol diversification, local draft box and historical report;

the service functions corresponding to the statistical analysis comprise: one or more of river reach APP installation statistics, river reach attendance statistics and river reach patrol statistics;

the my relevant corresponding business functions include: one or more of my check-in, my river channel, my patrol river, my weekly newspaper, my river length, my score, account number setting, river patrol authority setting and legal statement.

9. The estuary APP system of claim 1, wherein the interaction layer is specifically configured to provide the user with a first user interaction interface compliant with an android system and/or a second user interaction interface compliant with an iOS system.

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