CN110708389A - Intelligent environmental sanitation cloud platform and data processing method thereof - Google Patents

Abstract

The invention provides a smart sanitation cloud platform and a data processing method thereof, which can realize the uniform storage of data of different sanitation projects, and meanwhile, as the smart sanitation cloud platform can meet the requirements of a plurality of projects, when a sanitation device is applied to the plurality of projects, the repeated uploading and the repeated storage are not needed, thereby avoiding the waste of resources. Meanwhile, based on the uniform storage of the data, the invention also realizes that the requests of different sanitation projects can be uniformly processed on the platform. Based on the uniform processing of the requests and the uniform storage of the data, the requests are further routed to different application service modules, so that the processing requests of all sanitation projects can be processed by the matched application service modules, the processing requests can be processed in a targeted manner aiming at different projects or different projects on the basis of realizing the uniform processing and the uniform storage, and the smooth and effective operation of all the projects is guaranteed. Meanwhile, the invention can also facilitate the expansion of the applicable equipment and items.

Description

Intelligent environmental sanitation cloud platform and data processing method thereof

Technical Field

The invention relates to the field of intelligent environmental sanitation, in particular to an intelligent environmental sanitation cloud platform and a data processing method thereof.

Background

The intelligent sanitation can be understood as managing one or more links of the sanitation based on an intelligent sanitation device, wherein the intelligent sanitation device can be a device used for the sanitation processing link, such as an intelligent garbage can, and can also be a device configured on sanitation personnel and sanitation vehicles, such as a mobile terminal.

In the related art, a network of intelligent sanitation devices is generally established for a specific project, for example, for a certain garbage classification project, related intelligent garbage cans can be networked, so as to collect and process device information.

Therefore, the intelligent environmental sanitation implementation scheme in the prior art can only be suitable for a single project and is difficult to meet the requirements of various projects.

Disclosure of Invention

The invention provides a smart sanitation cloud platform and a data processing method thereof, and aims to solve the problem that a smart sanitation implementation scheme in the prior art can only be suitable for a single project and is difficult to meet the requirements of various projects.

According to a first aspect of the present invention, there is provided a data processing method for a smart sanitation cloud platform, including:

receiving environmental sanitation equipment information sent by a plurality of environmental sanitation equipment by using a data gateway, and storing the environmental sanitation equipment information to the database; wherein at least two sanitation devices are correspondingly used for different sanitation items;

receiving processing request information of any one target terminal device in a plurality of terminal devices, terminal device information of the target terminal device and user information of a user using the target terminal device by using a service gateway; the processing request information is used for representing the processing requested by the target terminal equipment at present;

according to the processing request information, the terminal equipment information and the user information, routing the processing request information to a target module in a plurality of application service modules, so that the target module calls target information of a database according to the processing request information, and determining a processing result corresponding to the processing request information according to the target information; processing requests of different types of sanitation projects are processed by different application service modules;

feeding back the processing result, wherein the feedback comprises at least one of the following:

feeding back the processing result to the required terminal equipment by using the service gateway;

feeding back the processing result to the database so as to update the stored information in the database by using the processing result;

and feeding back the processing result to the required sanitation equipment by using the data gateway so that the sanitation equipment can adjust working parameters according to the processing result.

Optionally, after receiving, by the serving gateway, processing request information of any one target terminal device among the plurality of terminal devices, and the terminal device information of the target terminal device and the user information of the user using the target terminal device, the method further includes:

and verifying that the terminal equipment information and/or the user information of the target terminal equipment has the authority of requesting processing.

Optionally, the target terminal device is linked to the smart sanitation cloud platform through a currently running link channel, and generates and sends the processing request information through the currently running link channel, the target module is associated with the currently running link channel, and the link channel is an operating applet, a webpage currently accessed by a browser, or an operating software program.

Optionally, the plurality of application service modules include a plurality of project service modules; the project service module is capable of running at least one project instance; the project instances of different types of sanitation projects correspond to different processing request information; the operation of each project instance of the project service module can process the processing request of one sanitation project;

routing the processing request information to a target module of a plurality of application service modules according to the processing request information, the terminal device information and the user information, comprising:

determining a type of project instances corresponding to the processing request information, and determining one or more project service modules running the type of project instances as candidate modules in all application service modules:

if the number of the candidate modules is multiple, searching a target item instance corresponding to the terminal equipment information and/or the user information in the multiple candidate modules, and determining that the candidate module running the target item instance is the target module;

routing the processing request information to the target module.

Optionally, the project instance executed by the project service module includes:

project instances of garbage classification type sanitation projects;

sanitation logistics class item instances of sanitation projects.

Optionally, the sanitation device information fed back by sanitation devices of different types of projects is stored in different storage locations of the database.

Optionally, the plurality of sanitation devices include at least one of:

an intelligent trash can;

an intelligent bag machine;

an intelligent exchange machine;

the intelligent wearable equipment is worn on sanitation related personnel;

an in-vehicle device mounted on a vehicle related to sanitation;

security monitoring equipment;

a hand-held device.

Optionally, the plurality of terminal devices include:

operating a mobile terminal corresponding to the applet;

accessing a mobile terminal corresponding to a web page;

accessing a project management computer corresponding to the web page;

and a project management computer running a corresponding software program.

Optionally, the plurality of application service modules include at least one of:

the system comprises a kitchen service module, a garbage classification service module, a sanitation logistics service module, a fly ash service module and a cloud service module.

According to a second aspect of the present invention, there is provided a smart sanitation cloud platform, comprising:

the data gateway is used for receiving environmental sanitation equipment information sent by a plurality of environmental sanitation equipment and storing the environmental sanitation equipment information into the database; wherein at least two sanitation devices are correspondingly used for different sanitation items;

the service gateway is used for receiving processing request information of any one target terminal device in a plurality of terminal devices, terminal device information of the target terminal device and user information of a user using the target terminal device, and sending the processing request information, the terminal device information and the user information to the processing device; the processing request information is used for representing the processing requested by the target terminal equipment at present;

the processing device is used for routing the processing request information to a target module in a plurality of application service modules according to the processing request information, the terminal device information and the user information, so that the target module calls target information of a database according to the processing request information and determines a processing result corresponding to the processing request information according to the target information; and: feeding back the processing result, wherein the feedback comprises at least one of the following:

feeding back the processing result to the required terminal equipment by using the service gateway;

feeding back the processing result to the database so as to update the stored information in the database by using the processing result;

and feeding back the processing result to the required sanitation equipment by using the data gateway so that the sanitation equipment can adjust working parameters according to the processing result.

According to a third aspect of the present invention, there is provided a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the method of the first aspect and its alternatives.

According to a fourth aspect of the present invention, there is provided an electronic apparatus comprising:

a processor; and the number of the first and second groups,

a memory for storing executable instructions of the processor;

wherein the processor is configured to perform the method according to the first aspect and its alternatives via execution of the executable instructions.

According to the intelligent environmental sanitation cloud platform and the data processing method thereof, the data gateway receives the environmental sanitation equipment information of different environmental sanitation projects sent by different environmental sanitation equipment, so that the unified storage of the data of the different environmental sanitation projects is realized, and meanwhile, the requirements of a plurality of projects can be met, so that when the environmental sanitation equipment is applied to the plurality of projects, repeated uploading and repeated storage are not needed, and the waste of resources is avoided. Meanwhile, based on the unified storage of the data, the invention also receives the processing request information of the terminal equipment of different sanitation projects through the service gateway, thereby realizing that the requests of different sanitation projects can be processed on the platform in a unified way.

Based on the uniform processing of the requests and the uniform storage of the data, the requests are further routed to different application service modules, so that the processing requests of all sanitation projects can be processed by the matched application service modules, the processing requests can be processed in a targeted manner aiming at different projects or different projects on the basis of realizing the uniform processing and the uniform storage, and the smooth and effective operation of all the projects is guaranteed.

Meanwhile, the invention can also facilitate the expansion of the applicable equipment and items.

In a further alternative, each application service module can be distinguished according to the category of the corresponding environmental sanitation project, so that currently required modules can be conveniently screened, and the required modules can be efficiently routed to.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a first flowchart illustrating a data processing method of a smart environmental sanitation cloud platform according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating a data processing method of the smart environmental sanitation cloud platform according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating step S13 according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a smart sanitation cloud platform according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a technical architecture of a smart sanitation cloud platform according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

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 is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, 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.

The technical solution of the present invention will be described in detail below with specific examples. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments.

Fig. 1 is a first flowchart illustrating a data processing method of a smart environmental sanitation cloud platform according to an embodiment of the present invention.

Referring to fig. 1, a data processing method of a smart sanitation cloud platform includes:

s11: receiving environmental sanitation equipment information sent by a plurality of environmental sanitation equipment by using a data gateway, and storing the environmental sanitation equipment information to the database; wherein at least two sanitation devices are for different sanitation projects.

The sanitation device may be any device applied to a sanitation process, for example, the device may be a device used for the sanitation process itself, and may also be a device such as a mobile terminal disposed on a sanitation person or a sanitation vehicle.

The sanitation device information may be any information sent by the sanitation device.

In one embodiment, the plurality of sanitation devices may include at least one of:

an intelligent trash can;

an intelligent bag machine;

an intelligent exchange machine;

the intelligent wearable equipment is worn on sanitation related personnel;

an in-vehicle device mounted on a vehicle related to sanitation;

security monitoring equipment;

a hand-held device.

An intelligent trash can is understood to be a trash can that can be intelligently controlled, wherein intelligent components can be configured to detect trash weight, location, temperature, etc. It can be any intelligent trash can in the field. Correspondingly, the sanitation device information sent by the intelligent garbage can be weighing information generated by automatic weighing, information for calculating integral in real time, overflow warning information, temperature monitoring information, position information and the like. In the specific implementation process, the intelligent garbage can be connected to the platform in a mobile communication network or an internet of things mode.

An intelligent bag dispenser is understood to be a device for dispensing bags that can be intelligently controlled, wherein for example a plurality of bags of goods, refuse, can be arranged and can be dispensed in response to a control, wherein intelligent means for detecting the number, size, type, etc. of bags can also be arranged. It can be any intelligent bag making machine in the field. Correspondingly, the sanitation information sent by the intelligent bag making machine can be code scanning information, event information of a multifunctional fetching event, information of the number of bags, information of the sizes of the bags, position information and the like. In a specific implementation process, the intelligent bag making machine can be connected to the platform in a mobile communication network or an internet of things mode.

An intelligent exchange machine is understood to be a rubbish point exchange device which can be used together with an IC card, for example, in daily use, a user can take the exchange station to exchange points by collecting recyclable rubbish (such as pop cans, paper boxes and the like) and then exchange daily necessities such as towels, soaps and the like with the exchanged points. The points exchanger is then an intelligent electronic device for implementing the process, which may be any point exchanger known in the art. Correspondingly, the sanitation device information sent by the intelligent exchange machine can be consumption information for consuming the credits, information for clearing the credits and the like. In a specific implementation process, the intelligent exchanger can be connected to the platform in a mobile communication network or an internet of things mode.

The intelligent wearable device can be worn on a human body and is an intelligent electronic device with a processor and a memory, and specifically can be, for example, a smart watch, smart glasses, a smart bracelet, a smart headset and the like. Correspondingly, the sanitation device information sent by the intelligent wearable device can be position information, real-time track information, step recording information, mileage information, help seeking information, sign-in information, sign-out information, electronic fence information, sedentary reminding information and the like. It can be used to for example clean the personnel of management to the garbage bin and manage, and is concrete, and the information of registering can be convenient for learn whether personnel arrive relevant position and clean the management operation, and the information of registering can be convenient for learn whether it has left to can combine position information, real-time orbit information etc. to sign in information, sign back information and verify, still can further manage the control to its work flow. In the specific implementation process, the intelligent wearable device can be connected to the platform in a mobile communication network or an internet of things mode.

An in-vehicle device is understood to be any electronic device that can be adapted to be in-vehicle and to access a network. The method can be used for the intelligent vehicle-mounted terminal, the vehicle-mounted positioning terminal and the like. Correspondingly, the sanitation device information sent by the vehicle-mounted device can be, for example, position information, mileage information, real-time video information, image acquisition information, fuel consumption information, vehicle speed information and the like. In a specific implementation process, the vehicle-mounted equipment can be connected to the platform in a mobile communication network mode.

The security monitoring device is understood as any electronic device capable of collecting images, such as a camera, and correspondingly, the sanitation device information sent by the security monitoring device may be, for example, real-time video information, license plate identification information, video information, and the like. In a specific implementation process, the security monitoring equipment can be connected to the platform through a mobile communication network, a local area network, a limited network or an internet of things.

A hand-held device is understood to be any electronic device specially configured for environmental sanitation, which is suitable for being hand-held, and which may be, for example, a patrol machine. Correspondingly, the sanitation device information sent by the handheld device can be, for example, location information, photographing information, assessment information, and the like. In the specific implementation process, the handheld device can be connected to the platform in a mobile communication network or an internet of things mode.

The above mobile communication network may be, for example, GPRS, 4G, 5G, LTE, cellular network, etc.; the above internet of things network may be, for example, an nb-iot network. Correspondingly, the connection can be realized by adopting an HTTP, SOCKET, STREAM and the like.

In the above embodiment, the data gateway receives the sanitation device information of different sanitation projects sent by different sanitation devices, so as to implement uniform storage of data of different sanitation projects. Meanwhile, the environmental sanitation equipment can meet the requirements of a plurality of projects, and when the environmental sanitation equipment is applied to the plurality of projects, repeated uploading and repeated storage are not needed, so that the waste of resources is avoided.

The information stored in the database may include information fed back by the above sanitation device, information calculated and processed based on the fed-back information, and information transmitted from the terminal device. The sanitation device information fed back by the sanitation devices of different types of projects is stored in different storage positions of the database, so that the positive effect of being convenient to search can be achieved.

S12: the method comprises the steps of receiving processing request information of any one target terminal device in a plurality of terminal devices, terminal device information of the target terminal device and user information of a user using the target terminal device by utilizing a service gateway.

The processing request information may be understood as a processing requested for characterizing the target terminal device target, and the processing may be any processing that can be performed based on data stored in a database.

The processing may be, for example, retrieving feedback of specific data, specifically, retrieving real-time location information of the device, retrieving real-time video collected by the device, or retrieving specific information of environmental sanitation devices such as the weight of garbage in the intelligent garbage can, and the like.

The processing may also be, for example, calculation based on specific data, specifically, a path plan based on location information, a table generated based on check-in information and check-out information, a table formed based on history information, statistical processing on data, and the like.

The processing may also be, for example, screening, deleting, adding, etc. of data in the database, such as adding a person name, deleting a person name, changing a number of persons, changing a role of a person, etc. for a particular project instance.

In addition, the terminal device may also send information to the platform, so that the platform stores the information, which may also be understood as a processing request at this time being a storage request of data.

It can be seen that, no matter what the processing request information is, as long as the processing request information enables the platform to perform certain processing, the processing request information can be understood as the processing request related to the embodiment.

The terminal device information may be, for example, an identifier of the terminal device, which may be a software identifier, a hardware identifier, a network address, or the like.

The user information may be, for example, account information, a nickname, a pre-assigned ID, identity information, and the like.

Therefore, based on the unified storage of the data, the above embodiment also receives the processing request information of the terminal devices of different sanitation projects through the service gateway, so that the requests of different sanitation projects can be processed on the platform in a unified manner.

In one embodiment, the plurality of terminal devices include:

operating a mobile terminal corresponding to the applet;

accessing a mobile terminal corresponding to a web page;

accessing a project management computer corresponding to the web page;

and a project management computer running a corresponding software program.

Wherein:

the different types of sanitation projects can correspond to different small programs, such as a garbage classification sanitation project, and can correspond to a garbage classification small program, and a mobile terminal running the garbage classification small program can be used as a terminal device related to the embodiment;

the different types of sanitation projects can also correspond to different webpages, for example, the sanitation projects of the garbage classification can correspond to the garbage classification webpages, and a mobile terminal or a computer running the garbage classification webpages can be used as a terminal device related to the embodiment;

different types of sanitation items may also correspond to different software programs, or different modules of the same software program.

The corresponding relation can be understood as processing requests of different types of environmental sanitation projects, and the processing requests can enter the platform through different paths, so that the matched service modules can be conveniently searched and determined in the subsequent process.

In a specific implementation process, the target terminal device is linked to the smart sanitation cloud platform through a currently operating link channel, and generates and sends the processing request information through the currently operating link channel, that is: each terminal device may be linked to the platform through a link channel. The target module is associated with the currently running link channel, and therefore, the link channel is also associated with the target module, the link channel is a running applet, a web page currently accessed by a browser, or a running software program, which can be understood as three categories of link channels. Specifically, the link channel may be the link channel of the mobile terminal described above, or the link channel of the project management computer described above. Meanwhile, applets and web pages are generally applicable to mobile terminals, and web pages and software programs are generally applicable to project management computers.

The different link channels under the same type of link channel may correspond to different types of sanitation projects, for example, the garbage classification small program and the sanitation logistics small program under the small program type of link channel may correspond to the sanitation projects of garbage classification and the sanitation projects of sanitation logistics, respectively. Therefore, the target module is associated with the currently running link channel, which can be specifically understood as follows: the link channel is associated with the target module since the link channel is associated with a category of items, and different categories of sanitation items may correspond to different target modules.

In the specific implementation process, the https protocol + ssl security certificate can be used between the service gateway and each terminal device to ensure data security.

S13: and routing the processing request information to a target module in a plurality of application service modules according to the processing request information, the terminal equipment information and the user information, so that the target module calls target information of a database according to the processing request information, and determines a processing result corresponding to the processing request information according to the target information.

The processing requests of different types of sanitation projects are processed by different application service modules, and one application service module can correspondingly process the processing requests of one or more similar types of sanitation projects.

The above embodiment routes the request to different application service modules, so that the processing request of each sanitation project can be processed by the matched application service modules, and the processing request can be processed specifically for different projects or different projects on the basis of realizing uniform processing and uniform storage, thereby ensuring that each project can be operated smoothly and effectively.

Meanwhile, the expansion of the applicable equipment and items can be facilitated. For example, if a project needs to be added, only a corresponding project instance needs to be added in the service module, and it is ensured that corresponding devices (including terminal devices and sanitation devices) can access the platform through the gateway, and it is not necessary to build a separate framework for the newly added project.

The application service module may be a single module with a certain computing capability, may be an entity host module, may also be a software module, and may also be a virtual host module, and any combination of at least two of the above is not excluded, for example, among a plurality of application service modules, part is an entity host module, part is a software module, and part is a virtual host module.

For example, some of the different application service modules may be different entity hosts, and the gateway may distinguish the different application service modules by sending requests to the different hosts based on the in-network address.

For another example, some of the different application service modules may be different virtual hosts formed in the same physical host, and the gateway may distinguish the different application service modules by sending the request to addresses of the different virtual hosts based on the in-network address.

For another example, some of the different application service modules may be different programs or different program parts running in the same physical host, and the gateway may distinguish the different application service modules by sending the request to different addresses based on the pre-configured addresses.

Fig. 2 is a schematic flow chart illustrating a data processing method of the smart environmental sanitation cloud platform according to an embodiment of the invention.

Referring to fig. 2, in an embodiment, after the step S12 and before the step S13, the method further includes:

s15: and verifying that the terminal equipment information and/or the user information of the target terminal equipment has the authority of requesting processing.

For example, step S15 may verify whether the user information is registered or authenticated, thereby having the authority, and step S15 may also verify whether the terminal device information is registered, thereby having the authority.

If the authority is available, the subsequent process can be continued, and if the authority is not available, the subsequent process is not executed.

In addition, the verification function may be automatically implemented by a service gateway in the platform, or may be implemented by a processing device in the platform, specifically, may be implemented by one of the processing devices, for example, a service module of a cloud service module.

In the specific implementation process, whether the user information and/or the terminal equipment information is matched with the link channel can be verified, wherein the link channel is matched with the type of the item, whether the user or the terminal equipment has the authority of requesting processing of the specific item can be further verified during verification, and if not, the user or the terminal equipment is still determined not to have the authority, so that the subsequent process is not executed.

The implementation method can effectively ensure that only the user and/or the terminal with the corresponding authority can request processing, and improves the safety. Therefore, the method can be beneficial to realizing single sign-on and user authentication and authorization.

Fig. 3 is a flowchart illustrating step S13 according to an embodiment of the present invention.

In one embodiment, the plurality of application service modules comprises a plurality of project service modules; the project service module is capable of running at least one project instance.

The item service module can be understood as a module for performing targeted service based on an item, that is, a module for servicing a corresponding item by way of example. In other words, if the application service module does not distinguish different items for processing, the application service module is not the item service module.

An item instance, which may be understood as an instance of the operation of the item service module, may correspond to a sanitation item, i.e. for processing a processing request for the sanitation item. Namely: the operation of each project instance of the project service module can process the processing request of one sanitation project.

Meanwhile, the project instances of different types of sanitation projects correspond to different processing request information; for example, the processing request information of different types of project instances can carry the identification of different link channels, and for example, the processing request information of different types of project instances can be statements with different contents and different formats.

The differences between the sanitation project and the project instance can be understood as follows: the environmental sanitation project is a series of measures implemented based on software and hardware architecture and artificial management, and the project example is a concrete service executed by a platform computer for guaranteeing the implementation of the corresponding environmental sanitation project.

In one embodiment, the plurality of application service modules may include at least one of:

the system comprises a kitchen service module, a garbage classification service module, a sanitation logistics service module, a fly ash service module and a cloud service module.

The kitchen service module, the garbage classification service module, the environmental sanitation logistics service module and the fly ash service module can be based on projects, and therefore at least one of the kitchen service module, the garbage classification service module, the environmental sanitation logistics service module and the fly ash service module is used as a project service module.

The garbage classification service module can be understood as a service mainly focusing on the city household garbage classification scene, and comprises various putting modes such as intelligent barrel putting, common barrel putting, activity putting and the like, and other management functions such as warehouse management and sorting station management are provided. The system can independently open the domain name and the service for each classification item, and the core data of each classification item can be uniformly summarized to the cloud service.

The sanitation logistics service module can be understood as the service of an integrated management scene of urban sanitation, and comprises various links of sanitation such as garbage collection and transportation, road cleaning, mechanized operation, garbage transportation and the like. Through introducing the intelligent wrist-watch that contains the thing networking communication, the mobile unit, security protection supervisory equipment to the management flows such as cooperation dispatch management, scheduling management strengthen the management level of sanitation operation. The system can independently open domain names and services for each sanitation project, data of each project are also independently isolated, and core data of each sanitation project can be uniformly summarized to the cloud services.

The cloud service module may be understood as a module that is convenient for providing basic management functions, and is mainly responsible for project management, system user management, system device management, notification management, cost management, and the like. Meanwhile, the system can also have the functions of coordinating the work among the application service modules and the like. For example, if part of the application service modules are virtual host modules, programs or program modules, the cloud service module can also adjust resources of the virtual host modules, such as occupied memory resources, CPU resources, traffic resources, and the like, according to the requirements, and if part of the application service modules are physical host modules, the cloud service module can also adjust resources of the physical host modules, such as data traffic resources, according to the requirements.

The kitchen service module can be used for carrying out project-based or non-project-based management on a kitchen processing link of sanitation, and can be particularly understood as mainly focusing on the collection, transportation, management and monitoring of kitchen waste of residents, merchants and catering enterprises.

The fly ash service module can be used, for example, for project-based or non-project-based management of the sanitation fly ash handling segment. Specifically, the method can be understood as focusing on monitoring the fly ash construction waste, and can be matched with vehicle-mounted equipment to monitor the collection, transportation and discharge of the fly ash waste.

The plurality of application service modules may further include:

the cockpit service module can collect, abstract and convert data in the cloud service by using a visualization technology so as to display the data on a large screen, and the specific conditions of all projects can be known through the cockpit, so that powerful data support is provided for a decision maker.

A government regulatory service module that may utilize a unified data interface for external use. The government supervision service module is mainly used for counting and extracting partial core indexes according to government requirements. Different projects have different requirements, governments in different regions have different requirements, and the platform provides a uniform external interface for a third party to carry out secondary development.

In other optional embodiments, the system can also comprise a waste incineration service module, which is mainly used for monitoring and managing various indexes of an incineration plant, particularly environmental protection indexes, and government has regulatory requirements.

The above service modules, and the instances in the service modules, may be executed in parallel.

In one embodiment, referring to fig. 3, the routing the processing request information to a target module of a plurality of application service modules according to the processing request information, the terminal device information and the user information in step S13 may include:

s131: and determining a type of project instance corresponding to the processing request information, and determining one or more project service modules running the type of project instance as candidate modules in all application service modules.

The project instances run by the project service module may include, for example: project instances of garbage classification type sanitation projects; sanitation logistics class item instances of sanitation projects.

In the specific implementation process, different link channels under the same type of link channel can correspond to different types of sanitation projects, and the type of the project instance can be determined by the link channel for sending the processing request information, so that the corresponding candidate module is determined. Wherein, the processing request information can carry the identification of the link channel.

For example, if the link channel which learns the processing request information is a garbage classification applet, it may be determined that the corresponding item instance is an item instance of a sanitation item such as garbage classification, and then, each garbage classification service module of the item embodiment for operating garbage classification is a candidate module.

In another specific implementation process, the determination may also be made by analyzing a statement in the processing request, for example, the processing request information may be configured to write which type of application service module corresponds to the processing request information, for example, the processing request information may carry an identifier of the application service module or an indication of the item type, and further, the platform may directly determine the corresponding candidate module according to the identifier.

If the number of the candidate modules is single, the project service module can be determined to be the target module.

If the number of the candidate modules is multiple, step S132 may be implemented: and searching a target item instance corresponding to the terminal equipment information and/or the user information in the plurality of candidate modules, and determining the candidate module running the target item instance as the target module.

S133: routing the processing request information to the target module.

It can be seen that, through steps S131 and S132, the application service module of the project involved by the user can be accurately located, so as to route the processing request, and by determining the candidate module first and then determining the target module, it is not necessary to traverse all project instances, so that the processing is more efficient. Therefore, the above embodiment can distinguish the application service modules according to the categories of the corresponding sanitation projects, and can facilitate screening of currently required modules so as to efficiently route the modules to the required modules.

In another embodiment, the target module may be determined directly by the item identifier without performing the above steps S131 and S132. The item identification may be, for example, an item ID uniquely determined for each item.

S14: feeding back the processing result, wherein the feedback comprises at least one of the following:

feeding back the processing result to the required terminal equipment by using the service gateway;

feeding back the processing result to the database so as to update the stored information in the database by using the processing result;

and feeding back the processing result to the required sanitation equipment by using the data gateway so that the sanitation equipment can adjust working parameters according to the processing result.

FIG. 4 is a schematic diagram of a smart sanitation cloud platform according to an embodiment of the present invention; fig. 5 is a schematic diagram of a technical architecture of a smart sanitation cloud platform according to an embodiment of the present invention.

Referring to fig. 4 and 5, the smart sanitation cloud platform 23 includes:

data gateway 233 for receiving the information of the sanitation devices transmitted from the plurality of sanitation devices 22 and causing the information of the sanitation devices to be stored in database 234; wherein at least two sanitation devices 22 are for different sanitation projects;

a service gateway 231, configured to receive processing request information of any one target terminal device among the plurality of terminal devices 21, and terminal device information of the target terminal device and user information of a user using the target terminal device, and send the processing request information, the terminal device information, and the user information to the processing device; the processing request information is used for representing the processing requested by the target terminal equipment at present;

the processing device 232 is configured to route the processing request information to a target module in the multiple application service modules according to the processing request information, the terminal device information, and the user information, so that the target module invokes target information of a database according to the processing request information, and determines a processing result corresponding to the processing request information according to the target information; and: feeding back the processing result, wherein the feedback comprises at least one of the following:

feeding back the processing result to the required terminal equipment by using the service gateway;

feeding back the processing result to the database so as to update the stored information in the database by using the processing result;

and feeding back the processing result to the required sanitation equipment by using the data gateway so that the sanitation equipment can adjust working parameters according to the processing result.

It can be seen that the above processing apparatus 232 can be understood as implementing the processes of steps S11, S12, S13 and S14, or the processes of steps S11, S12, S15, S13 and S14, or the processes of steps S12, S13 and S14 in the method embodiment related to fig. 1 to 3, and therefore, the alternative embodiments and technical effects are similar, and will not be described again here.

Wherein the application service modules referred to above are understood to be software parts and/or hardware parts in the processing device 232.

According to the illustration of fig. 5, the smart watch, the vehicle-mounted device, the security monitoring, the smart trash can, the smart bag dispenser, and the smart switch in the framework can all be understood with reference to the foregoing description of the sanitation device.

According to the illustration of fig. 5, the kitchen service module, the garbage classification service module, the cloud service module, the sanitation logistics service module, the fly ash service module, the positive and negative supervision service module, and the cockpit service module in the framework can be understood with reference to the related description of the application service module.

According to the illustration of fig. 5, both the application gateway and the data gateway in the architecture can be understood with reference to the foregoing, and under the architecture, the part of the user authentication, i.e., the implementation of step S15, can be implemented not by the processing device but by the service gateway.

According to the illustration of fig. 5, the corresponding applet may for example comprise: a garbage classification small program, a sanitation logistics small program, a resident small program and a supervising small program; the corresponding project management computer may include, for example: a garbage classification project 1PC end, a garbage classification project NPC end, a sanitation logistics project 1PC end, a sanitation logistics project NPC end and the like. Which can all be understood with reference to the preceding description relating to the terminal device.

According to the illustration of fig. 5, the storage mode of the database may be MySQL + Redis + FastDFS, and meanwhile, the database and the processing device may also receive information through an ActiveMQ and a short message gateway.

In the implementation, the following framework and techniques may also be applied to the architecture shown in fig. 5:

a front end frame: js frame, vue; element UI; a high map api; a Flash control;

a mobile terminal: a WeChat applet;

background framework: spring frame, Mybatis frame, MySQL + Redis database;

general components: an activeMQ message queue; a fastDFS distributed file system; nginx reverse proxy; ssl security certificate.

In summary, according to the intelligent sanitation cloud platform and the data processing method thereof provided by the invention, the data gateway receives sanitation equipment information of different sanitation projects sent by different sanitation equipment, so that unified storage of data of different sanitation projects is realized, and meanwhile, as the data gateway can meet the requirements of a plurality of projects, when the sanitation equipment is applied to the plurality of projects, repeated uploading and repeated storage are not required, so that resource waste is avoided. Meanwhile, based on the unified storage of the data, the invention also receives the processing request information of the terminal equipment of different sanitation projects through the service gateway, thereby realizing that the requests of different sanitation projects can be processed on the platform in a unified way.

Based on the uniform processing of the requests and the uniform storage of the data, the requests are further routed to different application service modules, so that the processing requests of all sanitation projects can be processed by the matched application service modules, the processing requests can be processed in a targeted manner aiming at different projects or different projects on the basis of realizing the uniform processing and the uniform storage, and the smooth and effective operation of all the projects is guaranteed.

Meanwhile, the invention can also facilitate the expansion of the applicable equipment and items.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A data processing method of a smart sanitation cloud platform is characterized by comprising the following steps:

receiving environmental sanitation equipment information sent by a plurality of environmental sanitation equipment by using a data gateway, and storing the environmental sanitation equipment information to a database; wherein at least two sanitation devices are correspondingly used for different sanitation items;

receiving processing request information of any one target terminal device in a plurality of terminal devices, terminal device information of the target terminal device and user information of a user using the target terminal device by using a service gateway; the processing request information is used for representing the processing requested by the target terminal equipment at present;

according to the processing request information, the terminal equipment information and the user information, routing the processing request information to a target module in a plurality of application service modules, so that the target module calls target information of a database according to the processing request information, and determining a processing result corresponding to the processing request information according to the target information; processing requests of different types of sanitation projects are processed by different application service modules;

feeding back the processing result, wherein the feedback comprises at least one of the following:

feeding back the processing result to the required terminal equipment by using the service gateway;

feeding back the processing result to the database so as to update the stored information in the database by using the processing result;

and feeding back the processing result to the required sanitation equipment by using the data gateway so that the sanitation equipment can adjust working parameters according to the processing result.

2. The method of claim 1, wherein after receiving, by a serving gateway, processing request information of a target terminal device from any one of a plurality of terminal devices, and terminal device information of the target terminal device and user information of a user using the target terminal device, the method further comprises:

and verifying that the terminal equipment information and/or the user information of the target terminal equipment has the authority of requesting processing.

3. The method of claim 1, wherein the target terminal device is linked to the smart sanitation cloud platform through a currently running link channel, and generates and transmits the processing request information through the currently running link channel, and wherein the target module is associated with the currently running link channel, and the link channel is an applet currently running, a web page currently accessed by a browser, or a software program running.

4. The method of claim 1, wherein the plurality of application service modules comprises a plurality of project service modules; the project service module is capable of running at least one project instance; the project instances of different types of sanitation projects correspond to different processing request information; the operation of each project instance of the project service module can process the processing request of one sanitation project;

routing the processing request information to a target module of a plurality of application service modules according to the processing request information, the terminal device information and the user information, comprising:

determining a type of project instances corresponding to the processing request information, and determining one or more project service modules running the type of project instances as candidate modules in all application service modules:

if the number of the candidate modules is multiple, searching a target item instance corresponding to the terminal equipment information and/or the user information in the multiple candidate modules, and determining that the candidate module running the target item instance is the target module;

routing the processing request information to the target module.

5. The method of claim 4, wherein the project instance run by the project service module comprises:

project instances of garbage classification type sanitation projects;

sanitation logistics class item instances of sanitation projects.

6. The method according to claim 5, wherein the sanitation device information fed back by sanitation devices of different kinds of items is stored in different storage locations of the database.

7. The method of any one of claims 1 to 6, wherein the plurality of sanitation devices comprises at least one of:

an intelligent trash can;

an intelligent bag machine;

an intelligent exchange machine;

the intelligent wearable equipment is worn on sanitation related personnel;

an in-vehicle device mounted on a vehicle related to sanitation;

security monitoring equipment;

a hand-held device.

8. The method according to any one of claims 1 to 6, wherein the plurality of terminal devices comprises:

operating a mobile terminal corresponding to the applet;

accessing a mobile terminal corresponding to a web page;

accessing a project management computer corresponding to the web page;

and a project management computer running a corresponding software program.

9. The method of any of claims 1 to 6, wherein the plurality of application service modules comprises at least one of:

the system comprises a kitchen service module, a garbage classification service module, a sanitation logistics service module, a fly ash service module and a cloud service module.

10. The utility model provides a wisdom sanitation cloud platform which characterized in that includes:

the data gateway is used for receiving environmental sanitation equipment information sent by a plurality of environmental sanitation equipment and storing the environmental sanitation equipment information into the database; wherein at least two sanitation devices are correspondingly used for different sanitation items;

the service gateway is used for receiving processing request information of any one target terminal device in a plurality of terminal devices, terminal device information of the target terminal device and user information of a user using the target terminal device, and sending the processing request information, the terminal device information and the user information to the processing device; the processing request information is used for representing the processing requested by the target terminal equipment at present;

the processing device is used for routing the processing request information to a target module in a plurality of application service modules according to the processing request information, the terminal device information and the user information, so that the target module calls target information of a database according to the processing request information and determines a processing result corresponding to the processing request information according to the target information; and: feeding back the processing result, wherein the feedback comprises at least one of the following:

feeding back the processing result to the required terminal equipment by using the service gateway;

feeding back the processing result to the database so as to update the stored information in the database by using the processing result;

and feeding back the processing result to the required sanitation equipment by using the data gateway so that the sanitation equipment can adjust working parameters according to the processing result.

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