CN113129074B - PaaS platform system based on house property marketing - Google Patents

Abstract

The invention provides a PaaS platform system based on house marketing, which uses a house PAAS platform end as a server end, implements interaction with a cloud service platform on a house line of a middle layer and a feedback module on the house line based on a user instruction of a mobile end, receives big data types of bottom layer house attribute information, house transaction information, house evaluation information and the like, provides PaaS service for the PaaS platform system based on house marketing, realizes explicit monitoring of a mobile terminal, and realizes prompt of user feedback evaluation information and user feedback transaction information through enhanced UI display, thereby improving user operability and system functions based on the house marketing PaaS platform system.

Description

PaaS platform system based on house property marketing

Technical Field

The invention belongs to the field of cloud platform Internet of things, and particularly relates to a PaaS platform system based on real estate marketing.

Background

One of key technologies for information-oriented social construction is cloud service platform construction based on cloud services and based on the internet of things.

The cloud service refers to obtaining required services in a mode that a cloud computing protocol needs to be easily expanded, the services can be related to IT and software Internet, the cloud service means that computing capacity can also be used as a commodity to be circulated through the Internet, and the cloud service can be divided into three levels, namely IAAS, PAAS, SAAS and the like. Software as a service is of greater concern to individual users. In short, various software is provided by cloud practitioners, and people can use the software without installing the software on own computers and connecting networks when needing to use the software. If a user plays a web game, the user does not need to install client software on a local computer, the user can directly open a web browser, the game data all have a cloud, and even if the user changes places to surf the internet, the user can continue the game on line only by inputting an account number and logging in again, and all game data and progress can be achieved. This is the typical SAAS. Cloud computing enables users to do without pursuing high configuration of local computers, and only needs computers to be capable of surfing the Internet and have basic processing capacity.

Professionally, cloud services are an augmentation, usage, and interaction model of internet-based related services, typically involving the provision of dynamically scalable and often virtualized resources over the internet. Cloud is a metaphor of network and internet. In the past, telecommunications networks were often represented by clouds and later also by the abstraction of the internet and the underlying infrastructure. The cloud service means that a required service is obtained through a network in an on-demand and easily-extensible manner. Such services may be IT and software, internet related, or other services. It means that computing power can also be circulated as a commodity over the internet. By distributing the computation over a large number of distributed computers, rather than local computers or remote servers, the operation of an enterprise data center will be more similar to the internet. This enables the enterprise to switch resources to the required applications, accessing the computers and storage systems on demand. It is better to switch from the old single generator mode to the mode of centralized power supply of the power plant. It means that the computing power can be circulated as a commodity, like gas and water, and is convenient to take and low in cost. The biggest difference is that it is transmitted over the internet.

Generally, cloud services inevitably require the use of, or at least involve, cloud servers. In short, a cloud server is actually a virtual physical server. The cloud computing technology is adopted to integrate three cores of data information, namely a cloud host: computing, networking, and storage. The biggest characteristic of the cloud server is a cluster server technology, which is similar to VPS server virtualization, and can virtualize a plurality of independent servers, thereby having very good security and stability.

The cloud server has flexibility. The cloud server may perform hardware configuration according to different requirements, and may perform expansion according to the current requirements, for example, the CPU, the memory, the SSD data disk, and the like.

The cloud server has high performance. The cloud service is deployed by adopting a high-end server, centralized management and monitoring are carried out, and the stability of the server can be ensured. Based on the cluster server, the performance of the host computer is stronger and is much higher than that of the VPS. The cloud server has convenience. For a part of small and medium-sized enterprises, along with gradual expansion of services, capacity expansion and upgrading of a server may be required at a later stage. The cloud server is used, so that software and hardware do not need to be upgraded at a later stage. The cloud server has higher data security. The cloud server has a data backup function, and even if hardware fails, data cannot be affected and the problem of loss cannot occur. The cloud server only needs to perform normal maintenance. The cloud server has stability. The virtual host is a server used by many users together, so if a website is attacked, websites on other servers can also be affected, and the stability of the space cannot be guaranteed. The cloud server has no such problem, and is very safe and reliable.

As typical service types with complete functions and various application fields, PaaS is a cloud service type with strong development potential in cloud services, and is widely applied to various online platforms and online services. Platform-As-a-Service (PaaS) has become one of the hotspots in the industry for discussing cloud computing, and building an application running Platform by adopting a PaaS mode is an important practice for realizing Platform services. Cloud Computing (Cloud Computing) is a hot spot in the current IT field, and one of ITs objectives is to enable users to use various quality-guaranteed IT resources more conveniently, quickly and flexibly through the internet, and the resources are provided in the form of services, and the ultimate Cloud Computing environment will enable the consumption of the services to be as convenient as the use of public infrastructures such as water, electricity and gas in the present day. In general, cloud computing includes three main levels: infrastructure Services (Infrastructure Services), Platform Services (Platform Services), and Application Services (Application Services).

In terms of the classification of the services, the platform service has become one of the key points in practicing cloud computing, and provides IT resources and infrastructure required by application operation to users in a service manner, including middleware services, information services, connectivity services, integration services, message services and other service forms. To implement Platform Services, the industry proposes a delivery mode of Platform as a service (PaaS). The PaaS mode provides support for the complete life cycle of the application (including the stages of design, development, test, deployment and the like) based on the Internet, reduces the cost of software and hardware and deployment application and IT infrastructure which are necessary for a user to purchase and manage the life cycle of the application, and simplifies the complexity of the work. In order to ensure efficient delivery of platform services with high flexibility, in the PaaS mode, platform services are generally delivered in a virtualization manner based on an automation technology, and technologies such as automation, self-optimization and the like are widely applied during running so as to ensure that various functional and non-functional requirements in an application life cycle are dynamically met in real time. Specifically, building a traditional IT infrastructure is a lengthy process, which generally comprises the steps of applying for, auditing, purchasing and transporting hardware, installing and configuring software, and the like. The tedious manual configuration work in this process is time consuming and laborious and prone to generate human configuration errors. Meanwhile, the upgrading and maintenance of the platform environment also face the frequent problem of human configuration errors, which causes unnecessary influence and loss. For these reasons, the built application running platform can not be released and recycled in time for a new project to use even if the built application running platform is no longer needed in a certain period. This is one of the reasons for idle hardware resources. Furthermore, the application execution capabilities provided by conventional base platforms are static. However, at different times, the application load tends to be different. To ensure proper operation of the application at high load, the application runtime platform must be able to provide the highest runtime capacity, which results in a lot of idle hardware resources at off-peak times. The creation of cloud computing, and in particular the notion of platform services, starts with the root cause of idle hardware resources. The two aims of rapidly building and deploying the application runtime environment and dynamically adjusting the resources of the application runtime environment are established. The real-time deployment and the rapid recovery of the application running environment are realized according to virtualization and automation technologies, the environment construction time is reduced, manual configuration errors are avoided, the environment is quickly and repeatedly constructed, resources are timely recovered, and the vacancy of low-utilization-rate hardware resources is reduced. On the other hand, the application environment is dynamically adjusted according to the requirements of application operation, so that the elastic expansion and self-optimization of the application platform are realized, and the vacancy of hardware resources in off-peak time is reduced. In practical Applications, one of important application scenarios of the PaaS model is to deliver an Application Running Platform (ARP) supporting application Running to a user. An application running platform is constructed based on a PaaS mode, and the following typical requirements need to be met: providing an interface defining application requirements: a user can conveniently define the components required to meet the functional requirements of the application, and can define the non-functional requirements of the application, such as availability, service level and the like; the capability of quickly constructing the application running environment based on application requirements is provided: the application requirements can be mapped into the specific configuration and topological structure of physical IT resources and infrastructure, and rapid deployment can be carried out; the capability of dynamically meeting application requirements in real time during runtime is provided: mapping the application requirements to an operation policy, and dynamically adjusting physical IT resources and infrastructure according to an actual system operation condition, such as a load condition, during operation, for example, adjusting load distribution or increasing or decreasing computing resources, so that the ARP has sufficient elasticity and flexibility to dynamically meet the application requirements in real time.

The conventional PaaS system pays more attention to the provision of online services, neglects the interaction with feedback information of offline multi-source users, and pays more attention to the application function, but pays less attention to the value of bottom-layer collected data, the comparison and quantitative evaluation of the data, and ignores the online application effect of various offline data.

The invention provides a PaaS platform system based on house marketing, which uses a house PAAS platform end as a server end, implements interaction with a cloud service platform on a house line of a middle layer and a feedback module on the house line based on a user instruction of a mobile end, receives big data types of bottom layer house attribute information, house transaction information, house evaluation information and the like, provides PaaS service for the PaaS platform system based on house marketing, realizes explicit monitoring of a mobile terminal, and realizes prompt of user feedback evaluation information and user feedback transaction information through enhanced UI display, thereby improving user operability and system functions based on the house marketing PaaS platform system.

Disclosure of Invention

The invention aims to provide a PaaS platform system based on real estate marketing, which is superior to the prior art.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a PaaS platform system based on real estate marketing, the system comprising:

the system comprises a property PAAS platform end, a property PAAS platform end and a property on-line feedback module, wherein the property PAAS platform end is used for establishing PAAS service, feeding back evaluation information update and transaction information update to a mobile end, receiving a user instruction of the mobile end, sending the user instruction to the property on-line cloud service platform and the property on-line feedback module after first processing, and receiving house information from the property on-line cloud service platform and the property on-line feedback module;

the mobile terminal is used for providing a user operation UI, feeding back evaluation information updating to the user through positive color setting and negative color setting, and feeding back transaction information updating to the user; the offline house modules comprise local balancing modules;

a local balancing module, configured to balance the house information of the local offline house module, wherein the local balancing module at least includes:

the system comprises a local offline house attribute information management submodule, a local offline house attribute information management submodule and a local offline house attribute information management submodule, wherein the local offline house attribute information management submodule is used for storing and managing local offline house attribute information, and the local offline house attribute information at least comprises local offline house ID, listing price data of local offline houses, position information of local offline houses and area information of local offline houses;

the local offline house access submodule is used for storing and managing local offline house access information, and the local offline house access information at least comprises visitor access time and visitor ID;

the local offline house transaction submodule is used for storing and managing local offline house transaction information, and the local offline house transaction information at least comprises transaction time, a transaction client ID and transaction amount;

the PaaS platform system based on the real estate marketing further comprises:

the regional server is used for managing a plurality of offline house modules which are positioned in the same region, namely the same regional information;

the regional server is also used for receiving information stored and managed by a local offline house attribute information management submodule, a local offline house access submodule and a local offline house transaction submodule in a local balancing module contained in each offline house module of a plurality of offline house modules in a region, performing information interaction with a house property online feedback module and a house property online cloud service platform, and receiving system instructions of the house property online feedback module and the house property online cloud service platform;

the regional server is also used for performing evaluation information statistics, transaction information statistics and house information updating of the multi-off-line house-taking module in the region based on the on-line feedback module of the house property and the system instruction of the on-line cloud service platform of the house property;

the system comprises a real estate online feedback module, a real estate server online feedback module and a real estate online feedback module, wherein the real estate online feedback module is used for receiving the house information of a multi-offline house module in an area fed back by each area server and updating the evaluation information of the area servers based on a user instruction or an automatic control instruction dynamically generated by the real estate online feedback module;

and the property online cloud service platform is used for receiving the house information of the offline house modules in the areas fed back by each regional server and updating the transaction information of the regional servers based on a user instruction or an automatic control instruction dynamically generated by the property online cloud service platform.

Preferably, the local equalization module communicates in an RFID manner or a wireless local area network.

Preferably, the local equalization module performs communication in a 5G manner.

Preferably, the area server further includes an offline house comparison level module, and the offline house comparison level module is configured to perform house evaluation comparison on offline houses in each area and adjust the comparison level of the houses.

Preferably, the region server further includes a region quantization module for performing quantization of region evaluation for each region.

Preferably, the area server or the on-line feedback module of the property or the on-line cloud service platform of the property further sets an evaluation period for system standard quantification of the execution area, where the evaluation period may be an evaluation performed once on a preset X working day of the system, and X is a preset value of the system, or may be dynamically adjusted by a system administrator.

Preferably, the area server, the on-line feedback module of the property, or the on-line cloud service platform of the property further sets an evaluation period for performing the off-line house level comparison, where the evaluation period may be an evaluation performed once on a preset X working day of the system, and X is a preset value of the system, or may be dynamically adjusted by a system administrator.

Preferably, after each evaluation period is performed, the data of each offline house module, the area server, the online property cloud service platform, and the online property feedback module, except the ID data, are saved as historical data, and the data uploaded by each offline house module in the period is counted again.

Preferably, the modules of the PaaS platform system based on the real estate marketing adopt 5G communication links for communication.

Preferably, the PaaS platform system based on real estate marketing uses a database module for historical data storage.

Preferably, the PaaS platform system user instruction based on the real estate marketing at least comprises:

a user instruction to restart the system;

a preset instruction for setting an evaluation period;

user instructions for performing database storage;

user instructions for updating the rating information and the transaction information.

The invention provides a PaaS platform system based on house marketing, which uses a house PAAS platform end as a server end, implements interaction with a cloud service platform on a house line of a middle layer and a feedback module on the house line based on a user instruction of a mobile end, receives big data types of bottom layer house attribute information, house transaction information, house evaluation information and the like, provides PaaS service for the PaaS platform system based on house marketing, realizes explicit monitoring of a mobile terminal, and realizes prompt of user feedback evaluation information and user feedback transaction information through enhanced UI display, thereby improving user operability and system functions based on the house marketing PaaS platform system.

Drawings

Fig. 1 is a basic structure diagram of an embodiment of interaction between a mobile terminal of a PaaS platform system based on property marketing and a PaaS platform side of a property, which is shown in the present invention;

fig. 2 is a schematic diagram of a system structure of a PaaS platform system based on real estate marketing according to a preferred embodiment of the present invention;

FIG. 3 is a schematic diagram of a system structure of a PaaS platform system area server module based on real estate marketing according to a preferred embodiment of the present invention;

FIG. 4 is a preferred embodiment of the PaaS platform system local equalization module based on real estate marketing according to the present invention;

fig. 5 is a schematic diagram of a preferred embodiment of the mobile terminal shown in the present invention.

Detailed Description

Several embodiments and benefits of the real estate marketing based PaaS platform system and method as claimed herein are described in detail below to facilitate a more detailed review and decomposition of the present invention.

For better understanding of the technical solutions of the present invention, the following detailed descriptions of the embodiments of the present invention are provided with reference to the accompanying drawings.

It should be understood that the described embodiments are only some embodiments of the invention, and not all 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 terminology used in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the examples of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be understood that although the terms first, second, etc. may be used in embodiments of the invention to describe methods and corresponding apparatus, these keywords should not be limited to these terms. These terms are only used to distinguish keywords from each other. For example, a first understory house module or the like may also be referred to as a second understory house module, and similarly, a second understory house module or the like may also be referred to as a first understory house module without departing from the scope of embodiments of the present invention.

The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination" or "in response to a detection", depending on the context. Similarly, the phrases "if determined" or "if detected (a stated condition or event)" may be interpreted as "when determined" or "in response to a determination" or "when detected (a stated condition or event)" or "in response to a detection (a stated condition or event)", depending on the context.

As shown in fig. 1-5 in the specification, for one of the embodiments of the PaaS platform system based on real estate marketing and the specific embedded module thereof claimed in the present invention, the system includes:

the system comprises a property PAAS platform end, a property PAAS platform end and a property on-line feedback module, wherein the property PAAS platform end is used for establishing PAAS service, feeding back evaluation information update and transaction information update to a mobile end, receiving a user instruction of the mobile end, sending the user instruction to the property on-line cloud service platform and the property on-line feedback module after first processing, and receiving house information from the property on-line cloud service platform and the property on-line feedback module;

as a stackable embodiment, a property PAAS platform end establishes or integrates a PAAS service facing a mobile user, when the mobile user needs to execute an evaluation information query function or a transaction information query function locally, the property PAAS platform end establishes the service on a system side, and executes the corresponding evaluation information query function or transaction information query function based on a property marketing PAAS platform system message transmission mechanism, so that the evaluation information query function or transaction information query function perceived by the user seems to be implemented locally at the mobile terminal.

Specifically, as another stackable embodiment, for example, when the mobile user needs to perform the evaluation information query function locally, the property PAAS platform establishes the service on the system side, and requests the evaluation information of the corresponding offline room module of the corresponding area server linked to the property online cloud service platform and/or the property online feedback module. If the corresponding offline house ID of the user, which needs to perform the evaluation information query function, is AREA1-SEC105, the house PAAS platform end establishes the service on the system side, requests the online cloud service platform of the house and/or the online feedback module of the house to request the corresponding ID of the corresponding AREA server linked by the online cloud service platform of the house to be the evaluation information of the offline house module of AREA1-SEC105, and obtains the latest house evaluation value HEVnew in the evaluation period from the corresponding AREA server or the offline house module, and in the comparison history data, the previous house evaluation value HEVold in the evaluation period sends certain variable algebraic relations of HEVnew and/or HEVold and/or HEVnew and hevolld, such as an amplification value, a reduction value, an increase value, a decrease value and the like or a combination thereof, to the house PAAS platform end;

the mobile terminal is used for providing a user operation UI, feeding back evaluation information updating to the user through positive color setting and negative color setting, and feeding back transaction information updating to the user;

as another embodiment that can be superimposed, for example, the mobile terminal receives from the property PAAS platform terminal HEVnew and/or HEVold and/or some variable algebraic relation between HEVnew and HEVold, and based on some variable algebraic relation between HEVnew and HEVold, for example, the increase amplitude is positive or negative, the evaluation information update is fed back to the user through the positive color setting and the negative color setting; as another stackable embodiment, the positive color may be set to green, and the negative color may be set to red;

the offline house modules comprise local balancing modules;

a local balancing module, configured to balance the house information of the local offline house module, wherein the local balancing module at least includes:

the system comprises a local offline house attribute information management submodule, a local offline house attribute information management submodule and a local offline house attribute information management submodule, wherein the local offline house attribute information management submodule is used for storing and managing local offline house attribute information, and the local offline house attribute information at least comprises local offline house ID, listing price data of local offline houses, position information of local offline houses and area information of local offline houses;

as another stackable embodiment, the local offline house attribute information management submodule manages the house attribute information, and specifically includes: the local offline house attribute information management submodule acquires a local offline house ID from an online property cloud service platform, namely HouID (x), wherein x can be a default serial number or a code number of a local offline house module in the PaaS platform system based on property marketing, and is preset by the system, and the default serial number or the code number of each local offline house module in the PaaS platform system based on property marketing are different; and listing price data P (x) of the local offline house, wherein the listing price data of the local offline house can be acquired from the online cloud service platform of the house by the attribute information management submodule of the local offline house and is updated according to a specific period or frequency. As another stackable embodiment, the local offline house attribute information management sub-module further obtains the location information l (x) of the local offline house based on the local or system location module, and obtains the local offline house area information disid (x) from the local or system location module or from the system preset information, where x may be a default serial number or code number of the local offline house module in the PaaS platform system based on the property marketing, and is preset by the system. As another embodiment which can be overlapped, the ID of the transaction client and the ID of the visitor ID of the same client take the same value, and the transaction client ID and the visitor ID can be preset or input by the system after the client is obtained. The transaction client ID and the visitor ID can be specific character strings, and as an embodiment that can be overlapped, the transaction client ID and the visitor ID can be specific character strings formed by adding specific symbols and/or specific number sequences to name English capital character strings of clients.

The local offline house access submodule is used for storing and managing local offline house access information, and the local offline house access information at least comprises visitor access time and visitor ID;

as a stackable embodiment, the local offline house access submodule stores and manages local offline house access information, and specifically includes: the local offline house access submodule records visitor access time and visitor ID of each local offline house and local offline house ID, stores the visitor access time and the visitor ID in a local area, and reports the visitor access time and the visitor ID to the area server, and reports the visitor access time and the local offline house ID to the on-line house feedback module of the house property and the on-line cloud service platform of the house property through the area server.

The local offline house transaction submodule is used for storing and managing local offline house transaction information, and the local offline house transaction information at least comprises transaction time, a transaction client ID and transaction amount;

as a stackable embodiment, the local offline house transaction submodule stores and manages local offline house transaction information, and specifically includes: the local offline house transaction submodule records the transaction time, the transaction client ID, the transaction amount and the local offline house ID of the local offline house module, stores the transaction time, the transaction client ID, the transaction amount and the local offline house ID in a local area, and reports the transaction time, the transaction client ID, the transaction amount and the local offline house ID to the area server, and reports the transaction time, the transaction client ID, the transaction amount and the local offline house ID to the online house feedback module of the house property and the online cloud service platform of the house property through the area server. As a superimposable embodiment, the transaction client ID and the visitor ID of the same client have the same value.

The PaaS platform system based on the real estate marketing further comprises:

the regional server is used for managing a plurality of offline house modules which are positioned in the same region, namely the same regional information;

the regional server is also used for receiving information stored and managed by a local offline house attribute information management submodule, a local offline house access submodule and a local offline house transaction submodule in a local balancing module contained in each offline house module of a plurality of offline house modules in a region, performing information interaction with a house property online feedback module and a house property online cloud service platform, and receiving system instructions of the house property online feedback module and the house property online cloud service platform;

the regional server is also used for performing evaluation information statistics, transaction information statistics and house information updating of the multi-off-line house-taking module in the region based on the on-line feedback module of the house property and the system instruction of the on-line cloud service platform of the house property;

the system comprises a real estate online feedback module, a real estate server online feedback module and a real estate online feedback module, wherein the real estate online feedback module is used for receiving the house information of a multi-offline house module in an area fed back by each area server and updating the evaluation information of the area servers based on a user instruction or an automatic control instruction dynamically generated by the real estate online feedback module;

and the property online cloud service platform is used for receiving the house information of the offline house modules in the areas fed back by each regional server and updating the transaction information of the regional servers based on a user instruction or an automatic control instruction dynamically generated by the property online cloud service platform.

As a stackable embodiment, the local equalization module communicates in an RFID manner or a wireless local area network.

As a stackable embodiment, the local equalization module communicates in a 5G manner.

As a stackable embodiment, the area server further includes an offline house comparison level module, and the offline house comparison level module is configured to perform house evaluation comparison on the offline houses in each area and adjust the comparison level of the houses.

As a stackable embodiment, the area server further includes an offline house comparison level module, where the offline house comparison level module is configured to perform house evaluation comparison on the offline houses in each area and adjust the comparison level of the houses, and specifically includes: when a specific offline house executes a transaction, the on-line house feedback module of the house property acquires corresponding local offline house transaction information from the corresponding offline house module and records the transaction condition, as a stackable embodiment, the on-line house feedback module of the house property also analyzes the transaction client ID and the transaction amount carried in the local offline house transaction information, compares local offline house access information reported by each offline house module, searches other offline house modules corresponding to visitor IDs with the same ID value as the transaction client ID in the corresponding local offline house transaction information acquired by the on-line house feedback module from the corresponding offline house module of the house property, and sends the other offline house modules to the corresponding local server to which the specific offline house executing the transaction belongs. Thereafter, as a superimposable embodiment, the local offline house transaction information is transmitted to other offline house modules corresponding to the guest ID having the same ID value as the transaction client ID and each other local server s (k) to which the other offline house modules belong by the local offline house belonging to the local offline house transaction server performing the transaction using the offline house comparison level module. Different values of k represent different zones, and k may be associated with zone servers/zones on a one-to-one basis. As a superimposable embodiment, each of the other local servers s (k), after receiving the local offline house transaction information, verifies the local offline house ID carried in the local offline house transaction information, determines whether it belongs to the local offline house ID managed by the local server, and performs offline house level comparison according to the determination result. As a stackable embodiment, an evaluation period may be set for performing the offline house level comparison, which may be preset by the system, such as performing sequential offline house level comparisons on X weekdays, such as 15 weekdays, or dynamically adjusted by the system administrator. As a stackable embodiment, after each evaluation cycle is performed, the data of each offline house module, the area server, the online cloud service platform of the property, and the online feedback module of the property are saved as historical data except for ID data, and the data uploaded by each offline house module in the cycle is counted again.

As a stackable embodiment, it is determined whether it belongs to the local offline house ID managed by the local area server, and according to the determination result, the offline house level comparison is performed, specifically: each other regional server s (k) uses an offline house comparison horizon module, where different values of k represent different regions, and k may be in one-to-one correspondence with regional servers/regions; analyzing the ID value of the carried transaction client ID from the received offline house transaction information, comparing the ID value with the visitor ID carried in the local offline house access information reported by each offline house module in the affiliated area, recording the offline house module ID with the same comparison result, and performing house evaluation comparison and adjusting the comparison level of the house based on the offline house module ID.

As a stackable embodiment, based on the offline house module ID, house evaluation comparison is performed and the comparison level of the house is adjusted, specifically: for example, for a specific AREA server S (6), the offline house module IDs with the same comparison result are recorded, and the offline house module IDs are AREA1-SEC105 and AREA1-SEC012, that is, in the AREA S (6), there are 2 offline house modules that have been visited by the transacting client but have not been handed over, and the IDs are AREA1-SEC105 and AREA1-SEC012, respectively, so that the offline house modules with the IDs of AREA1-SEC105 and AREA1-SEC012 in the AREA S (6) may be inferred to some extent not to match the satisfaction of the user, and therefore, the house HEVnew is set to HEVold-C, where HEVnew is the house evaluation value updated in the current evaluation, HEVold is the house evaluation value after the previous evaluation period, and C is a preset AREA quantitative evaluation scaling value, for example, 0.1. Also, the original value of HEVold can be set by the system, such as 10. For other offline house modules without the same comparison result, the house evaluation value may be set to remain unchanged.

As a superimposable embodiment, the region server further comprises a region quantization module for performing quantization of region evaluation for each region.

As a stackable embodiment, the region server further includes a region quantization module, where the region quantization module is configured to execute a region quantization module on each region and adjust a quantization level of the region, and specifically includes: when a specific offline house executes a transaction, the on-line house feedback module of the house property acquires corresponding local offline house transaction information from the corresponding offline house module and records the transaction condition, as a stackable embodiment, the on-line house feedback module of the house property also analyzes the transaction client ID and the transaction amount carried in the local offline house transaction information, compares local offline house access information reported by each offline house module, searches other offline house modules corresponding to visitor IDs with the same ID value as the transaction client ID in the corresponding local offline house transaction information acquired by the on-line house feedback module from the corresponding offline house module of the house property, and sends the other offline house modules to the corresponding local server to which the specific offline house executing the transaction belongs. Thereafter, as a superimposable embodiment, the local offline house transaction information is transmitted by the local offline house belonging area server performing the transaction to the other offline house modules corresponding to the guest IDs having the same ID value as the transaction client ID, and the respective other area servers s (k) to which the other offline house modules belong, using the area quantifying module. Different values of k represent different zones, and k may be associated with zone servers/zones on a one-to-one basis. As a superimposable embodiment, each of the other local servers s (k), after receiving the local offline house transaction information, verifies the local offline house ID carried in the local offline house transaction information, determines whether it belongs to the local offline house ID managed by the local server, and performs system standardization quantization of the area according to the determination result. As an example of the superimposable embodiment, an evaluation period may be set for system standard quantification of the execution region, and the evaluation period may be preset for the system, such as one evaluation performed in X working days, such as 30 working days, or dynamically adjusted by the system administrator. As a stackable embodiment, after each evaluation cycle is performed, the data of each offline house module, the area server, the online cloud service platform of the property, and the online feedback module of the property are saved as historical data except for ID data, and the data uploaded by each offline house module in the cycle is counted again.

As a stackable embodiment, it is determined whether it belongs to the local offline house ID managed by the local server, and according to the determination result, system standard quantization of the area is performed, specifically: each other regional server s (k) uses an offline house comparison horizon module, where different values of k represent different regions, and k may be in one-to-one correspondence with regional servers/regions; analyzing the received offline house transaction information to obtain the ID value of the carried transaction client ID, comparing the ID value with the visitor ID carried in the local offline house access information reported by each offline house module in the affiliated area, recording the times with the same comparison result, and carrying out regional quantitative evaluation based on the times Ti.

As a stackable embodiment, based on the number Ti, performing quantitative evaluation of the region may specifically be: for example, for a specific area server S (6), the same number of times of the comparison result is recorded, and the number of times Ti is 3, that is, in the area S (6), there are 3 target offline house modules that have been accessed by the transaction client but did not make a transaction, it can be inferred that the area S (6) does not match the satisfaction of the user to some extent, and the larger the number of times Ti is, the more target offline house modules that have been accessed by the client but did not make a transaction in the area are, the higher the degree of mismatch between the area S (6) and the satisfaction of the user is. Therefore, Evnew is the updated area quantization evaluation value of the current evaluation, Evold is the area quantization evaluation value after the last evaluation period, a is the preset area quantization evaluation scaling value, for example, 0.95, and Ti is the same number of times of comparison. Also, the original value of Evold can be set by the system, for example, 100%. For an area within which the comparison result is not the same number of times, the quantization evaluation value of the area may be set to remain unchanged.

As a stackable embodiment, the area server or the on-line feedback module of the property or the on-line cloud service platform of the property further quantitatively sets an evaluation period for the system standard of the execution area, where the evaluation period may be an evaluation performed once on a preset X working day of the system, and X is a preset value of the system, or dynamically adjusted by a system administrator.

As a stackable embodiment, the area server or the on-line feedback module of the property or the on-line cloud service platform of the property further sets an evaluation period for performing the off-line comparison of the house level, where the evaluation period may be an evaluation performed once on a system preset X working days, where X is a system preset value, or dynamically adjusted by a system administrator.

As a stackable embodiment, after each evaluation cycle is performed, the data of each offline house module, the area server, the online cloud service platform of the property, and the online feedback module of the property are saved as historical data except for ID data, and the data uploaded by each offline house module in the cycle is counted again.

As a stackable embodiment, the PaaS platform system based on the real estate marketing adopts a 5G communication link for communication among modules.

As a stackable embodiment, the PaaS platform system based on real estate marketing uses a database module for historical data storage.

As another stackable embodiment, the PaaS platform system user instruction based on the real estate marketing at least comprises:

user instructions for restarting the system, the user instructions for restarting the system enabling a user to control the system to perform a restart while not being self-consistent;

the preset instruction for setting the evaluation period is used for setting the evaluation period;

user instructions for executing database storage, the preset instructions for setting an evaluation period user enabling the system database to store historical or other data;

user instructions for updating the rating information and the transaction information, the user instructions for updating the rating information and the transaction information enabling the system to perform non-periodic/periodic rating information and transaction information updates.

The invention provides a PaaS platform system based on house marketing, which uses a house PAAS platform end as a server end, implements interaction with a cloud service platform on a house line of a middle layer and a feedback module on the house line based on a user instruction of a mobile end, receives big data types of bottom layer house attribute information, house transaction information, house evaluation information and the like, provides PaaS service for the PaaS platform system based on house marketing, realizes explicit monitoring of a mobile terminal, and realizes prompt of user feedback evaluation information and user feedback transaction information through enhanced UI display, thereby improving user operability and system functions based on the house marketing PaaS platform system.

In all the above embodiments, in order to meet the requirements of some special data transmission and read/write functions, the above method and its corresponding devices may add devices, modules, devices, hardware, pin connections or memory and processor differences to expand the functions during the operation process.

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

In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the method steps into only one logical or functional division may be implemented in practice in another manner, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as individual steps of the method, apparatus separation parts may or may not be logically or physically separate, or may not be physical units, and may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, the method steps, the implementation thereof, and the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

The above-described method and apparatus may be implemented as an integrated unit in the form of a software functional unit, which may be stored in a computer readable storage medium. The software functional unit is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) or a Processor (Processor) to execute some steps of the methods according to the embodiments of the present invention. And the aforementioned storage medium includes: a U disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), an NVRAM, a magnetic disk, or an optical disk, and various media capable of storing program codes.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

It should be noted that: the above embodiments are only used to explain and illustrate the technical solution of the present invention more clearly, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A PaaS platform system based on real estate marketing, the system comprising:

the system comprises a property PaaS platform end, a property PaaS platform end and a property on-line feedback module, wherein the property PaaS platform end is used for establishing PaaS service, feeding back evaluation information update and transaction information update to a mobile end, receiving a user instruction of the mobile end, performing first processing, sending the user instruction to the property on-line cloud service platform and the property on-line feedback module, and receiving house information from the property on-line cloud service platform and the property on-line feedback module;

the mobile terminal is used for providing a user operation UI, feeding back evaluation information updating to the user through positive color setting and negative color setting, and feeding back transaction information updating to the user;

the offline house modules comprise local balancing modules;

a local equalization module, configured to equalize the room information of the local offline room module, where the local equalization module at least includes:

the system comprises a local offline house attribute information management submodule, a local offline house attribute information management submodule and a local offline house attribute information management submodule, wherein the local offline house attribute information management submodule is used for storing and managing local offline house attribute information, and the local offline house attribute information at least comprises local offline house ID, listing price data of local offline houses, position information of local offline houses and area information of local offline houses;

the local offline house access submodule is used for storing and managing local offline house access information, and the local offline house access information at least comprises visitor access time and visitor ID;

the local offline house transaction submodule is used for storing and managing local offline house transaction information, and the local offline house transaction information at least comprises transaction time, a transaction client ID and transaction amount;

the PaaS platform system based on the real estate marketing further comprises:

the regional server is used for managing a plurality of offline house modules which are positioned in the same region, namely the same regional information;

the regional server is also used for receiving information stored and managed by a local offline house attribute information management submodule, a local offline house access submodule and a local offline house transaction submodule in a local balancing module contained in each offline house module of a plurality of offline house modules in a region, performing information interaction with a house property online feedback module and a house property online cloud service platform, and receiving system instructions of the house property online feedback module and the house property online cloud service platform;

the regional server is also used for performing evaluation information statistics, transaction information statistics and house information updating of the multi-off-line house-taking module in the region based on the on-line feedback module of the house property and the system instruction of the on-line cloud service platform of the house property;

the system comprises a real estate online feedback module, a real estate server online feedback module and a real estate online feedback module, wherein the real estate online feedback module is used for receiving the house information of a multi-offline house module in an area fed back by each area server and updating the evaluation information of the area servers based on a user instruction or an automatic control instruction dynamically generated by the real estate online feedback module;

and the property online cloud service platform is used for receiving the house information of the offline house modules in the areas fed back by each regional server and updating the transaction information of the regional servers based on a user instruction or an automatic control instruction dynamically generated by the property online cloud service platform.

2. The PaaS platform system based on real estate marketing according to claim 1, wherein the local equalization module communicates using RFID or wireless lan.

3. The PaaS platform system for real estate marketing according to claim 1, wherein the local equalization module communicates in a 5G manner.

4. The real estate marketing-based PaaS platform system of claim 1, wherein:

the regional server further comprises an offline house level comparison module, and the offline house level comparison module is used for performing house evaluation comparison on offline houses in each region and adjusting the comparison level of the houses.

5. The real estate marketing-based PaaS platform system of claim 1, wherein:

the region server further includes a region quantization module for performing quantization of region evaluation for each region.

6. The real estate marketing-based PaaS platform system of claim 4, wherein: the regional server or the on-line feedback module of the property or the on-line cloud service platform of the property further quantitatively sets an evaluation period for the system standard of the execution region, wherein the evaluation period can be one-time evaluation executed for a system preset X working day, and X is a system preset value or is dynamically adjusted by a system administrator.

7. The real estate marketing-based PaaS platform system of claim 5, wherein: the regional server or the on-line feedback module of the house or the on-line cloud service platform of the house also sets an evaluation period for executing the off-line house level comparison, wherein the evaluation period can be used for carrying out one-time evaluation on a system preset X working day, and X is a system preset value or is dynamically adjusted by a system administrator.

8. The real estate marketing-based PaaS platform system of claim 1, wherein: after each evaluation period is carried out, the data of each offline house module, the area server, the online house cloud service platform and the online house feedback module except the ID data are saved as historical data, and the data uploaded by each offline house module in the period are counted again.

9. The real estate marketing based PaaS platform system of claim 8, wherein: and 5G communication links are adopted among all modules of the PaaS platform system based on the real estate marketing for communication.

10. The real estate marketing-based PaaS platform system of claim 1, wherein: the user instruction of the PaaS platform system based on the real estate marketing at least comprises the following steps:

a user instruction to restart the system;

a preset instruction for setting an evaluation period;

user instructions for performing database storage;

user instructions for updating the rating information and the transaction information.

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