CN106453009B - Service control system of intelligent community - Google Patents

Abstract

The invention relates to a service control system of an intelligent community, which comprises a main control computer, a background management terminal, a service application terminal and a remote electric control terminal; the main control computer is in communication connection with the background management terminal, the service application terminal and the remote electric control terminal through the internet; the background management terminal comprises an information storage server, and the information storage server receives householder information input by the main control computer and the service application terminal; the service application terminal comprises a community access control module provided with a Zigbee intelligent gateway, a residential building access control module and an indoor electric appliance control module, wherein the community access control module, the residential building access control module and the indoor electric appliance control module are accessed to the Internet through the Zigbee intelligent gateway and are in interactive communication with the main control computer through the Internet; the network interconnection and intercommunication of various information terminals in the intelligent community control system are realized.

Description

Service control system of intelligent community

Technical Field

The invention belongs to the technical field of Internet of things, and particularly relates to a service control system of an intelligent community.

Background

The intelligent community is an integrated application of new-generation information technologies such as the internet of things, cloud computing and the mobile internet, and provides a safe, comfortable and convenient modern and intelligent living environment for community residents, so that a community with a new management form based on informatization and intelligent social management and service is formed. The intelligent community comprises five aspects of a basic environment, a basic database group, a cloud exchange platform, an application and a service system thereof and a guarantee system.

Because the intelligent community needs to perform all-weather seamless management on each community, the management puts high requirements on the establishment and the updating of data and databases, and on one hand, personnel data and equipment data are randomly and dynamically changed; on the other hand, the number of residents in the cell is large, and the amount of data to be collected and stored is large. Therefore, when the intelligent terminal is used for viewing the objects to be managed in the cell on site, a large amount of data often has to be called, and the calling of the large amount of data requires a large bandwidth, which is undoubtedly a great challenge for the 4G network and the 4G terminal. On the other hand, the storage capacity of the smart terminal is limited, and when the problem of a specific resident/resident is handled, a great deal of capacity waste is caused by calling so much data. Therefore, in the existing intelligent community, how to use the intelligent terminal device with limited capacity, limited network bandwidth and limited operation speed to view and/or control the objects to be managed in the specific building of the community in an intuitive manner exists, and a more scientific community management system and query method are urgently needed to establish the prototype of the intelligent community.

In addition, with the development and application of modern high-tech and information technology, the information age is influencing and changing our living habits, ways, rhythms and quality of life at an unprecedented speed, and people are aiming at pursuing intellectualization and security of residential information in the aspect of housing to realize intelligent housing in the information age.

The Zigbee technology is an emerging short-distance wireless sensor network communication technology. The ZigBee technology is widely applied to occasions with smaller data and low transmission rate requirements, such as environment monitoring, smart home, automobile electronics, industrial control and the like, due to the advantages of short distance, low rate, low power consumption and the like. Compared with other wireless sensor network communication protocols, the ZigBee protocol has unique technical advantages. Due to the appearance of a system on chip (SoC), the difficulty of the application and development of the ZigBee technology is further reduced, and the possibility is provided for an indoor control system of an intelligent community.

ITX is a compact, miniaturized motherboard design that is currently widely used by various vendors for various commercial and industrial applications. It is designed for professional computers with small dimensions in small spaces, such as those used in automobiles, set-top boxes, and network appliances. The ITX mainboard has small size, low power consumption and low power: less than 100 watts, on a motherboard and cooled only with a heatsink heat sink rather than with a heat sink plus fan. The video card, the sound card and the local area network are connected and integrated on the ITX mainboard. It also has two Universal Serial Bus (USB) ports, a serial-to-parallel interface, audio input and output, and Peripheral Component Interconnect (PCI) slots, which use a stand-up card, can support two devices, has no floppy drive interface, but has a CD-ROM or DVD-ROM interface. A case box, a memory, a hard disk drive and a power supply form a complete and not very expensive computer, and support is provided for an intelligent gateway which plays a role of a control hub in an intelligent community control system.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a service control system of an intelligent community, wherein the intelligent community at least comprises an intelligent terminal and a cloud server, and the cloud server instantiates an object to be managed into a community three-dimensional building model pre-established by the cloud server in a self-adaptive mode and/or a competitive mode based on spatial information which is acquired by the intelligent terminal and comprises a first object to be managed and at least one second object to be managed and described in a natural language so as to realize the position matching of the object to be managed and the three-dimensional building model;

the cloud server completes identity verification and authority verification of a first object to be managed based on preset verification information and receives verified first object to be managed service request data acquired by the intelligent terminal, and the cloud server sends data records of at least one second object to be managed to the intelligent terminal of the first object to be managed in a data mode related to a community three-dimensional building model based on the service request data and the authority data information of the first object to be managed in a graphic and/or color marking mode.

According to a preferred embodiment, the cloud server completes the identity authentication of the first object to be managed based on the identity authentication information of the first object to be managed acquired by the intelligent terminal and the preset fingerprint identification information, face identification information and password identification information in the server, completes the authority authentication based on the identity information of the first object to be managed and performs authority identification on the service request data, and divides the service request data completing the authority identification into corresponding authority request databases and stores the authority request databases, so that the service request data of the first object to be managed are received.

According to a preferred embodiment, the cloud server calls the service request data from the corresponding authority request database based on the service request data and the authority marking information of the first object to be managed, marks the data record information of at least one second object to be managed, which meets the authority requirement and is related to the request data, in a mode of one or a combination of several of figures, colors and characters, and sends the marked data record information to the intelligent terminal of the first object to be managed in a data mode related to a community three-dimensional building model.

According to a preferred embodiment, the cloud server marks at least one second object to be managed of different service item categories in the three-dimensional building model through different graphs based on data record information of the at least one second object to be managed related to the request data meeting the authority requirement;

the cloud server marks at least one second object to be managed with different busyness degrees in the three-dimensional building model through different colors based on data recording information of at least one second object to be managed related to request data meeting the authority requirement, displays the second object to be managed unrelated to the service request information in the three-dimensional building model in transparent color, matches the position of the at least one second object to be managed related to the request data meeting the authority requirement based on the three-dimensional building model, displays the second object to be managed related to the request data in a graphic mode through the marks of graphics and/or colors, and pushes the second object to be managed to the intelligent terminal of the first object to be managed.

According to a preferred embodiment, the data mode related to the community three-dimensional building model is to match the data records to the corresponding positions of the community three-dimensional building map model corresponding to the second object to be managed;

the pattern of data records matching to corresponding locations includes: the mode of combining the position information in the community three-dimensional building map information described in natural language with the data record, the mode of combining the community three-dimensional building map information with the data record and/or the mode of combining the community three-dimensional building map coordinates with the data record.

According to a preferred embodiment, the cloud server further comprises a modeling unit and an information storage unit, wherein the modeling unit is used for establishing a three-dimensional building model based on the community building space information, sending a space information mark and/or a data record of the three-dimensional building model to the information storage unit for storage, and sending a three-dimensional graphic model corresponding to the information mark and/or the data record to the intelligent terminal for storage.

According to a preferred embodiment, the service system further comprises a main control computer, a background management terminal, a service application terminal and a remote electric control terminal;

the main control computer is in communication connection with the background management terminal, the service application terminal and the remote electric control terminal through the internet, the background management terminal comprises an information storage server, the information storage server receives householder information input by the main control computer and the service application terminal, and the background management terminal is connected with the intelligent community system;

the service application terminal comprises a community access control module provided with a Zigbee intelligent gateway, a residential building access control module and an indoor electric appliance control module, wherein the community access control module, the residential building access control module and the indoor electric appliance control module are accessed to the Internet through the Zigbee intelligent gateway and are in interactive communication with the main control computer through the Internet;

the first object to be managed graphically displays data record information of at least one second object to be managed, which is pushed to the intelligent terminal of the first object to be managed and meets the authority requirement and is related to the request data, based on the received marks in graphics and/or colors, and the control of the determined at least one second object to be managed is realized through the service application end.

According to a preferred embodiment, the remote electric control terminal comprises a household total electric intelligent switch, a building total electric intelligent switch, a transformer equipment control module and a standby generator set control module, wherein the household total electric intelligent switch is provided with a Zigbee module, the household total electric intelligent switch is in communication connection with a Zigbee intelligent gateway on the indoor electric appliance control module through the Zigbee module, and the building total electric intelligent switch, the transformer equipment control module and the standby generator set control module are all connected to the main control computer through an Ethernet module;

the community access control module comprises an access card reader, an access Zigbee intelligent gateway and an access controller, wherein Zigbee modules are arranged on the access card reader and the access controller and are in interactive communication connection with the access Zigbee intelligent gateway through the Zigbee modules.

According to a preferred embodiment, the resident building entrance guard control module comprises a building entrance guard card reader, a building entrance guard fingerprint recognizer, a building Zigbee intelligent gateway, a building entrance guard controller, an elevator entrance guard card reader, an elevator fingerprint recognizer and an elevator entrance guard controller, wherein the building entrance guard card reader, the building entrance guard fingerprint recognizer, the building entrance guard controller, the elevator entrance guard card reader, the elevator fingerprint recognizer and the elevator entrance guard controller are all provided with Zigbee modules which are in signal connection with the building Zigbee intelligent gateway through the Zigbee modules;

the indoor electric appliance control module comprises an indoor electric appliance controller provided with a Zigbee module and an indoor Zigbee intelligent gateway in signal connection with the indoor electric appliance controller through the Zigbee module, and a voltage measurement meter and an electric quantity statistical meter are arranged on the household total electricity intelligent switch and the building total electricity intelligent switch.

According to a preferred embodiment, the matching of the positions of the first object to be managed and the at least one second object to be managed is established by:

each building in the intelligent community is selected from a plurality of preset three-dimensional building models, and the selected three-dimensional building models are endowed with names described by natural language;

adopting an adaptive method to generate a first physical relationship between a first object to be managed and a first building and recording the first physical relationship by virtue of natural language description;

describing a second physical relationship between at least one second object to be managed and the first building by adopting a competition method on the premise of considering the first physical relationship, and recording the second physical relationship by utilizing natural language description;

the physical relationship between the first object to be managed and the first building is obtained by analyzing information subscribed from the intelligent terminal held by the first object to be managed;

the information obtained by subscription at least comprises the position information and the information pushing time of the intelligent terminal,

calculating at least two building internal positions with the closest physical relationship of the first object to be managed by analyzing the subscribed position information and the information pushing time,

at least two building interior locations of the first object to be managed are graphically embedded in a three-dimensional building model,

and distributing at least two building internal positions which are determined by analyzing the subscription information of the at least one second object to be managed and have the closest physical relationship with the at least one second object to be managed to the three-dimensional building model under the premise of considering the second physical relationship between the at least one second object to be managed and the first building, so as to realize the position matching of the objects to be managed and the three-dimensional building model.

The invention has the technical effects that:

according to the intelligent community established by the method, residents can manage themselves without being controlled by a central controller, the method adopts a self-adaptive management method to embed the object to be managed into the three-dimensional building model, the position of the object to be managed in the three-dimensional building model is determined by mutual check and verification in a cloud server through a competition method, data are not required to be orderly arranged and then are centrally stored in a central management system, and the establishment of a database is reduced. On the other hand, when the state of the object to be managed is checked, the data record related to the object to be checked can be called only by inputting the natural language description related to the object to be checked, the method is convenient to use and accords with the daily life habit, and the called data record is only related to the object to be checked, so that the situation of the object to be managed in a specific community building can be checked and/or controlled in an intuitive mode at an intelligent terminal with limited capacity, limited network bandwidth and limited operation speed.

According to the service control system of the intelligent community, the network interconnection and intercommunication of various information terminals in the intelligent community system are realized through the internet interactive communication between the main control machine and the local area network based on the Zigbee wireless communication on the basis of the intelligent community system, so that the comprehensive intelligent monitoring of the intelligent community is realized, and the safety of residents in the intelligent community is ensured.

Drawings

FIG. 1 is a schematic diagram of a preferred embodiment of the intelligent community of the present invention; and

FIG. 2 is a functional block diagram of the service control system of the intelligent community of the present invention.

Detailed Description

The following detailed description is made with reference to the accompanying drawings.

According to a preferred embodiment, the intelligent community is established by an intelligent system comprising: as shown in fig. 1, the intelligent community system at least includes a cloud server and an intelligent terminal. The cloud server is used for establishing a three-dimensional model of the building of the community and storing information of objects to be managed of the intelligent community. The intelligent terminal is used for collecting information of the object to be managed and uploading the collection time to the cloud-end database for storage, and the intelligent terminal is also used for displaying information related to the object to be managed.

According to a preferred embodiment, the cloud server comprises a modeling unit and an information storage unit. The modeling unit is used for establishing a three-dimensional building model based on the building space information of the community, sending a space information mark and/or a data record of the three-dimensional building model to the information storage unit for storage, and sending a three-dimensional graphic model corresponding to the information mark and/or the data record to the intelligent terminal for storage. Preferably, the modeling unit is a three-dimensional digitizer, three-dimensional modeling software, an application specific integrated circuit or a single chip microcomputer and the like. The information storage unit is used for storing the spatial information marks and/or the data records of the three-dimensional building model. The information storage unit is also used for storing the information of the object to be managed and the acquisition time acquired by the intelligent terminal. Preferably, the information storage unit is an application specific integrated circuit or a single chip microcomputer or the like.

According to a preferred embodiment, the intelligent terminal is connected with the cloud server in a wired and/or wireless mode. The intelligent terminal is used for collecting information of the objects to be managed in the community and sending the collected information and the collection time to the cloud server for storage. The intelligent terminal is also used for displaying the running condition of the object to be managed in an intuitive mode. Preferably, the intelligent terminal is an intelligent device such as a mobile phone and a computer.

According to a preferred embodiment, the intelligent system establishes the intelligent community by:

s1: each building in the intelligent community is selected from a plurality of preset three-dimensional building models, and the selected three-dimensional building models are assigned names described in natural language.

According to a preferred embodiment, the preset three-dimensional building model is built by: and a modeling unit of the cloud server loads an electronic map or a CAD graph of the intelligent community as a base map, and establishes a two-dimensional map corresponding to the intelligent community based on the base map. And then the modeling unit completes the establishment of a three-dimensional model of the community building on a two-dimensional map based on the space information of the community building, and assigns a name described by natural language to the three-dimensional building model. The natural language is a daily description language which is separated from professional descriptions such as longitude, latitude, altitude and the like. For example, a natural language location for room a is described as a certain room on a certain floor of a certain building number in a certain cell of a certain street. For example, the three-dimensional building model is given names such as 2 buildings in the A area, XX buildings, XX squares and the like which conform to the daily use habits of community residents. Preferably, the two-dimensional map established by the modeling unit only geometrically corresponds to the two-dimensional geographic state corresponding to the intelligent community to be managed. Preferably, the two-dimensional map corresponds proportionally to the actual geographic distribution of the intelligent community. Preferably, the community building space information is uploaded to the cloud server through the intelligent terminal. The community building space information comprises information such as the number of floors, the number of rooms in each floor, the building position and the like. And the modeling unit instantiates the building to the corresponding position of the two-dimensional map in a mode of the same scale as the two-dimensional map of the community based on the building position information of the community, so as to realize the establishment of the three-dimensional model of the community.

According to a preferred embodiment, the three-dimensional building model constructed by the invention comprises three-dimensional building appearance and three-dimensional building internal structure. The internal pattern of the three-dimensional building comprises building patterns such as rooms, corridors, emergency channels and the like. The three-dimensional building model comprises model data information and a three-dimensional graphic model. The three-dimensional graphic model provides a overlooking visual angle, a perspective visual angle and a 360-degree all-dimensional visual angle for checking the position information of the building floor.

According to a preferred embodiment, the modeling unit sends model data information of the three-dimensional building model to the information storage unit of the cloud server for storage, and sends the three-dimensional graphic model corresponding to the model data information to the intelligent terminal for storage. The model data information comprises information such as building positions, building floor numbers and the number of rooms corresponding to each floor of the building.

According to a preferred embodiment, the intelligent terminal stores a plurality of image information, in particular all three-dimensional models, locally. When the intelligent terminal inquires the building space information, the cloud server responds to the inquiry of the building information, and model data information (such as a section of code) corresponding to the three-dimensional building model is pushed to the intelligent terminal by the cloud server. And the intelligent terminal inquires and determines a corresponding three-dimensional building model based on the model data information, calls the corresponding three-dimensional building model from a locally stored three-dimensional model library and then displays the three-dimensional building model on a display of the intelligent terminal. Therefore, downloading of a large amount of image information from the cloud is avoided, and local display of the intelligent terminal is accelerated.

S2: an adaptive method is used to generate a first physical relationship between a first object to be managed and a first building and the first physical relationship is recorded by means of a natural language description. The object to be managed is, for example, a resident, a vending machine or a pipe shaft, and may be an elevator or a trash. The building may be a hospital, school, factory, residential building or department store.

According to a preferred embodiment, the intelligent terminal embeds the object to be managed in a corresponding position of the three-dimensional building model in a graphic mode in an adaptive mode based on natural language description input by an operator and aiming at the object to be managed. At this time, the intelligent terminal may determine the graphic position of XX hospital by using natural language description search according to the retrieval condition of "XX hospital 2509 room" in the intelligent community map read by the intelligent terminal based on the description of natural language, and then insert the graphic position of XX hospital into 25 layers of positions in the three-dimensional image according to the description of "2509 room" in natural language. A first physical relationship between the first object to be managed and the first building is thus generated. And the intelligent terminal records the first physical relationship through natural language description and sends the first physical relationship to an information storage unit for storage. For example, the first physical relationship is described as a description that fitness equipment is located in room number 101 of a fitness room, public telephones are located in a hall of each cell, a resident a is located in two places 2509 of the a area, and the like, which accords with the daily use habits of community residents. The objects to be managed are people and things to be managed in the intelligent community. Preferably, the object to be managed is embedded in the three-dimensional building model in an image, the graphical position representing the position of the object to be managed.

According to a preferred embodiment, the adaptive algorithm of the present invention includes, but is not limited to, a randomization algorithm, a zero-forcing algorithm, a steepest descent algorithm, an LMS algorithm, an RLS algorithm, and various blind equalization algorithms. The adaptive algorithm may more preferably be a description-based matching algorithm that matches one object of two finite sets one by one to an object of another set that is unknown in number and size according to the natural language description.

S3: describing a second physical relationship between at least one second object to be managed and the first building by adopting a competition method on the premise of considering the first physical relationship, and recording the second physical relationship by utilizing natural language description.

According to a preferred embodiment, the intelligent terminal sends the first physical relationship between the first object to be managed and the first building to the information storage unit of the cloud server for storage. Under the premise of considering the first physical relationship, the cloud server describes a second physical relationship between at least one second object to be managed and the first building by adopting a competition method, and records the second physical relationship by utilizing natural language description. The cloud server finds out at least one second object to be managed which is the same as the building where the first object to be managed is located according to analysis of natural language description of the object to be managed, and adaptively embeds the at least one second object to be managed into a second corresponding position of the three-dimensional building model based on the natural language description of the at least one second object to be managed. Thus, a second physical relationship between a second object to be managed and the first building is generated. And the intelligent terminal records the second physical relationship through natural language description and sends the second physical relationship to the information storage unit for storage.

S4: the physical relationship between the first object to be managed and the first building is analyzed through information subscribed from the intelligent terminal held by the first object to be managed. The process at least comprises the following steps:

s4.1: and the information obtained by subscription at least comprises the position information and the information pushing time of the intelligent terminal.

According to a preferred embodiment, the cloud server sends subscription request information to the intelligent terminal held by the first object to be managed, and requests to subscribe the position information of the first object to be managed. The intelligent terminal receives a subscription request of the cloud server, and sends the position information of the first object to be managed after moving and the stay time information corresponding to the position information to the cloud server at the specified time. The position information of the present invention is position information that the first object to be managed can stay at a position for more than a defined time. The defined time may be preset. For example, the defined time may be 0.5 hour, 1 hour, 2 hours, or longer.

According to a preferred embodiment, the subscriptions include electronic subscriptions and physical subscriptions. For example, the physical subscription involves information including a subscribing user, an address, a subscription time, a push time per day, and the like. The first object to be managed may set one or more address information based on the push time of the subscription each day. That is, the subscribed entity providing unit is delivered to different positions set by the first object to be managed based on different delivery times. The different location information may be a living location, a working location, a leisure and recreation location, etc. of the object to be managed.

S4.2: and calculating the internal positions of at least two buildings with the closest physical relationship of the first object to be managed by analyzing the position information and the information pushing time obtained by subscription.

According to a preferred embodiment, the cloud server selects the position information and the stay time information of the first object to be managed staying in the first building according to the position information, the stay time information and the information push time of the first object to be managed in the first building, which are obtained through subscription, and obtains at least two building internal positions which are in the closest physical relationship with the first object to be managed. For example, the first object to be managed appears most frequently at the position of room a in the first building, and stays for the longest time each time in room B in the first building. The a room and the B room are the internal positions of the two buildings that are in the closest physical relationship with the first object to be managed.

S4.3: at least two building interior locations of the first object to be managed are graphically embedded in a three-dimensional building model.

According to a preferred embodiment, the at least two building interior positions of the first object to be managed can be embedded graphically in the three-dimensional building model. The graphics include geometric graphics and color pictures. The graphics include two-dimensional graphics and three-dimensional graphics. The two-dimensional graphics may be simple geometric graphics, logo graphics, and two-dimensional color pictures. The three-dimensional graphics include graphics that are visually perceived as three-dimensional spatial graphics and colored three-dimensional graphics. Preferably, the graph may be a unique graph having a one-to-one mapping relationship with the first object to be managed, or may be a unique graph having a correspondence relationship with a position in the building. Alternatively, the graphic may be a landmark graphic representing a certain place.

For example, a graphic having a mapping relationship with a first object to be managed is embedded in at least two internal locations in a three-dimensional building model of a first building in close physical relationship therewith. When the intelligent terminal requests the cloud server side to check the distribution condition of the management objects of the whole building, the cloud server responds to the request of the intelligent terminal and sends data of each indoor position in the appointed building to the three-dimensional building model of the intelligent terminal. The graphics of all the management objects within the specified building are displayed at the corresponding locations of the three-dimensional building model. By specifying the display graphics in the three-dimensional building model of the building, the positions of the respective management objects can be determined.

For example, the graph has a mapping relationship with a location within a building. The intelligent terminal sends request information for searching the management object to the cloud server side, the cloud server side responds to the request information of the intelligent terminal, and information related to the management object is sent to the intelligent terminal. The graphics of the two geographical locations closely associated with the management object are displayed at corresponding locations of the three-dimensional building model of the building.

According to a preferred embodiment, the building internal position is embedded in a graphical manner, which means that the cloud server embeds a two-dimensional graph or a three-dimensional graph established based on the geographic position description information of the first object subscription information to be managed into a corresponding position in the building model of the first building marked by the first object to be managed.

S4.4: and distributing at least two building internal positions which are determined by analyzing the subscription information of the at least one second object to be managed and have the closest physical relationship with the at least one second object to be managed to the three-dimensional building model under the premise of considering the second physical relationship between the at least one second object to be managed and the first building, so as to realize the position matching of the objects to be managed and the three-dimensional building model.

According to the method, by searching for data conflicts, the positions of the objects to be managed in the three-dimensional building model are mutually checked and verified in the cloud server, and the positions are repeatedly adjusted to accurately determine the specific positions of all the objects to be managed in the intelligent community. When the intelligent system manages the intelligent community, a database does not need to be established in advance, and the requirements on the network and the equipment are greatly reduced.

According to a preferred embodiment, the invention takes a random algorithm as an example to explain how to adopt a competition method to embed the object to be managed into the corresponding position of the three-dimensional building model. For example, the address filled by the first object to be managed is two a zones 25a09, and a09 is divided into one of the two a zones 25. And then based on the analysis of the natural language description of the objects to be managed, at least one second object to be managed which is the same as the building where the two buildings 25A09 in the A area are located is found. According to the method, another address is found: the two 2509 in the a area divide 09 into one of the 25 layers of the two a areas, and when the position is found to be occupied, a query request is sent to the cloud server to check the two a areas. By checking, it is found that 25a09 should be in space number 09 at 24 levels, and the cloud server adjusts the positions of the two accordingly. According to the method, the matching of the spatial position information of each object to be managed in the community is completed.

According to a preferred embodiment, the intelligent terminal collects information of the object to be managed and sends the information of the object to be managed and the collection time to the information storage unit of the cloud server for storage. Preferably, the information of the object to be managed collected by the intelligent terminal includes time information, space information, basic information and the like of the residents of the community to be managed, and time information, space information, basic service information, function information, occupation state information, self-demand information and the like of the device to be managed or the service provider. The information of the object to be managed collected by the intelligent terminal also comprises various dynamic information related to residents of the community to be managed, equipment to be managed or a service provider. Such as the progress of a community event. Preferably, the information storage unit of the cloud server stores four-dimensional data. The four-dimensional data at least comprises three-dimensional space information and one-dimensional time information of the object to be managed, which are acquired by the intelligent terminal.

According to a preferred embodiment, the cloud server searches the object to be managed based on the natural language input by the intelligent terminal and related to the object to be managed. For example: when the intelligent terminal inputs the two A areas 25A09, the cloud server pushes the data records related to the two A areas 25A09 to the intelligent terminal and displays the data records on the display of the intelligent terminal. The information storage unit of the cloud server stores four-dimensional data, and the cloud server searches by using time information and space information related to an object to be managed, so that the searching efficiency can be improved. On the other hand, when the state of the object to be managed is checked, the data record related to the object to be checked can be called only by inputting the natural language description related to the object to be checked, the method is convenient to use and accords with the daily life habit, and the called data record is only related to the object to be checked, so that the situation of the object to be managed in a specific community building can be checked and/or controlled in an intuitive mode at an intelligent terminal with limited capacity, limited network bandwidth and limited operation speed.

According to a preferred embodiment, the cloud server completes the identity verification and the authority verification of the first object to be managed based on preset verification information. And the cloud server receives the first to-be-managed object service request data which is acquired by the intelligent terminal and passes the verification. The cloud server sends the data record of at least one second object to be managed to the intelligent terminal of the first object to be managed in a data mode related to the community three-dimensional building model in a graphic and/or color marking mode based on the service request data and the authority data information of the first object to be managed. The data record may include service item introduction information, service person introduction information, personal qualification information, and other related information of the corresponding object to be managed. The cloud server completes the identity verification of the first object to be managed based on the identity verification information of the first object to be managed, which is acquired by the intelligent terminal, and fingerprint identification information, face identification information and password identification information which are preset in the server. The intelligent terminal collects fingerprint information of the first object to be managed through a touch screen sensor. The intelligent terminal collects the face information of the first object to be managed through a camera. And the intelligent terminal acquires the password information of the first object to be managed through a keyboard or a microphone device.

And the cloud server completes authority verification based on the identity information of the first object to be managed and carries out authority identification on the service request data. The authority verification process is that the cloud server completes authority verification and classification of the first object to be managed based on preset authority information of a specific object to be managed and identity information of the first object to be managed. The preset authority information may include a plurality of authority levels. The cloud server divides the service request data completing the authority identification into corresponding authority request databases and stores the authority request databases, and therefore the service request data of the first object to be managed is received.

According to a preferred embodiment, the cloud server retrieves the service request data from the corresponding permission request database based on the service request data and the permission indication information of the first object to be managed. And the cloud server marks the data record information of at least one second object to be managed, which meets the authority requirement and is related to the request data, in a mode of one or a combination of a plurality of graphics, colors and characters. And simultaneously sending the marked data record information to the intelligent terminal of the first object to be managed in a data mode related to the community three-dimensional building model. For example, the second object to be managed of a different service class is marked by a different graphic. Marking the second objects to be managed with different busyness degrees by different colors. And realizing information marking such as service item introduction and the like of the second object to be managed through characters.

According to a preferred embodiment, the cloud server marks at least one second object to be managed of different service item categories in the three-dimensional building model through different graphs based on data record information of at least one second object to be managed related to request data meeting the authority requirement. For example, sports services are marked by circles, entertainment services are marked by squares, dining services are marked by triangles, and so on.

The cloud server marks at least one second object to be managed with different busy degrees in the three-dimensional building model through different colors based on data record information of at least one second object to be managed related to request data meeting the authority requirement. And simultaneously displaying a second object to be managed in the three-dimensional building model, which is irrelevant to the service request information, in transparent color. For example, the degree of busyness of the corresponding service organization may be displayed using a gradual change in color, with an increase in busyness being represented by a process of changing color from light to dark, with lighter colors being more free and darker colors being more busy.

And the cloud server matches the position of at least one second object to be managed which meets the authority requirement and is related to the request data based on the three-dimensional building model and displays and pushes the second object to be managed to the intelligent terminal of the first object to be managed in a graphic mode by using the marks of graphics and/or colors. According to a preferred embodiment, the data associated with the three-dimensional building model of the community is obtained by matching the data records to corresponding positions of the three-dimensional building map model of the community corresponding to the second object to be managed. The pattern of data records matching to corresponding locations includes: the mode of combining the position information in the community three-dimensional building map information described in natural language with the data record, the mode of combining the community three-dimensional building map information with the data record and/or the mode of combining the community three-dimensional building map coordinates with the data record. For example, matching the data records to corresponding locations may be describing corresponding location information in natural language and associating the description to a data record; or directly associating the data records to a map of a corresponding position, and recording the data records and the map data as integral data; it is also possible to represent the corresponding position information in map information coordinates and to associate the coordinate information to a data record. Therefore, the information or the data record of at least one second object to be managed related to the request data is sent to the intelligent terminal of the first object to be managed in a mode of being combined with the community map.

As shown in fig. 2, the service control system of the intelligent community further includes a main controller, a background management terminal, a service application terminal, and a remote control terminal. The main control machine is in communication connection with the background management terminal, the service application terminal and the remote electric control terminal through the internet, and is used for controlling the working states of the background management terminal, the service application terminal and the remote electric control terminal. The background management terminal comprises an information storage server, the information storage server receives householder information input by a main control computer and the service application terminal, and the main control computer calls user information in the background management terminal through the Internet for analysis and processing. The background management terminal is further connected to the intelligent community system, and data interaction is carried out in an information storage unit in the intelligent community system. The service application terminal comprises a community access control module, a resident building access control module and an indoor electric appliance control module, wherein the community access control module, the resident building access control module and the indoor electric appliance control module are provided with Zigbee intelligent gateways, and the community access control module, the resident building access control module and the indoor electric appliance control module are connected into the Internet through the Zigbee intelligent gateways and are in interactive communication with the main control computer through the Internet.

The first object to be managed graphically displays data record information of at least one second object to be managed, which is pushed to the intelligent terminal of the first object to be managed and meets the authority requirement and is related to the request data, based on the received marks in graphics and/or colors, and the control of the determined at least one second object to be managed is realized through the service application end. For example, the access control system control and the indoor appliance control corresponding to the second object to be managed can be realized through the service application terminal. The second object to be managed may be a community owner or a cell service provider, etc. The first object to be managed may be a community property manager, a community owner, and a cell service provider.

Community access control module, resident building access control module, the information data that equipment operation produced passes through Zigbee intelligent gateway and internet input main control computer among the indoor electrical control module, main control computer passes through internet and Zigbee intelligent gateway to community access control module after to information data analysis processes, resident building access control module, indoor electrical control module input control signal, community access control module, resident building access control module, indoor electrical control module is according to control signal operation equipment.

The remote electric control terminal comprises a household total electricity intelligent switch, a building total electricity intelligent switch, a transformer equipment control module and a standby generator set control module, wherein a Zigbee module is arranged on the household total electricity intelligent switch, the household total electricity intelligent switch is in communication connection with an indoor Zigbee intelligent gateway on an indoor electric appliance control module through the Zigbee module so as to be convenient for a household to inquire the household electricity utilization condition by visiting a household gateway, and the building total electricity intelligent switch, the transformer equipment control module and the standby generator set control module are all connected into a main control computer through an Ethernet module so as to be convenient for the main control computer to control the building electricity utilization, the community total electricity and the standby generator set.

The community access control module comprises an access card reader, an access Zigbee intelligent gateway and an access controller, wherein Zigbee modules are arranged on the access card reader and the access controller, and are in interactive communication connection with the access Zigbee intelligent gateway through the Zigbee modules.

The access control card reader reads user information in an access control card and inputs the user information into an access control Zigbee intelligent gateway through a Zigbee module, the access control Zigbee intelligent gateway inputs the user information into a main control machine through the Internet through an Ethernet module in the access control Zigbee intelligent gateway, the main control machine sends an operation signal to the access control Zigbee intelligent gateway after calling user information stored in a background management terminal for analysis and processing, the access control Zigbee intelligent gateway sends the operation signal to an access controller, and the access controller controls a gate to be opened or closed.

Resident's building entrance guard control module includes building entrance guard card reader, building entrance guard fingerprint identification ware, building Zigbee intelligent gateway, building entrance guard controller, elevator entrance guard card reader, elevator fingerprint identification ware and elevator entrance guard controller, building entrance guard card reader, building entrance guard fingerprint identification ware, building entrance guard controller, elevator entrance guard card reader, all be equipped with the Zigbee module on elevator fingerprint identification ware and the elevator entrance guard controller to through Zigbee module and building Zigbee intelligent gateway signal connection.

After reading the entrance guard card information or fingerprint information of a user, the building entrance guard card reader and the elevator fingerprint recognizer input the entrance guard card information or fingerprint information of the user into the building Zigbee intelligent gateway in the form of Zigbee signals through the Zigbee module, the building Zigbee intelligent gateway modulates and demodulates the Zigbee signals into data signals which can be read by the processor, the data signal is input into the main control computer through the internet, the main control computer calls the user information stored in the background management terminal to realize the analysis and comparison of the data information input into the main control computer, and inputs control signals to the building Zigbee intelligent gateway according to the comparison result, the building Zigbee intelligent gateway modulates and demodulates the control signals into Zigbee signals and sends the Zigbee signals to a building access controller or an elevator access controller, so that the building entrance guard controller or the elevator entrance guard controller correspondingly controls the opening or closing of the building door or the elevator.

The indoor electric appliance control module comprises an indoor electric appliance controller provided with a Zigbee module and an indoor Zigbee intelligent gateway which is in signal connection with the indoor electric appliance controller through the Zigbee module. The indoor electric appliance controller transmits the running state data corresponding to the indoor electric appliance to the indoor Zigbee intelligent gateway in a Zigbee signal form through the Zigbee module, the indoor Zigbee intelligent gateway modulates and demodulates the Zigbee signal into a data signal which can be read by the processor and transmits the data signal to the main control computer through the Internet, the main control computer analyzes the running state of the indoor electric appliance according to the data signal so as to facilitate the monitoring of the community on the electric appliance used by the household, when the household uses the electric appliance to exceed the community load range or the household uses the electric appliance to have an accident under the condition that the household is not in use, the remote control of the household using the electric appliance by community staff is facilitated, meanwhile, the household can also monitor the working state of the household electric appliance by visiting the household gateway, when the community staff needs to remotely control the indoor electric appliance, the community staff transmits a control signal to the indoor Zigbee intelligent gateway through the main control computer, the indoor Zigbee intelligent gateway modulates and demodulates the control signal into a Zigbee signal and sends the Zigbee signal to the indoor electric appliance controller to control the work of the indoor electric appliance. The intelligent switch for household total electricity and the intelligent switch for building total electricity are both provided with a voltage measuring meter and an electricity quantity statistical meter, so that the main control computer can monitor electricity consumption and voltage in the community.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of the present disclosure, may devise various arrangements that are within the scope of the present disclosure and that fall within the scope of the invention. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents.

Claims (10)

1. The service control system of the intelligent community is characterized in that the intelligent community at least comprises an intelligent terminal and a cloud server, and the cloud server instantiates an object to be managed into a community three-dimensional building model pre-established by the cloud server in a self-adaptive mode and a competitive mode based on spatial information which is acquired by the intelligent terminal and comprises a first object to be managed and at least one second object to be managed and is described in a natural language so as to realize position matching of the object to be managed and the three-dimensional building model;

the identity authentication of the first object to be managed is completed by the cloud server based on the identity authentication information of the first object to be managed acquired by the intelligent terminal and the preset identity information of the first object to be managed and the fingerprint identification information, the face identification information and the password identification information in the server, the authority authentication is completed by the cloud server based on the identity information of the first object to be managed, authority authentication and classification of the first object to be managed are completed by the cloud server in the authority authentication process, the first object to be managed which is acquired by the intelligent terminal is received by the cloud server and qualified in service request data of the first object to be managed acquired by the intelligent terminal, and at least one first object is marked in a graphic and/or color mode by the cloud server based on the service request data and the authority data information of the first object to be managed And sending the data records of the two objects to be managed to the intelligent terminal of the first object to be managed in a data mode related to the three-dimensional building model of the community.

2. The service control system of an intelligent community according to claim 1, wherein the cloud server completes the authentication of the first object to be managed based on the authentication information of the first object to be managed collected by the intelligent terminal and the fingerprint identification information, face identification information and password identification information included in the first object to be managed preset and server, completes the authorization authentication based on the authentication information of the first object to be managed and performs authorization identification on the service request data, and divides the service request data on which the authorization identification is completed into the corresponding authorization request databases and stores the authorization request data, thereby realizing the reception of the service request data of the first object to be managed.

3. The service control system of the intelligent community as claimed in claim 1, wherein the cloud server retrieves service request data from a corresponding authority request database based on the service request data and the authority indication information of the first object to be managed, marks data record information of at least one second object to be managed, which meets the authority requirement and is related to the request data, in a mode of one or a combination of several of graphics, colors and characters, and sends the marked data record information to the intelligent terminal of the first object to be managed in a data mode related to a three-dimensional building model of the community.

4. The service control system of the intelligent community according to claim 3, wherein the cloud server marks at least one second object to be managed of different service item categories in the three-dimensional building model through different graphs based on data record information of the at least one second object to be managed related to request data meeting authority requirements;

the cloud server marks at least one second object to be managed with different busy degrees in the three-dimensional building model through different colors based on data record information of at least one second object to be managed related to request data meeting the authority requirement, displays the second object to be managed unrelated to the service request information in the three-dimensional building model in transparent color, matches the data record of at least one second object to be managed related to the request data meeting the authority requirement based on the position of the three-dimensional building model, displays the data record of the at least one second object to be managed related to the request data in a graphic mode based on the marks of the graphics and/or the colors, and pushes the data record to the intelligent terminal of the first object to be managed.

5. The service control system of an intelligent community as claimed in claim 3, wherein the data associated with the three-dimensional building model of the community is obtained by matching the data records to corresponding locations of a three-dimensional building map model of the community corresponding to the second object to be managed;

the pattern of data records matching to corresponding locations includes: the mode of combining the position information in the community three-dimensional building map information described in natural language with the data record, the mode of combining the community three-dimensional building map information with the data record and/or the mode of combining the community three-dimensional building map coordinates with the data record.

6. The service control system of the intelligent community as claimed in claim 3, wherein the cloud server further comprises a modeling unit and an information storage unit, wherein the modeling unit is configured to build a three-dimensional building model based on the building space information of the community, send a space information tag and/or a data record of the three-dimensional building model to the information storage unit for storage, and send a three-dimensional graphic model corresponding to the information tag and/or the data record to the intelligent terminal for storage.

7. The service control system of the intelligent community according to claim 3, wherein the service system further comprises a master controller, a background management terminal, a service application terminal and a remote electric control terminal;

the main control computer is in communication connection with the background management terminal, the service application terminal and the remote electric control terminal through the internet, the background management terminal comprises an information storage server, the information storage server receives householder information input by the main control computer and the service application terminal, and the background management terminal is connected with the intelligent community system;

the service application terminal comprises a community access control module provided with a Zigbee intelligent gateway, a residential building access control module and an indoor electric appliance control module, wherein the community access control module, the residential building access control module and the indoor electric appliance control module are accessed to the Internet through the Zigbee intelligent gateway and are in interactive communication with the main control computer through the Internet;

the first object to be managed graphically displays data record information of at least one second object to be managed, which is pushed to the intelligent terminal of the first object to be managed and meets the authority requirement and is related to the request data, based on the received marks in graphics and/or colors, and the control of the determined at least one second object to be managed is realized through the service application end.

8. The service control system of the intelligent community according to claim 7, wherein the remote electric control terminal comprises a household total electric intelligent switch, a building total electric intelligent switch, a transformer equipment control module and a standby generator set control module, the household total electric intelligent switch is provided with a Zigbee module, the household total electric intelligent switch is in communication connection with a Zigbee intelligent gateway on the indoor electric appliance control module through the Zigbee module, and the building total electric intelligent switch, the transformer equipment control module and the standby generator set control module are all connected to the main control computer through an Ethernet module;

the community access control module comprises an access card reader, an access Zigbee intelligent gateway and an access controller, wherein Zigbee modules are arranged on the access card reader and the access controller and are in interactive communication connection with the access Zigbee intelligent gateway through the Zigbee modules.

9. The service control system of the intelligent community of claim 8, wherein the resident building entrance guard control module comprises a building entrance guard card reader, a building entrance guard fingerprint recognizer, a building Zigbee intelligent gateway, a building entrance guard controller, an elevator entrance guard card reader, an elevator fingerprint recognizer and an elevator entrance guard controller, and Zigbee modules are arranged on the building entrance guard card reader, the building entrance guard controller, the elevator entrance guard card reader, the elevator fingerprint recognizer and the elevator entrance guard controller and are in signal connection with the building Zigbee intelligent gateway through the Zigbee modules;

the indoor electric appliance control module comprises an indoor electric appliance controller provided with a Zigbee module and an indoor Zigbee intelligent gateway in signal connection with the indoor electric appliance controller through the Zigbee module, and a voltage measurement meter and an electric quantity statistical meter are arranged on the household total electricity intelligent switch and the building total electricity intelligent switch.

10. Service control system of an intelligent community according to one of claims 1 to 9, characterized in that the matching of the position of said first object to be managed and of at least one second object to be managed is established by:

each building in the intelligent community is selected from a plurality of preset three-dimensional building models, and the selected three-dimensional building models are endowed with names described by natural language;

adopting an adaptive method to generate a first physical relationship between a first object to be managed and a first building and recording the first physical relationship by virtue of natural language description;

describing a second physical relationship between at least one second object to be managed and the first building by adopting a competition method on the premise of considering the first physical relationship, and recording the second physical relationship by utilizing natural language description;

the physical relationship between the first object to be managed and the first building is obtained by analyzing information subscribed from the intelligent terminal held by the first object to be managed;

the information obtained by subscription at least comprises the position information and the information pushing time of the intelligent terminal,

calculating at least two building internal positions which are in the closest physical relationship with the first object to be managed by analyzing the position information and the information pushing time obtained by the subscription,

at least two building interior locations of the first object to be managed are graphically embedded in a three-dimensional building model,

and distributing at least two building internal positions which are determined by analyzing the subscription information of the at least one second object to be managed and have the closest physical relationship with the at least one second object to be managed to the three-dimensional building model under the premise of considering the second physical relationship between the at least one second object to be managed and the first building, so as to realize the position matching of the objects to be managed and the three-dimensional building model.

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