CN106558011B

CN106558011B - Intelligent community service system

Info

Publication number: CN106558011B
Application number: CN201611025357.0A
Authority: CN
Inventors: 胡荣强
Original assignee: Sichuan Yading Huyang Resource Group Co Ltd
Current assignee: SICHUAN HEXIN YUANCHUANG LABOR Co.,Ltd.
Priority date: 2016-11-16
Filing date: 2016-11-16
Publication date: 2020-03-27
Anticipated expiration: 2036-11-16
Also published as: CN106558011A

Abstract

The invention relates to an intelligent community service system which comprises an intelligent community and a service management unit, wherein the intelligent community 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 which is pre-established by the cloud server in a self-adaptive mode and/or a competitive mode on the basis of 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 the position matching of the object to be managed and the three-dimensional building model; the service management unit comprises a health management module and an activity management module, the health management module predicts the busy condition of each community hospital based on the medical information stored in the community medical information base, and the activity management module arranges indoor activities or outdoor activities matched with personal life for the user. The invention provides real-time community service information and real-time conditions of corresponding places of the community for community residents, thereby facilitating the community residents to select and arrange various activities in life.

Description

Intelligent community service system

Technical Field

The invention relates to the field of intelligent community service, in particular to an intelligent community service system.

Background

With the development and application of modern high-tech and information technology, the information age is affecting and changing our habits, ways, rhythms and quality of life at an unprecedented rate. The various requirements of us are changing accordingly. On the housing side, people are no longer satisfied with the traditional backward housing manner and housing function. The intelligent housing in the information era is an ideal target in pursuit of housing informatization, security, comfort and convenient living environment. The modern high-tech and information technology is applied to the residential construction of urban and rural residents, and thus a new industry is formed.

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.

Chinese patent CN101567795B provides an intelligent community management system, which includes: the terminal system comprises a terminal and a using terminal, and the terminal comprises a terminal main control module, a data packet module, a calling module, a multimedia processing module, an audio and video coding and decoding module, an interface module and a terminal communication module. The system comprises a driver processing module, a database and a network file system application module. The management center comprises a main control module, a communication module, a database module, an upgrading processing module, a multimedia processing module, a magnetic card and safety management module, a trusteeship and alarm module, a call management module, a message management module and a state detection module, wherein the main control module of the terminal machine is a main chip of a multimedia integrated system for realizing a single-chip double-current technology: the main chip of the multimedia integrated system can realize two paths of different signal outputs. The system of this patent is complicated, and transmission data volume is huge, can not provide interactive service information according to community resident's real-time needs, service community resident that can not be convenient.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent community service system which comprises an intelligent community and a service management unit and is characterized in that the intelligent community at least comprises an intelligent terminal and a cloud server,

the cloud server instantiates the 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 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 service management unit comprises a health management module and an activity management module,

the community medical information base arranged in the health management module stores medical service information and community activity information,

the health management module pushes a first busy prediction index related to the medical service of the medical service institution based on the community activity information obtained by the subscription,

and the corresponding medical service organization predicts the service related to the time based on the first busy prediction index and the reference medical service information, and pushes the prediction result related to the time to the subscription intelligent terminal of the activity management module based on the service prediction result.

According to a preferred embodiment, the intelligent terminal of the intelligent community downloads and displays a limited number of three-dimensional building models from a cloud server, the three-dimensional building models comprise objects to be managed, the positions of the objects to be managed are matched with the three-dimensional building models, the objects to be managed respond to a first busy prediction index pushed by the health management module and a service prediction result pushed by the health management module through a mobile terminal, and according to medical service information and community activity information obtained through subscription, a second busy prediction index is calculated and sent to the health management module, and a third busy prediction index is requested to the health management module.

According to a preferred embodiment, the health management module determines a predicted access order of the medical service institution according to the current position of the object to be managed in the three-dimensional building model and by referring to the first to third busy prediction indexes;

and the cloud server pushes the predicted access sequence of the medical service institution in the three-dimensional building model and the position of the object to be managed to be matched, and the mark described in natural language and/or represented in color to the intelligent terminal and displays the mark in a graphic mode according to the first to third busy prediction indexes.

According to a preferred embodiment, the health management module counts the third busy prediction index based on the second busy prediction index and the medical service information and pushes the third busy prediction index to the medical service organization, and the medical service organization adjusts a service prediction result based on the third busy prediction index and pushes an updated service prediction result related to time to a subscriber of the activity management module.

According to a preferred embodiment, the intelligent terminal marks the medical service mechanism selected by the object to be managed and pushes the medical service mechanism with the mark to the activity management module, and the activity management module performs priority ordering on the time for performing the medical service according to the service prediction result of the medical service mechanism with the mark, which is related to the time, and pushes the medical service time of the ordered medical service to the intelligent terminal.

According to a preferred embodiment, the cloud server generates medical service information based on information related to medical services contained in time information described in natural language fed back by at least one object to be managed and combined with at least one medical attribute of the object to be managed corresponding to the time information, and pushes the medical service information to the intelligent terminal corresponding to the time information for confirmation.

According to a preferred embodiment, in the process of instantiating the object to be managed, the cloud server stores graphs and/or colors representing the object to be managed and a community three-dimensional building model in advance, when the intelligent terminal sends a registration request to the cloud server, the cloud server pushes a map of an area where the object to be managed is located and the community three-dimensional building model to the intelligent terminal in a data packet mode according to registration information described in natural language sent by the intelligent terminal.

According to a preferred embodiment, the cloud server records medical service information in a time-related manner based on medical service information related to medical services provided by at least two objects to be managed with a time and space intersection and determines a medical service organization based on medical attributes of the objects to be managed, and the cloud server sends the determined medical service organization to the health management module.

According to a preferred embodiment, the cloud server calculates the medical service index of the medical service organization designated by the object to be managed based on the medical service information related to the medical service provided by at least two objects to be managed with the intersection of time and space and pushes the medical service index to the intelligent terminal,

the medical service index is obtained by calculation according to medical service satisfaction parameters, medical service time consumption parameters, medical service effect parameters and weights thereof provided by at least two objects to be managed.

According to a preferred embodiment, the intelligent community 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 process of analyzing through the information subscribed from the intelligent terminal held by the first object to be managed comprises the following steps:

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 beneficial 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 stored in a central management system in a centralized mode, 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.

The invention provides real-time community service information and real-time conditions of corresponding places of the community for community residents, is convenient for the community residents to select and arrange various activities in life, and ensures that the life of the community residents is more comfortable.

Drawings

FIG. 1 is an architecture diagram of the intelligent community service system of the present invention;

FIG. 2 is a block diagram of a service management unit of the present invention;

FIG. 3 is a flow chart of the operation of a preferred embodiment of the present invention; and

FIG. 4 is a block diagram of the intelligent community of the present invention.

List of reference numerals

100: service management unit 101: the rights management module 102: service management module

103: the campaign management module 104: the health management module 105: region information module

200: the cloud server 210: the personal information library 201: physiological information base

202: image information library 203: the sound information base 204: personal basic information base

220: social environment information base 230: the community medical information base 300: intelligent terminal

301: the geographic information module 302: wireless communication module

Detailed Description

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

Example 1

The intelligent community at least comprises an intelligent terminal and a cloud server. The cloud server instantiates the 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 the space information which is acquired by the intelligent terminal and comprises the first object to be managed and at least one second object to be managed and described in natural language so as to realize the position matching of the object to be managed and the three-dimensional building model.

As shown in fig. 4, the smart community includes at least a cloud server and a smart terminal. The cloud server is used for establishing a three-dimensional model of the building of the community and storing information of an object 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 of 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 community is established as follows.

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 the cloud server pushes the model data information corresponding to the three-dimensional building model to the intelligent terminal. For example, the model data information may be a piece of code. 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 may be a resident, a vending machine, or a pipe well, or 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, matters and objects 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 an information storage unit of the cloud server for storage. 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 under the premise that the first physical relationship is considered, 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 material object providing units are 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 graph mode, namely 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 to be managed subscription information into a corresponding position in the first building model 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 pieces of 2509 in the a area divide 09 into one of the 25 layers of the two pieces of a area, and when the position is found to be occupied, an inquiry request is sent to the cloud server to check the two pieces of a area. By checking, it is found that 25a09 should be in space number 09 at 24 layers, 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, functional 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 related to the object to be managed input through the intelligent terminal. 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.

Example 2

An intelligent community service system includes an intelligent community and a service management unit. As shown in fig. 1, an intelligent community service system includes a service management unit 100, a cloud server 200, and an intelligent terminal 300. The service management unit 100, the cloud server 200, and the smart terminal 300 are connected to each other through a wireless network.

The service management unit 100 is used to recommend and manage activities and health of the user based on the social environment information and the medical information and physiological information of the user.

The cloud server 200 includes a modeling unit and an information storage unit. 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 further includes a database for storing personal information, social environment information, and community medical information of the user.

The intelligent terminal 300 is used for collecting geographical location information, physiological information, image information and sound information of a user. The intelligent terminal 300 at least comprises a physiological information acquisition module, an audio acquisition module, an image acquisition module, a data packet module, a multimedia processing module, an audio and video coding module, a communication module and a touch display module.

As shown in fig. 2, the service management unit 100 includes a rights management module 101, a service management module 102, an activity management module 103, a health management module 104, and a region information module 105.

The right management module 101 is used for verifying the information management right of the user. The right management module 101 allows the user having the right to view the public area information collected by the region information module based on the right information of the user, thereby facilitating the user to select a comfortable public area for activities.

The rights management module 101 includes a registration module and an authentication module. The registration module is used for registering personal information of the user. The user registers and logs in the intelligent community system by inputting personal information. The verification module is used for verifying the identity of the user and opening the management authority corresponding to the identity of the user. The verification module acquires the registration information of the user through the registration module and matches the registration information with owner identity information and data authority stored in the community database. And matching the corresponding authority function for the registration information according to the registration information after the registration information is matched with the owner identity information.

The service management module 102 is used to manage information and orders for service items. The service management unit comprises a service demand module, a service providing module, a service information matching module, an order management module and a charging module. The service demand module is used for uploading service demand information of the user. The service requirement information refers to service information required by the user. And uploading and issuing the service requirement information by the user. The service demand information includes information on service category, service price, service location, age of service person, sex of service person, and the like. The service management module 102 is also connected to the community property service system, and sends service information such as maintenance service and management opinions to property service staff.

The service providing module is used for uploading service providing information of the user. The service providing information refers to information providing a service. The user publishes the service providing information which can be provided by the user through the service providing module, and the service providing information is selected by the service requirement user. The service providing information includes information such as service type, service price, service location, age of service person, sex of service person, and the like. Preferably, the service demand information and the service provision information are stored in a service information repository within the cloud server 200.

The service information matching module is used for matching the service requirement information and the service providing information together. And the service information matching module selects the service providing information matched with the service requirement information based on the service requirement information, and displays the service providing information on the intelligent terminal of the user for the user to select. Or the service information matching module selects the matched service requirement information based on the service providing information and displays the service requirement information on the intelligent terminal of the user for the user to select.

The order management module is used for managing the service orders established by the users. After the user selects the service requirement information or the service providing information, a service order is established.

The charging module is used for calculating the service charge generated by the service order. And the charging module calculates and pays the fee according to the charging instruction sent by the order management module. And if the user cancels the service order, the charging module cancels the charging.

The activity management module 103 is used for arranging indoor activities or outdoor activities matched with personal life for the user according to the social public information, weather forecast information and/or family structure information stored in the social environment information base.

The health management module 104 is used for predicting the busy situation of each community hospital according to the medical information stored in the community medical information base, and arranging the community hospitals and medical treatment time for the user for physical examination and medical treatment according to the busy situation and the personal time information of each community hospital.

The region information module 105 is configured to collect public area information of each public activity area of the community according to the geographic location information sent by the geographic information module 301 of the intelligent terminal or at least one public area sensor. The region information module 105 collects and counts user activity information entering a community public area through the geographic information module 301. The region information module 105 is connected with a monitoring system of a community public area, and collects images, videos and/or sounds of the public area.

The information storage unit in the cloud server 200 further includes a personal information base 210, a social environment information base 220, and a community medical information base 230. The cloud server 200 establishes a corresponding personal information base 210 after the user successfully registers. The personal information base 210 is used to store personal information, physiological information, image information, and sound and audio information of the user, as well as video information.

The personal information base 210 includes a physiological information base 201, an image information base 202, a sound information base 203, and a personal basic information base 204.

The physiological information base 201 is used for storing physiological information of a user. The physiological information at least comprises information such as heartbeat frequency, respiratory frequency, blood pressure, body temperature and the like.

The image information base 202 is used to store image information transmitted by the smart terminal 300. The images include still pictures, moving pictures, and moving videos.

The sound information base 203 is used for storing sound information collected and transmitted by the intelligent terminal 300. The sound information includes voice information and music information.

The personal basic information base 204 is used for storing registration information and personal basic information of the user. The personal basic information comprises name, gender, residence information, occupation information, hobby information and real-time geographical location information. The user can set different viewing permissions for different interpersonal relationship objects. For example, family members may see all of a user's personal information, friends may view the user's contact and nickname, and strangers may not have viewing rights.

The social environment information base 220 is used to store and update social public information and environmental information. The social environment information base 220 collects social public information related to the user and environment information of an area where the user lives and works through public information issued by a weather bureau, a government agency, or a social organization. The social public information comprises public holiday information, school scheduling information, development time information of an old activity center, community activity information and the like. The environmental information includes weather forecast information, air humidity, wind power, wind direction, air pressure, ultraviolet intensity, air pollution degree and other environmental information. Preferably, the social environment information base 220 is wirelessly connected to at least one environmental sensor to collect environmental information.

The community medical information base 230 is used for storing and updating public medical information of at least one nearby medical institution. The community medical information base 230 is associated with a public medical system, and collects information such as medical grade, medical subject, number of medical persons, and how busy a doctor is in at least one medical institution.

The smart terminal 300 includes a geographic information unit 301 and a wireless communication module 302. The geographic information unit 301 includes a GPS module for collecting geographic location information, a CDMA positioning module, a Cell ID positioning module, an AFLT positioning module, and an AGPS positioning module for determining geographic location information according to the positioning information of the communication base station. The AGPS positioning module utilizes the communication base station information to assist the GPS module to carry out mobile phone positioning. The AGPS positioning module provides position information by utilizing base station positioning at a place without GPS signals indoors, and reduces a positioning blind area. The intelligent terminal 300 includes portable intelligent articles such as a smart phone, an ipad, an intelligent bracelet, intelligent glasses, and a notebook computer. The smart terminal 300 further includes an application installed on the computer.

The wireless communication module 302 is used for wireless signal transmission. The wireless communication module 302 includes a wifi communication module, a Zigbee communication module, and an IBeacon communication module.

The present embodiment explains the principle of the intelligent community service system of the present invention as follows.

The user registers personal information through the smart terminal 300. The registration module of the smart terminal 300 transmits the registration information to the rights management module 101. The right management module 101 verifies the registration information and opens a matching right function according to the identity of the registered user.

The health management module 104 predicts the busy situation of each community hospital based on the medical information stored in the community medical information base, and schedules the community hospitals and medical treatment times for the user for physical examination and medical treatment according to the busy situation and the individual time information of each community hospital.

According to a preferred embodiment, the community medical information repository provided in the health management module 104 stores medical service information and community event information,

the health management module 104 pushes a first busy prediction index related to its medical services to the medical services institution based on the subscribed community activity information. And the corresponding medical service organization predicts the service related to the time based on the first busy prediction index and the reference medical service information, and pushes the prediction result related to the time to the subscription intelligent terminal of the activity management module based on the service prediction result.

The intelligent terminal of the intelligent community downloads and displays the three-dimensional building models with limited quantity from the cloud server, the three-dimensional building models comprise objects to be managed, the positions of the objects to be managed are matched with the three-dimensional building models, the objects to be managed respond to the first busy prediction index pushed by the health management module and the service prediction result obtained by pushing through the mobile terminal, the second busy prediction index is calculated according to medical service information and community activity information obtained by subscription, the second busy prediction index is sent to the health management module, and a third busy prediction index is requested to the health management module.

And the intelligent terminals of the intelligent community download and display the three-dimensional building model data with limited quantity from the cloud server. The limited three-dimensional building model data refers to building model data associated with the user. The limited building model enables the intelligent terminal to reduce the time for receiving data and quickly update the display content of the three-dimensional building of the intelligent terminal. The three-dimensional building model contains an object to be managed whose position has been matched with the three-dimensional building model. Namely, the object to be managed is embedded into the corresponding position of the three-dimensional graphic model of the intelligent terminal in a graphic mode. The user can view the position of the object to be managed in the three-dimensional graphic model and other information at the intelligent terminal.

The health management module 104 pushes a first busy prediction index related to the medical service of the medical service institution according to the community activity information obtained by the subscription. And the intelligent terminal receives the first busy index and displays the first busy index to an object to be managed, namely the holder of the intelligent terminal. And the intelligent terminal calculates a second busy prediction index according to the first busy prediction index pushed by the health management module and a service prediction result pushed by a related medical institution, and medical service information and community activity information obtained according to subscription. Since the first busy prediction index may have an error, the second busy index calculated by the intelligent terminal is corrected again for the first busy prediction index. And the intelligent terminal sends the second busy index of the medical service organization which feeds back the service prediction result to the health management module.

Preferably, the health management module counts a third busy prediction index based on the second busy prediction index and medical service information of the medical service institution and pushes the third busy prediction index to the relevant medical service institution. The medical service organization adjusts the service prediction result based on the third busy prediction index and pushes an updated service prediction result related to time to a subscriber of the activity management module.

The service prediction results pushed by the relevant medical institutions comprise the number of the reserved physical examination persons in one week, the doctor duty information of each department, the number of the reserved patients in each department and the time. The medical service information includes information on medical subjects, work hours, medical specialties, and the like of each medical institution. The community activity information comprises community public information such as information of each community group for collective physical examination, community group organization collective activity information, legal holiday information and the like. The community event information and medical service information of the present invention is not limited to the listed information but also includes other medical and community related information.

According to a preferred embodiment, the health management module 104 determines the predicted access order of the healthcare facility according to the current location of the object to be managed in the three-dimensional building model and with reference to the first to third busy prediction indices.

For example, the user is an elderly person, and needs a regular physical examination. The health management module 104 selects a reasonable time for arranging the elderly to perform physical examination in a hospital which is suitable for distance and not crowded according to the predicted busy conditions of each hospital, the physical examination time of the elderly, the physical examination interval time and the personal time arrangement of the elderly. The user sends an information query request to the health management module through the intelligent terminal, and requests to query the busy condition of the medical service institution capable of carrying out physical examination in the next week. The health management module pushes a first busy prediction index related to physical examination of the medical service institution according to the community activity information obtained by subscription. The first busy index may be a time-dependent busy index. The first busyness index may be calculated based on weights of seasonal illness parameters, group health parameters, and/or legal holiday emergency medical parameters. The medical service institution receiving the first busy prediction index performs a physical examination prediction related to time according to the first busy prediction index and with reference to medical service information. For example, the forecasted population and peak hours of a medical examination on a monday through sunday. The medical service organization calculates the prediction result related to the time from the subscription intelligent terminal of the activity management module 103 according to the service prediction result. And the user receives the first busy prediction index and the service prediction result of the medical service institution through the intelligent terminal. And the intelligent terminal calculates a second busy index according to the subscribed medical service information and the community activity information and sends the second busy index to the health management module. The second busy index may be the same as the first busy index or may be different from the first busy index. And the health management module calculates a third busy prediction index according to the received second busy index and the medical service information sent by the medical service organization. The medical service information is the latest medical service information transmitted by the medical service institution. The medical service organization receives the third busy prediction index adjustment physical examination prediction corrected by the health management module and pushes an updated physical examination prediction result related to time to a subscriber of the activity management module 103. And the user receives the third busy prediction index and the physical examination prediction result at the intelligent terminal and graphically displays the position of the medical service institution in the three-dimensional community building model. And when displaying, the intelligent terminal adjusts the predicted access sequence of the medical service institution according to the first to third busy prediction indexes of the medical service institution.

Preferably, the cloud server pushes the predicted access sequence of the medical service institution in the three-dimensional building model and the position of the object to be managed to be matched, and the identifier described in natural language and/or represented in color to the intelligent terminal and graphically displayed according to the first to third busy prediction indexes. Namely, the cloud server pushes data including natural language description and/or color display in the process of pushing relevant data of the medical service institution to the intelligent terminal according to the first to third busy indexes of the health management module. For example, the healthcare facility with the highest busy predictive index is displayed in red and the next highest busy predictive index is displayed in yellow. Or the cloud server stores the distance parameter between the position of the relevant medical service institution and the position of the user. The further the distance, the lower the distance parameter. The closer the distance, the higher the distance parameter. The cloud server calculates a ranking index according to the busy prediction index and the distance parameter, reorders the relevant medical service institutions according to the ranking index, and assigns different colors or graphs. For example, the cloud server labels different graphics for the healthcare facility according to the distance parameter. The healthcare facility with the highest distance parameter and the highest busy prediction index is shown as a red five-pointed star. The healthcare institution with the second distance parameter and the third busy prediction index is displayed as a yellow square, and the healthcare institution with the third distance parameter and the second busy prediction index is displayed as a green pentagram.

Preferably, the intelligent terminal marks the medical service mechanism selected by the object to be managed and pushes the medical service mechanism with the mark to the activity management module, and the activity management module preferentially sorts the time for performing the medical service according to the service prediction result of the medical service mechanism with the mark, which is related to the time, and pushes the sorted medical service time for the medical service to the intelligent terminal.

For example, the user determines the medical examination institution and the examination time through the information of the medical examination institution, such as the sequence, the position, the busy index, and the like, displayed by the intelligent terminal. The intelligent terminal marks the selected physical examination items, the medical physical examination institution and the physical examination time and sends the physical examination items, the medical physical examination institution and the physical examination time to the activity management module.

When the user requests a request to inquire about the medical service institution for physical examination again at another time, the activity management module 103 prioritizes the service prediction results of the medical service institution related to the time and the time of performing the medical service according to the information about the physical examination that the user has determined once, and prioritizes the medical service institution with the marked order at the top.

The cloud server generates medical service information based on information related to medical services contained in time information which is fed back by at least one object to be managed and described in natural language, and combines at least one medical attribute of the object to be managed corresponding to the time information to push the medical service information to the intelligent terminal corresponding to the time information for confirmation.

According to a preferred embodiment, in the process of instantiating the object to be managed, the cloud server stores the graph and/or color representing the object to be managed and the three-dimensional community building model in advance, wherein when the intelligent terminal sends a registration request to the cloud server, the cloud server pushes the map of the area where the object to be managed is located and the three-dimensional community building model to the intelligent terminal in the form of a data packet according to the registration information described in natural language sent by the intelligent terminal.

For example, all data on the three-dimensional building model of the community and information of medical service institutions are stored in the information storage unit of the cloud server. And the user makes a registration request and submits registration information through the intelligent terminal. And the cloud server pushes the map of the area where the object to be managed is located and the three-dimensional building model of the community to the intelligent terminal in the form of a data packet according to the registration information described in the natural language. And the intelligent terminal matches the position of the user in the three-dimensional building model according to the data in the received data packet. The user can be displayed in a graphical manner in the three-dimensional building model, and can also be marked in different colors in the three-dimensional building model.

For example, two medical services may be provided near the same community, both of which may provide physical examination services. And the service positions and the service times of the two medical service institutions have intersection. The medical service information of the two medical service institutions is recorded in a time-dependent manner. And determining the medical service institution according to the items of physical examination required by the user and the professional specialties of the medical service information. The cloud server sends the determined at least one medical service organization meeting the physical examination condition of the user to the health management module. And the health management module performs first to third busy index prediction on the received medical service institution and pushes the busy index prediction to the medical service institution and the intelligent terminal.

According to a preferred embodiment, the cloud server calculates the medical service index of the medical service organization designated by the object to be managed based on the medical service information related to the medical service provided by at least two objects to be managed with the intersection of time and space and pushes the medical service index to the intelligent terminal.

For example, the object to be managed designates a medical service institution via an intelligent terminal. The cloud server stores medical service information and parameters provided by at least two objects to be managed, which have time and space intersection with the objects to be managed. Having a temporal and spatial intersection means that medical services are performed or provided at the same time and the same medical service institution. The cloud server calculates a medical service index of a medical service organization based on medical service information related to medical services provided by at least two objects to be managed with time and space intersection, and pushes the calculated medical index to the intelligent terminal. Preferably, the medical service index is calculated according to the medical service satisfaction parameter, the medical service time consumption parameter, the medical service effect parameter and the weight thereof provided by at least two objects to be managed.

Preferably, the event management module 103 schedules indoor or outdoor events matching personal lives for the user based on social public information, environmental information, and/or family structure information stored in the social environment information base.

Preferably, the event management module 103 predicts, a week ahead of time, an athletic event, a cultural entertainment event, a parent-child event, and/or a public welfare event that is recommended to match the user's daily life based on the weather forecast information and the environmental information transmitted by the at least one environmental sensor, and the social public information.

For example, the user is a retired elderly person. And the social public information is displayed by the collected information of the social environment information base, wherein the social public information is that the work is normally carried out on the weekdays from monday to thursday, and the morning festival is vacated from friday to sunday. The school time is advanced to four and a half points in the first quarter afternoon. The environmental information predicts the weather changes of a week. The activity management module 103 arranges daily entertainment for the user a week in advance according to the personal information, social public information and environmental information of the user. Monday is rainy and suitable for indoor activities, and the activity management module 103 recommends the user to play mahjong. If the user agrees, the activity management module 103 sends the activity reservation for mahjong playing to the users with the same activity arrangement, and the users can play mahjong by the number of people. The temperature is suitable for outdoor activities on a sunny day. The event management module 103 recommends the user to perform outdoor events in public areas of the community or nearby parks according to the social public information. The household activities include walking, riding a bicycle, picnic, climbing a hill, fishing, taking part in park shows, viewing scenery and the like. Wednesday is a high temperature weather, and is not suitable for outdoor activities for a long time. The activity management module 103 recommends the user to perform indoor activities, such as visiting a museum at cultural relic exhibition, art exhibition, and delicatessen in the week. The thursday is a cloudy day and grandchildren will go home in advance in the afternoon, the elderly need to prepare a family dinner, so the activity management module 103 recommends a singing-like short-time entertainment activity to the user. If the user agrees with the activity arrangement of the activity management module 103, the activity management module 103 may send the information of the reserved partner to the user with the same activity arrangement under the permission of the user, so as to prevent the user from performing outdoor activities and indoor activities alone. When the morning friday enters the morning festival, the user is gathered with children, and the activity management module 103 recommends parent-child entertainment activities and family activities to the user.

For example, the user is a young adult, and the home structure includes a spouse and a child. Working according to the normal work and rest rule. The activity management module 103 recommends activity schedules for saturday and sunday to the user one week in advance. Saturday is a sunny day, and the user is recommended to take a child to participate in a family activity, a public welfare activity or an activity exhibition in an exhibition period. The sunday is a high-temperature weather, and recommends that the user watch a movie in the midday girls and spouses and play a basketball in the afternoon. For example, the social information of the social environment information module includes: a cake shop of the community gives an announcement to invite a family of the community to participate in a family making cake activity on saturday; a family is organized by a toy shop in the community to carry out parent-child jigsaw activities on Saturday or Sunday. The activity management module 103 arranges the user to perform parent-child activities on saturday and simultaneously displays all parent-child activity information that the user can participate in, including parent-child cake making activity information and parent-child jigsaw puzzle activity information. The user may choose to engage in one of the parent-child activities performed on saturday.

Preferably, the activity management module 103 selects activity information matched with the activity category from the social environment information base 220 according to the activity category set by the user and sends the activity information to the intelligent terminal 300 to be displayed to the user. The activity categories include at least outdoor activities, recreational activities, parent-child activities, exhibition activities, travel activities, shopping malls, and the like. The activity category also includes keyword information that describes the activity based on natural language.

For example, the user may set in advance an activity time and an activity category to be attended at the activity management module 103. The activity management module 103 retrieves activity information related to the activity setting information according to the activity setting information of the user. The event information includes event information derived from the social environment information base 220 and event information derived from the internet.

Preferably, the activity management module 103 schedules the activity of the user according to the activity information set by the user and reminds the user of the activity time a week ahead. I.e. the user has his own activity schedule during the week. The user sets the self-set activity information in the activity management module 103. The activity management module 103 schedules the self-contained activity at a corresponding time when the activity of one week is scheduled, and reminds the user on the day of the activity.

Preferably, the activity management module 103 transmits activity reservation information to the intelligent terminal of at least one second user having common preferences based on the activity reservation request of the first user and preference information stored in the personal information base, and dynamically displays the number of persons who agree to participate in the activity.

When the user wants to play mahjong and lacks a buddy, the user sends an activity reservation request through the activity management module 103. The activity reservation request information includes an activity name, an activity place, an activity time, and an activity number. The event management module 103 transmits event reservation information to the intelligent terminal of at least one second user having common preferences according to the preference information stored in the personal information base and the frequency information of participating in the same event. The at least one second user receives the activity reservation information and feeds back information on whether to participate. If the number of the feedback persons who can participate in mahjong playing is more than three, the user can select three second users to play mahjong together. After the number of people playing mahjong is enough, if the number of people who can participate in mahjong playing is enough to play another mahjong, the activity management module 103 sends information of restructuring mahjong activity to the rest of the second users. At least one second user agreeing to the restructuring mahjong activity provides a mahjong place, and the rest second users feed back information whether to participate in the restructuring mahjong activity. The above steps are repeated until no users can participate in the mahjong activity in a combined mode.

Preferably, the health management module 104 recommends a healthy diet recipe to the user based on the characteristics of the four seasons, the family structure information, and/or the recommended activities of the activity management module 103.

The health management module 104 is associated with a social environment information repository 220 and a community medical information repository 230. The health management module 104 recommends a diet recipe that is good for the user's physical health and the family's physical health to the user based on the family configuration information and the characteristics of the four seasons stored in the personal information base 210. For example, the health management module 104 recommends at least one recipe favorable for health maintenance to the user, and the user selects one recipe to prepare a diet according to the preference of the user.

The health management module 104 recommends a healthy diet recipe to the user according to the recommended activities of the activity management module 103. For example, an appropriate dietary recipe is recommended to the user based on the energy consumed by the activity recommended to the user by the activity management module 103. Alternatively, an appropriate dietary menu is recommended based on a pre-scheduled activity of the user or a group activity of participation. For example, the user is engaged in mahjong playing in the same day, consuming a great deal of energy. The health management module 104 recommends a dietary recipe for supplementing qi and blood to the user according to the taste bias and characteristics of the user. If the user has a weak taste and likes a favorite food, the health management module 104 recommends a menu of dietary recipes to the user that can supplement the list of qi and blood and energy.

Preferably, the health management module 104 recommends fitness programs that match the user's health based on the characteristics of the four seasons and the recommended activities of the activity management module.

The recommended activities of the activity management module do not allow the user to achieve the purpose of exercising the body comprehensively. For example, playing mahjong requires a user to sit for a long time, and the lumbar vertebrae of the user are worn more. The health management module 104 reminds the user to perform simple waist activities and support the lumbar according to the activities of mahjong playing of the user in the morning of the activity day or the rest time in the evening after the activity.

For example, in a sunny day in autumn, the activity management module 103 recommends mountain climbing to the user. Climbing a mountain easily causes physical damage, and certain preparation activities need to be performed. The health management module 104 recommends that the user do a physical exercise or fitness exercise, move around the various joints of the body, and thus prepare for climbing. Preferably, the health management module 104 recommends a video of the exercise, so that the user follows the rhythm of the video, and the user is prevented from being unaware of the body movements of the exercise.

According to a preferred embodiment, the geographic information module 105 collects public area information of each public activity area of the community based on geographic location information sent by the geographic information module of the intelligent terminal or at least one public area sensor. The right management module allows the user having the right to view the public area information collected by the region information module 105 based on the right information of the user, thereby facilitating the user to select a comfortable public area for activities.

The service management unit initiates a region information positioning request according to the login or the preset period of the user. The geographic information module 301 initiates a positioning request for a specific intelligent terminal to the region information module 105 according to the positioning request. In response to the positioning request, the region information module 105 performs positioning interaction with the intelligent terminal, positions the current region of the intelligent terminal, and stores the positioned region information to the cloud server for the user with the corresponding authority to inquire.

The region information module 105 further includes a statistical analysis module, which performs statistical analysis on the located region information, stores the region information of the intelligent terminals with the same region information in the same class, and counts the number of the intelligent terminals with the same region information.

According to a preferred embodiment, the activity management module recommends a common activity area suitable for the user's activities of the day based on the real-time common area information. The public area information comprises the total number of active people, the number of friends in the public active area, the number of people in group sports and/or real-time images or real-time videos of the active situation of the public area.

The activity management module 103 recommends a suitable public activity area to the user who wants to go to the public area activity according to the public area information acquired by the region information module 105, thereby avoiding crowds in the public area from being too crowded and having no loose activity site, and avoiding the condition that the crowds in a plurality of public activity areas are unevenly distributed. When the user has the right to view the real-time images of the field, the user can request to view the real-time images or the real-time videos of the designated public activity area, so that the real-time situation of the public activity area is known, and the public activity area is selected.

According to a preferred embodiment, the user who passes the authority verification of the authority management module checks the image information and the friend information of the public area in the community according to the region information, so that the public activity area is selected and the user can perform activity interaction with friends in the community.

The region information module 105 displays the location information of the user-specified region based on the user's authority setting for the personal information. The region information module 105 displays the real-time geographical location information of the user in the designated area to the user with the corresponding viewing authority according to the authority setting of the personal information of the user. For example, the area designated by the user is a public activity area in the community, and the geographic information module 105 displays the geographic location information of the user when other users view the image information and friend information of the public activity area, so that the user viewing the public activity area can know the number of people, crowding conditions and the number of friends of the public activity, and the user can conveniently decide whether to go to a sport item or an entertainment item in the public activity area according to the conditions of the public activity area. For example, the number of table tennis tables in the community is four, and eight people can play table tennis simultaneously. When the user looks up the sports area, if the number of people performing table tennis is six, it indicates that one table tennis table is not used, and the user can invite friends to go to the sports area together to perform table tennis. The invention avoids the situation that the user turns back due to the crowding of the moving area and provides convenience for the user.

Preferably, the region information module 105 represents the position information of the user in the designated area with a point mark having no identification.

The user can also set different geographical location information display modes according to different geographical location areas of the community. The user may set the geographical location information zone display. For example, public activity areas include residential areas, sports areas, entertainment areas, and recreational areas. The user may set to display only the geographical location information and/or the nickname that a stranger can view in the sports area and the entertainment area. Preferably, the user can set a symbol representing his geographical location. The symbol may be a pattern formed by color, shape, and combinations thereof. For example, the user sets the symbol of his geographical location to a red image visible only to friends. The users in the area of motion that the stranger sees are black dots without any additional markings. And the user's friends see the information of the sports area as a red image and/or a nickname set by the user.

Preferably, the region information module 105 represents the location information of the user in the designated area with a graphic mark having an identity according to the permission of the user. Preferably, the personal information of the user further includes professional information and a professional identifier. The user can set the authority and display area for displaying his career identification. For example, the user's profession is a doctor, and the user additionally displays an image or graphic of a doctor's logo that is visible to friends when displaying their geographical location information.

Preferably, the health management module 104 further comprises an early warning unit. The early warning unit sends distress information and geographical location information needing rescue to the intelligent terminal 300 of a nearby user based on the geographical location information under the condition that the physiological information of the user is abnormal and the user cannot help the early warning unit by himself. The intelligent terminal 300 receives the distress message and displays the geographical position and route information of the corresponding user.

The service management unit 100 further comprises a community monitoring unit. And the community monitoring unit intercepts short-time videos or images shot by monitoring equipment in a public activity area in real time according to the request information and the authority information of the user and sends the short-time videos or images to the corresponding intelligent terminal. Real-time video includes real-time short video and long video. The playing time of the short video is 0-60S, and the playing time of the long video is more than 60S.

The community monitoring unit comprises at least one wireless communication module, at least one monitoring camera and at least one monitoring management module. The monitoring management module is used for managing and storing the camera images, short-time videos and camera sounds of at least one monitoring camera. The monitoring management module is also used for sending the fault information of at least one monitoring camera.

Example 3

The user registers personal information through the smart terminal 300. The intelligent terminal 300 transmits the personal information to the service management unit 100. The rights management module 101 in the service management unit 100 verifies the personal information of the user.

The right management module 101 compares the personal information with community owner information in the stored community information, confirms the real identity of the owner, and determines the management right of the user according to the identity of the owner. The right management module 101 transmits the verification result of the personal information to the smart terminal 300. And after the personal information is successfully verified, the user sets the viewing authority of the personal information and displays the geographical position range.

Preferably, at least one intelligent terminal 300 is connected with the intelligent community through a wireless network. The intelligent terminals comprise a registered first intelligent terminal and an unregistered second intelligent terminal.

The verification module confirms whether the user of the first intelligent terminal, which is a sender of the registration request, is a user of one of the sub-communities of the intelligent community based on the region information of the first intelligent terminal, the terminal identifier and at least one user account of the first intelligent terminal.

When a user of a first intelligent terminal moves to a second sub-community of the same intelligent community from a first residential sub-community, the authentication module authenticates the identity of the user based on the regional information and the terminal identification of the user, and grants the user a few permissions for viewing the second sub-community instead of viewing all the permissions of the second sub-community.

Or the first user who has successfully registered invites the unregistered second user to register and join the intelligent community. A first intelligent terminal of a first user sends a registration request and a terminal identifier to a verification module. The verification module confirms that the first user of the first intelligent terminal, which is a sender of the registration request, is a user of one of the sub-communities of the intelligent community based on the region information of the first intelligent terminal, the terminal identifier and the first user account of the first intelligent terminal. Meanwhile, the first intelligent terminal sends the second terminal identifier sent by the second intelligent terminal to the registration module. And the registration module responds to the registration request of the first intelligent terminal verified by the verification module and gives a second intelligent terminal account as the account of the second user. The registration module associates the account of the second intelligent terminal with the terminal identification of the second intelligent terminal received together with the registration request, and registers the account and the terminal identification of the second intelligent terminal, so that the invited second user is successfully registered.

After the user is successfully registered, the situation of the public activity area in the intelligent community is checked through the motion/entertainment management module 103. And the region information module counts the number of the moving people in the public activity area and the number of the friends of the user according to the geographical position information of the user.

For example, the user sets the geographical location information to be displayed according to the community area partition. The user sets the geographical position information to be displayed only in the motion area of the community, and the geographical position information is not displayed in other areas. When a first user is located in a community natatorium for swimming, a second user sends a request for viewing a public activity area to the service management unit 100 through the smart terminal 300. The region information module 105 in the service management unit 100 counts the number of community participants in the public activity area designated by the second user and the number of friends related to the second user in response to the request information for viewing the public activity area, and sends the counted number to the intelligent terminal. Therefore, the second user can know the real-time swimming number in the community swimming pool without personally going to the community swimming pool, and can determine whether to go to the community swimming pool to interact with friends for swimming.

As shown in FIG. 3, when the user is not in the community natatorium, the number of swim persons and the real-time image of the community natatorium can be viewed. The user transmits service request information to the service management unit 100 through the smart terminal 300. The service management unit 100 receives request information of a user. The authority management unit 101 verifies the personal information of the user based on the request information, and verifies whether the user belongs to a community member and has a corresponding authority. And if the user does not belong to the community members and does not have the management authority of checking the community natatorium, sending request refusing information to the intelligent terminal 300 of the user. If the authority management module 101 verifies that the user belongs to a community member and has the management authority for viewing the community natatorium, the request feature code in the user request information is identified, and the request information of the user is confirmed.

The permission verification module 101 confirms the request information of the user through the request feature code, and then is connected with the community monitoring unit in a wireless mode. The authority verification module 101 transmits a request for viewing the place image information and a region code of the community region to the community monitoring unit. And the community monitoring unit selects a corresponding monitoring camera according to the community area code, and stores the camera image with limited time to form a video image of the community natatorium. The region information module 105 counts the common information of the common activity area designated by the user from the video image. The service management unit 100 transmits the video image sum of the community natatorium to the smart terminal 300. The user decides whether to perform swimming according to the video image of the community natatorium received by the intelligent terminal 300.

Preferably, the geographical location information of the user is displayed in a map of the community using a graphic without an identification. For example, a red dot represents a sportsperson. The red dots may additionally display identity information, such as doctors, coaches. The service object determines whether to participate in basketball according to the number of the sports people and the number of the friends. The user can see the geographical location information and the nickname information of the community friends or family members in the moving area based on the relationship of the community friends. For example, the user monitors children by sending a request message for viewing the community natatorium through the smart terminal 300 and viewing the geographical location information of the children in the community natatorium.

When the user suddenly has an emergency, the user carries out emergency early warning through the intelligent community management system, so that the nearby community users can help the user in the shortest time.

For example, a user suddenly develops heart diseases in a community, help seeking information can be sent to nearby community users through the early warning module of the intelligent terminal 300 to ask for help. Or the early warning module monitors that the heartbeat frequency of the user is abnormal based on the physiological information of the user, and simultaneously sends early warning information, emergency reasons and the geographical position information of the user to the intelligent terminal of the nearby community user and the community hospital emergency platform through the communication module. The community users receive the early warning information, the emergency reason and the geographical position information of the users through the intelligent terminal, and meanwhile, whether other community users are around the users to help the help-seeking objects or not is checked. If the community user finds that no other community users or community doctors arrive at the help seeking object through the community map, the community user receiving the early warning information can quickly arrive at the scene for help seeking. And if the community user finds that other people or community doctors arrive at the site through the community map, the early warning information is selected to be ignored.

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

1. An intelligent community service system comprises an intelligent community and a service management unit, and is characterized in that the intelligent community at least comprises an intelligent terminal and a cloud server,

the cloud server instantiates the 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 corresponding medical service organization predicts the service related to the time based on the first busy prediction index and the reference medical service information, and pushes the prediction result related to the time to the intelligent terminal of the subscription activity management module based on the service prediction result;

the intelligent terminal of the intelligent community downloads and displays a limited number of three-dimensional building models from a cloud server, each three-dimensional building model comprises an object to be managed, the position of the object to be managed is matched with the three-dimensional building model, the object to be managed responds to a first busy prediction index pushed by the health management module and a service prediction result pushed by the health management module through a mobile terminal, and calculates a second busy prediction index according to medical service information and community activity information obtained through subscription, sends the second busy prediction index to the health management module and requests a third busy prediction index from the health management module;

the health management module determines a predicted access sequence of medical service organizations according to the current positions of the objects to be managed in the three-dimensional building model and by referring to the first to third busy prediction indexes;

2. The intelligent community service system of claim 1, wherein the health management module counts the third busy prediction index based on the second busy prediction index and the medical service information and pushes to the medical service institution, the medical service institution adjusts a service prediction result based on the third busy prediction index and pushes a time-dependent updated service prediction result to a subscriber of an activity management module.

3. The intelligent community service system according to claim 2, wherein the intelligent terminal marks the medical service institution selected by the object to be managed and pushes the medical service institution with the mark to the activity management module, and the activity management module prioritizes the time for performing the medical service according to the service prediction result of the medical service institution with the mark related to the time and pushes the medical service time of the medical service after the sequencing to the intelligent terminal.

4. The intelligent community service system according to claim 3, wherein the cloud server generates medical service information based on the information related to the medical service contained in the time information described in the natural language fed back by the at least one object to be managed in combination with at least one medical attribute of the object to be managed corresponding to the time information and pushes the medical service information to the intelligent terminal corresponding to the time information for confirmation.

5. The intelligent community service system according to claim 4, wherein in the process of instantiating the object to be managed, the cloud server stores a graph and/or a color representing the object to be managed and a community three-dimensional building model in advance, and when the intelligent terminal sends a registration request to the cloud server, the cloud server pushes a map of an area where the object to be managed is located and the community three-dimensional building model to the intelligent terminal in a data packet form according to registration information described in a natural language sent by the intelligent terminal.

6. The intelligent community service system according to claim 5, wherein the cloud server records medical service information in a time-dependent manner based on medical service information related to medical services provided by at least two objects to be managed having a time and space intersection and determines a medical service institution based on medical attributes of the objects to be managed, and the cloud server transmits the determined medical service institution to the health management module.

7. The intelligent community service system according to claim 6, wherein the cloud server calculates a medical service index of a medical service institution designated by the object to be managed based on medical service information related to medical services provided by at least two objects to be managed having a temporal and spatial intersection and pushes the medical service index to the intelligent terminal,

8. The intelligent community service system according to one of the preceding claims, wherein said intelligent community is established by:

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,