CN111931078A - Information interaction system and method based on map scene - Google Patents
Information interaction system and method based on map scene Download PDFInfo
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- CN111931078A CN111931078A CN202010645826.9A CN202010645826A CN111931078A CN 111931078 A CN111931078 A CN 111931078A CN 202010645826 A CN202010645826 A CN 202010645826A CN 111931078 A CN111931078 A CN 111931078A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
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- G06F16/00—Information retrieval; Database structures therefor; File system structures therefor
- G06F16/90—Details of database functions independent of the retrieved data types
- G06F16/95—Retrieval from the web
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- G06F16/953—Querying, e.g. by the use of web search engines
- G06F16/9538—Presentation of query results
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- H—ELECTRICITY
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Abstract
The invention discloses an information interaction system and method based on a map scene, wherein the information interaction system comprises a mobile terminal and a server end, the mobile terminal collects interaction information and sends the interaction information to the server end, the server end receives the information and then performs data fusion processing and returns a processing result to the mobile terminal, and finally the mobile terminal performs scene dynamic display on the interaction information. The invention provides a brand-new information interaction mode, which can effectively solve the architectural limitation and scene monotonicity of the existing interaction system and improve the information retrieval efficiency and interaction experience.
Description
Technical Field
The invention relates to the technical field of internet information, in particular to an information interaction system and method based on a map scene.
Background
With the continuous development of internet information technology, various information interaction methods and interaction systems go deep into the lives of people, and through various search engines, social contact platforms and news publishing platforms on mobile terminals, people can acquire various diversified complex information in the internet platform and interact information with other terminal users. However, the existing various information interaction methods and interaction systems still have many problems in the aspects of convenience, effectiveness and user experience:
1. the tabulated information presentation approach has limitations. Various existing interactive systems basically adopt a listing information display mode, such as a contact list, a dynamic list, a commodity list, a news list, a search result list and the like. The widely applied information display mode enables the interface of the existing interactive system to only slide up and down, limits the design of a software developer on the system interface, and restricts the display effect of the user interface.
2. The hierarchical directory information system architecture makes the information acquisition process not smooth enough. With the rapid development of the internet, the amount of information contents in various interactive systems is huge, and in order to enable a user to find required information from complex information, the existing interactive systems almost adopt an information retrieval mode similar to a library database, namely, the user clicks one directory and then displays subdirectories in the directory, and then selects the next subdirectory until the required information is found. The user can jump and load the page once every click, the process of finding the needed information usually needs multiple click operations, and the whole information acquisition process is not smooth enough.
3. The information interaction scene is monotonous. From the early-appearing terminal information systems such as Baidu, QQ and post bar to the terminal information systems widely used nowadays such as Taobao, microblog, WeChat, American group and the like, although the information transmission targets to be achieved by various software systems are different, the system interfaces adopt a form of combining a text list and various sticker pictures, a scene display form is lacked, and the personalized user experience is still improved.
Disclosure of Invention
Aiming at the defects of the existing information interaction technology, the invention provides an information interaction system and method, and the specific technical scheme is as follows:
the map scene-based information interaction system comprises: mobile terminal and server:
the mobile terminal includes:
a) the ground releasing module: the ground distribution module receives ground position coordinates, ground labels and ground name information input by a user and sends the ground information to the mobile terminal data communication module;
b) the information heat map module comprises the following sub-modules:
a display submodule: the display submodule receives the fusion data from the mobile terminal data communication module, then converts the fusion data into thermodynamic map scene information containing geographic position coordinates, geographic names, geographic labels, geographic label forms, thermodynamic diagram data models, characters, pictures and video elements, and finally performs fusion display by taking a map as a scene on a system main interface;
a retrieval submodule: the retrieval submodule provides a search box at the top of the system main interface, receives a ground label or a ground name input by a user, then carries out classification retrieval on the ground, and finally displays only the retrieved ground in the display submodule;
a publishing submodule: the release submodule receives the text, picture and video information released by a user in a designated place, and then sends the release information and the corresponding place name to the mobile terminal data communication module;
an interaction submodule: the interaction submodule receives interaction operation of a user on appointed interaction information in an appointed place; the interactive operation comprises the following steps: replying characters, pictures and videos; then sending the interactive information to a mobile terminal data communication module;
c) the mobile terminal data communication module: the data of the mobile terminal is sent to the server data communication module through network transmission, and meanwhile, the converged data distributed by the server data communication module is received;
the server side includes:
a) the server data communication module: receiving data sent by a mobile terminal data communication module through network transmission, and simultaneously distributing fused data of a server-side data analysis and calculation module to each mobile terminal;
b) the data analysis and calculation module: receiving mobile terminal data from the data communication module, analyzing and calculating the terminal dispersed data based on a preset algorithm to obtain fused data, and then sending the fused data to the server data communication module;
c) an information security module: carrying out safety authentication and content verification on user identification codes, login operation information and ground information, release information and interaction information of the mobile terminal;
d) a data storage module: and storing all the user identification codes, the land information, the release information, the interaction information and the fusion information.
The information interaction method based on the map scene specifically comprises the following steps:
step 1, after receiving an instruction of a user for opening a system, a mobile terminal firstly activates a main interface of the system;
step 2, the bottom of a system main interface is an inlet of a mobile terminal ground distribution module, the mobile terminal activates the ground distribution module after receiving an instruction of a user entering the ground distribution module, the ground distribution module guides the user to select a geographical coordinate nearby, inputs a ground label and a ground name, and finally distributes the ground;
step 3, the middle part and the top part of the system main interface are provided with a mobile terminal information heat map module, and the module receives one of the following five operations of a user through three sub-modules of the module:
1) inputting a ground label or a ground name into a search box at the top of a system main interface to perform classified retrieval of the ground;
2) searching for a ground through zooming in or zooming out the map;
3) clicking the ground to check all the published information in the ground;
4) appointing a ground plate, and then using a character, picture and video editing tool built in the system to publish information;
5) appointing the published information in a tray, and then using a character, picture and video editing tool built in the system to carry out interactive operation of reply information;
step 4, the mobile terminal sends the land parcel information, the release information and the interaction information of each user to a server side in a network transmission mode;
step 5, calculating by a data analysis and calculation module of the server side according to the number of issued information, the number of interactive information and the number of information clicks in different trays based on a preset algorithm, dividing the trays into different heat grades, assigning specific marks, and finally distributing the calculated fusion data to the mobile terminal;
step 6, the mobile terminal dynamically displays the fusion data in a scene on a system main interface through an information thermal map module, wherein the display comprises the following characteristics:
in one aspect, the plots published by all users in the map are represented as specific markers: the center of the ground mark is a preset pattern, the outer ring of the ground mark is a circular pattern with gradually changed colors, the pattern is different according to different ground heat levels, the ground mark with high heat level is in the shape of a circle with a larger diameter and is red, orange or yellow, the ground mark with low heat level is in the shape of a circle with a smaller diameter and is green, blue or purple;
on the other hand, when the map is enlarged or reduced, the ground mark in the map can be dynamically changed; when the map is zoomed out, partial ground pans with low heat levels in the current view range are hidden; the display forms of the heat map are different under different scales, when the map is reduced to a certain degree, the heat map can display the distribution of the ground in the form of a heat field, and when the map is enlarged to a certain degree, the heat map can display the distribution of the ground in a point distribution.
Compared with the prior system and method, the technical scheme provided by the invention has the beneficial effects that:
1. the system architecture and the method for quickly retrieving the information by screening the label and zooming the map are provided, the information retrieval mode of a hierarchical directory type widely used in the existing software system is changed, and the information retrieval efficiency is effectively improved;
2. the map scene information display mode breaks through the tabulated information display mode which is generally adopted in the existing internet interaction system and takes characters and maps as elements, so that the interaction scene is not monotonous any more, and qualitative change is brought to the user experience level;
3. the functions of information interaction, information retrieval, map and the like are integrated in a software system for the first time, and the system becomes an open, diversified, convenient and integrated information carrier by ingeniously utilizing the mode that a user self-defines and publishes geographic coordinates and selects any geographic coordinates to define and publish multimedia information.
Drawings
Fig. 1 is a schematic diagram of an information interaction system architecture based on a map scene.
Fig. 2 is a flow chart diagram of an information interaction method based on a map scene.
Fig. 3 is an example of a center pattern of a marking of a floor.
Fig. 4 is an example of a thermal map of information.
Detailed Description
The embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are simplified schematic drawings and are used for illustrating the basic structure and operation of the invention only in a schematic way.
As shown in fig. 1, in the first step of the embodiment of the present invention, an information interaction system based on a map scene needs to be built; the information interaction system comprises a mobile terminal 101 and a server 102; the mobile terminal 101 is a mobile phone device loaded with an android9.0 version operating system, and a software program comprising the functions of a ground distribution module 103, an information thermal map module 104 and a mobile terminal data communication module 105 is compiled in the mobile phone operating system; the Server 102 is a computer device loaded with a Windows Server 2008 operating system, and a software program containing the functions of the Server data communication module 110, the data analysis and calculation module 111, the information security module 112 and the data storage module 113 is programmed in the computer device;
the system comprises a ground distribution module 103 of the mobile terminal 101, a data communication module 105 and a ground distribution module, wherein the ground distribution module 103 receives ground position coordinates, ground labels and ground name information input by a user and sends the ground information to the mobile terminal data communication module 105;
a display submodule 106 of an information thermal map module 104 in the mobile terminal 101 receives the fused data from the mobile terminal data communication module 105, then converts the fused data into thermal map scene information containing geographic position coordinates, geographic names, geographic labels, geographic label forms, thermodynamic diagram data models, characters, pictures and video elements, and finally performs fusion display by taking a map as a scene on a system main interface;
the retrieval submodule 107 provides a search box at the top of the system main interface, receives the ground label or the ground name input by the user, then carries out classification retrieval on the ground, and finally displays only the retrieved ground in the display submodule 106;
the publishing submodule 108 receives the text, picture and video information published in the place designated by the user, and then sends the publishing information and the corresponding place name to the mobile terminal data communication module 105;
the interaction submodule 109 receives the interaction operation of the user on the appointed interaction information in the appointed place; the interactive operation comprises the following steps: replying characters, pictures and videos; then sending the interaction information to the mobile terminal data communication module 105;
the mobile terminal data communication module 105 transmits the data of the mobile terminal to the server-side data communication module 110 through network transmission, and receives the converged data distributed by the server-side data communication module 110;
the server-side data communication module 110 receives data sent by the mobile terminal data communication module 105 through network transmission, and simultaneously distributes the converged data of the data analysis and calculation module 111 to each mobile terminal 101 in the system;
the data analysis and calculation module 111 receives mobile terminal data from the server-side data communication module 110, performs analysis and calculation on terminal dispersed data based on a preset algorithm to obtain fused data, and then sends the fused data to the server-side data communication module 110;
the information security module 112 performs security authentication and content verification on the user identification code, login operation information, ground information, release information and interaction information of the mobile terminal 101;
the data storage module 113 stores all user identification codes, land information, release information, interaction information, and fusion information.
As shown in fig. 2, a second step of the embodiment of the present invention is to implement an information interaction method based on a map scene on the basis of an information interaction system according to the steps in the flowchart of fig. 2, where the implementation flow of the method includes the following steps:
201. after receiving an instruction of a user to open the system, the mobile terminal 101 activates a system main interface;
the bottom of the system main interface is an inlet of a ground distribution module 103, the main part of the system main interface is an information thermal map module 104, and the top of the system main interface is a search box of a retrieval submodule 107;
202. after receiving an instruction of clicking an entrance of the ground distribution module 103 at the bottom of the system main interface by a user, the mobile terminal 101 activates the ground distribution module 103 to guide the user to distribute the ground;
the ground distribution module 103 guides a user to select a geographical coordinate nearby, inputs a ground label and a ground name, and finally distributes the ground;
203. the retrieval submodule 107 receives and executes a classification retrieval instruction of entering a place label or a place name in a search box by a user for a place;
specifically, the top of the main interface of the system is a search box of the retrieval submodule 107, after the mobile terminal 101 receives an instruction of clicking the search box by a user, the retrieval submodule 107 is activated, the classified retrieval of the ground labels or the names of the ground plates input by the user is performed, and finally, only the retrieved ground plates are displayed in the display submodule 106;
204. the information heat map module 104 receives and executes instructions of a user for map enlargement or map reduction;
specifically, the information thermal map module 104 of the main body part of the system main interface can accept the map enlargement and reduction instructions of the user, so that the user can quickly search the ground;
205. the information heat map module 104 receives and executes an instruction of a user clicking the ground to view all issued information in the ground;
specifically, a map scene is in the information thermal map module 104 of the main body part of the system main interface, wherein the ground is represented as a specific mark, and a user can view all published information in the ground by clicking the ground;
206. the information heat map module 104 receives and executes an instruction of a user for designating a land and then issuing information;
specifically, before releasing information, a user needs to specify a ground plate, a text, picture and video editing tool is arranged in the information thermal map module 104, the user edits the released information by using the tool, and finally, a button for releasing information is clicked to complete the operation of releasing information;
207. the information heat map module 104 receives and executes interactive operation that a user designates the published information in a tray to reply;
specifically, a user needs to designate a piece of published information before performing interactive operation on the published information, then uses a character, picture and video editing tool built in a system to edit the reply, and clicks a confirmation button to complete the reply after finishing editing;
208. the mobile terminal 101 sends the land parcel information, the release information and the interactive information to the server 102 in a network transmission mode;
specifically, the mobile terminal 101 sends the generated geographic information, the release information and the interaction information to the server-side data communication module 110 of the server side 102 through the mobile terminal data communication module 105 in a network transmission manner;
209. the server 102 divides the ground plate into different heat grades and assigns specific marks, and finally fuses data and distributes the data to the mobile terminal 101;
specifically, the data analysis and calculation module 111 of the server 102 calculates the number of issued information, the number of interactive information, and the number of information clicks in different trays based on a preset algorithm, then divides the trays into different heat levels and assigns specific marks, and finally sends the calculated fusion data to the mobile terminal data communication module 105 of the mobile terminal 101;
210. the mobile terminal 101 dynamically displays the fusion data in a scene on a system main interface through the information thermal map module 104;
specifically, as shown in fig. 4, in the map scenario of the information heat map module 104, the plots published by all users are represented as specific marks: the center of the ground mark is a preset pattern as shown in fig. 3, the outer ring of the ground mark is a circular pattern with gradually changed colors, the pattern is different according to different ground heat levels, the ground mark with high heat level is in the shape of a circle with a larger diameter and is red, orange or yellow, the ground mark with low heat level is in the shape of a circle with a smaller diameter and is green, blue or purple; when the map is enlarged or reduced, the ground mark in the map can be dynamically changed; when the map is zoomed out, partial ground pans with low heat levels in the current view range are hidden; the display forms of the heat map are different under different scales, when the map is reduced to a certain degree, the heat map can display the distribution of the ground in the form of a heat field, and when the map is enlarged to a certain degree, the heat map can display the distribution of the ground in a point distribution.
Claims (3)
1. An information interaction system based on a map scene is characterized in that: the system comprises a mobile terminal and a server end;
the mobile terminal comprises a ground disc publishing module, an information thermal map module and a mobile terminal data communication module;
the system comprises a ground distribution module, a mobile terminal data communication module and a ground distribution module, wherein the ground distribution module receives ground position coordinates, ground labels and ground name information input by a user and sends the ground information to the mobile terminal data communication module;
the information heat map module comprises the following sub-modules:
a display submodule: receiving the fusion data from the mobile terminal data communication module, converting the fusion data into thermodynamic map scene information containing geographic position coordinates, geographic names, geographic labels, geographic label forms, thermodynamic map data models, characters, pictures and video elements, and finally performing fusion display on a system main interface by taking a map as a scene;
a retrieval submodule: providing a search box at the top of a system main interface, receiving a ground label or a ground name input by a user, then performing classification retrieval on the ground, and finally displaying only the retrieved ground in a display sub-module;
a publishing submodule: receiving text, picture and video information issued by a user in a designated place, and then sending the issued information and the corresponding place name to a mobile terminal data communication module;
an interaction submodule: receiving interactive operation of a user on appointed interactive information in an appointed place; the interactive operation comprises the following steps: replying characters, pictures and videos; then sending the interactive information to a mobile terminal data communication module;
the mobile terminal data communication module transmits the data of the mobile terminal to the server data communication module through network transmission, and receives the fusion data distributed by the server data communication module;
the server end comprises a server end data communication module, a data analysis and calculation module, an information security module and a data storage module;
the server data communication module receives data sent by the mobile terminal data communication module through network transmission, and simultaneously distributes the fusion data of the server data analysis and calculation module to each mobile terminal;
the data analysis and calculation module receives mobile terminal data from the data communication module, analyzes and calculates the terminal dispersed data based on a preset algorithm to obtain fused data, and then sends the fused data to the server data communication module;
the information security module carries out security authentication and content verification on the user identification code, login operation information and ground information, release information and interaction information of the mobile terminal;
the data storage module stores all user identification codes, ground information, release information, interaction information and fusion information.
2. The interaction method of the information interaction system based on the map scene as claimed in claim 1, characterized in that the method comprises the following steps:
step 1, after receiving an instruction of a user for opening a system, a mobile terminal firstly activates a main interface of the system;
step 2, the bottom of a system main interface is an inlet of a mobile terminal ground distribution module, the mobile terminal activates the ground distribution module after receiving an instruction of a user entering the ground distribution module, the ground distribution module guides the user to select a geographical coordinate nearby, inputs a ground label and a ground name, and finally distributes the ground;
step 3, the middle part and the top part of the system main interface are provided with an information heat map module of the mobile terminal, and the module receives one of the following five operations of the user through three sub-modules of the module:
1) inputting a ground label or a ground name into a search box at the top of a system main interface to perform classified retrieval of the ground;
2) searching for a ground through zooming in or zooming out the map;
3) clicking the ground to check all the published information in the ground;
4) appointing a ground plate, and then using a character, picture and video editing tool built in the system to publish information;
5) appointing the published information in a tray, and then using a character, picture and video editing tool built in the system to carry out interactive operation of reply information;
step 4, the mobile terminal sends the land parcel information, the release information or the interactive information of each user to a server side in a network transmission mode;
step 5, calculating by a data analysis and calculation module of the server side according to the number of issued information, the number of interactive information and the number of information clicks in different trays based on a preset algorithm, dividing the trays into different heat grades, assigning specific marks, and finally distributing the calculated fusion data to the mobile terminal;
step 6, the mobile terminal carries out scene dynamic display on the fused data on a system main interface through an information thermal map module;
the dynamic presentation of the scenario described in step 6 includes the following features: the plots published by all users in the map are represented as specific markers: the center of the ground mark is a preset pattern, the outer ring of the ground mark is a circular pattern with gradually changed colors, and the pattern is different according to different ground heat levels; when the map is enlarged or reduced, the ground mark in the map can be dynamically changed; when the map is zoomed out, partial ground pans with low heat levels in the current view range are hidden; the display forms of the heat map are different under different scales, when the map is reduced to a certain degree, the heat map can display the distribution of the ground in the form of a heat field, and when the map is enlarged to a certain degree, the heat map can display the distribution of the ground in a point distribution.
3. The interaction method of the information interaction system based on the map scene as claimed in claim 2, wherein: the pattern of the ground mark is different according to different ground heat levels, specifically: the high grade geodetic marking is in the shape of a larger diameter circle and is red, orange or yellow in color, while the low grade geodetic marking is in the shape of a smaller diameter circle and is green, blue or purple in color.
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