CN109547110B - Community communication system and method, optical terminal and field terminal for community communication - Google Patents

Abstract

The invention discloses a community communication system and method, and an optical terminal and a field terminal for community communication. Wherein, the optical terminal includes: the optical transmitting module is used for sending the ID and the position information of the optical terminal to the outside; the communication module is in communication connection with a cloud server; and the processor is used for receiving and analyzing the ID and the position information of a field terminal to be added into the community, and transmitting the information to the cloud server for establishing the community. According to the method, the interaction between the field terminal and the cloud server is established by using the optical terminal, the community corresponding to the optical terminal is established on the cloud server, the field terminal to be added into the community enters the community to which the optical terminal belongs through the optical terminal, communication is established with the other field terminals in the community, the ID and the position information of the field terminal are shared in the community, and a user can obtain the situation of the field corresponding to the optical terminal by adding into the community and establish the field communication based on the position characteristics.

Description

Community communication system and method, optical terminal and field terminal for community communication

Technical Field

The invention relates to the technical field of social communication, in particular to a community communication system and method, and an optical terminal and a field terminal for community communication.

Background

The existing social communication systems all need to obtain an account number to determine the object or group of communication, such as friend making group/game/forum/QQ/shake/drift bottle …, although it is fast and convenient, the prevention psychology is easy to generate in the virtual environment, so that the emotions can not see if they are, and the admirators can not see if they are.

Disclosure of Invention

Embodiments of the present invention provide an optical terminal for community communication, a field terminal for community communication, a community communication system and a community communication method, which can establish a dynamic community directly through field location characteristics to establish communication between users in a field.

A first aspect of the present invention provides an optical terminal for community communication, comprising:

the optical transmitting module is used for sending the ID and the position information of the optical terminal to the outside;

the communication module is in communication connection with a cloud server; and

and the processor is used for receiving and analyzing the ID and the position information of a field terminal to be added into the community, and transmitting the information to the cloud server for establishing the community.

A second aspect of the present invention provides a field terminal for community communication, comprising:

a light receiving module for receiving ID and position information of a light terminal;

the communication module is in communication connection with a cloud server; and

the processor is used for analyzing the ID and the position information of the optical terminal and sending the ID and the position information of the processor to the optical terminal; and receiving and analyzing the IDs and the position information of the other field terminals which are related to the community of the optical terminals and come from the cloud server, and establishing communication with the other field terminals.

Preferably, the field terminal further includes an AR module for presenting user interest data of the field terminal.

A third aspect of the present invention provides a community communication system including:

the optical terminal is used for sending the ID and the position information of the optical terminal to the outside;

the system comprises at least one field terminal to be joined in a community, a server and a user terminal, wherein the field terminal is used for receiving and analyzing the ID and the position information of the optical terminal and uploading the ID and the position information of the field terminal to the optical terminal;

and the cloud server is in communication connection with the optical terminal, receives the ID and the position information of the field terminal to be added into the community, associates the ID and the position information with the community to which the optical terminal belongs, shares the IDs and the position information of other field terminals, and establishes communication.

Preferably, the optical terminal includes at least:

the optical transmitting module is used for sending the ID and the position information of the optical terminal to the outside;

the communication module is in communication connection with the cloud server;

a positioning module for setting the position information of the optical terminal; and

and the photoelectric conversion module is used for converting the optical signal and the electric signal.

Preferably, the on-site terminal to be joined to the community at least includes:

the optical receiving module is used for receiving and analyzing the ID and the position information of the optical terminal and uploading the ID and the position information of the field terminal to be joined in the community to the optical terminal;

the communication module is in communication connection with the cloud server;

the positioning module is used for setting the position information of the field terminal to be joined in the community; and

and the photoelectric conversion module is used for converting the optical signal and the electric signal.

Preferably, the cloud server at least comprises:

the community management module is used for managing community information;

the communication module is in communication connection with the optical terminal; and

and the position management module is used for managing the ID and the position information in the community.

Preferably, the system further comprises an offsite terminal to join the community, the offsite terminal at least comprising:

the communication module is in communication connection with the cloud server;

and the processor is used for receiving and analyzing community information from the cloud server or sending a request for joining the community to the cloud server, sending ID information of the processor to the cloud server, and establishing communication with other terminals in the community.

A fourth aspect of the present invention provides a community communication method including at least the steps of:

providing at least one optical terminal, and sending the ID and the position information of the optical terminal to the outside;

the method comprises the steps that a field terminal to be joined in a community receives and analyzes the ID and the position information of an optical terminal, and the ID and the position information of the field terminal to be joined in the community are uploaded to the optical terminal;

after receiving the information of the field terminal to be joined in the community, the optical terminal uploads the information to a cloud server;

and the cloud server associates the field terminals to be added into the community with the community to which the optical terminal belongs, shares the IDs and the position information of the other field terminals, and establishes communication.

Preferably, the method further comprises the steps of:

providing at least one offsite terminal to be added into the community, receiving and analyzing community information from the cloud server or sending a request for adding into the community to the cloud server, sending ID information of the offsite terminal to the cloud server, and establishing communication with other terminals in the community.

According to the scheme, the interaction between the field terminal and the cloud server is established by using the optical terminal, the community corresponding to the optical terminal is established on the cloud server, the field terminal to be added into the community enters the community to which the optical terminal belongs through the optical terminal, the field terminal is communicated with the other field terminals in the community, the ID and the position information of the field terminal are shared in the community, and a user can obtain the situation of the field where the corresponding optical terminal is located by adding into the community and establish the field communication based on the position characteristics.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a block diagram of an optical terminal for community communication according to an embodiment of the present invention.

Fig. 2 is a block diagram of a field terminal for community communication according to an embodiment of the present invention.

Fig. 3 is a system architecture diagram of a social communication system according to an embodiment of the present invention.

FIG. 4 is a block diagram of a community communication system according to an embodiment of the present invention.

FIG. 5 is an architecture diagram of a community established in accordance with an embodiment of the present invention.

FIG. 6 is a flowchart of a social communication method according to an embodiment of the present invention.

FIG. 7 is an information interaction diagram of a social communication method according to an embodiment of the present invention.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The same reference numerals in the drawings denote the same or similar structures, and thus their repetitive description will be omitted.

The described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to provide a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that the invention may be practiced without one or more of the specific details, or with other methods, components, materials, and so forth. In some instances, well-known structures, materials, or operations are not shown or described in detail to avoid obscuring the invention.

The technical contents of the present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1, which illustrates a block diagram of an optical terminal for community communication according to an embodiment of the present invention, as shown in the figure, the optical terminal 11 for community communication includes an optical transmitting module 111, a communication module 112 and a processor 113. The optical transmitter 111 is configured to send the ID and the location information of the optical terminal 11 to the outside, the communication module 112 is communicatively connected to a cloud server 12, and the processor 113 is configured to receive and analyze the ID and the location information of a site terminal 13 to be joined in a community, and transmit the information to the cloud server 12 for establishing the community.

Specifically, the optical terminal 11 can transmit its ID and position information to the outside by using the visible light communication technology. The Visible Light Communication technology (VLC) is a Communication method for directly transmitting an optical signal in the air by using Light in a Visible Light band as an information carrier without using a transmission medium such as an optical fiber or a wired channel. The optical terminal 11 may be an LED lamp equipped with a microchip on site, and transmits information by using a high-speed bright-dark flashing signal emitted by the LED lamp and invisible to naked eyes, and transmits the ID and position information of the optical terminal 11 within a range that can be covered by light of the LED lamp on site, thereby realizing optical communication.

The communication module 112 may utilize a wired or wireless network to realize information transmission between the optical terminal 11 and the cloud server 12, and transmit the ID and the location information of the field terminal 13 to be joined in the community, which are received and analyzed by the processor 113, to the cloud server 12.

The processor 113 may be a central processing unit, a microprocessor, a digital signal processor, or other processing chips. Further, the processor 113 at least includes a signal receiving module for receiving the ID and the location information of the field terminal to be joined in the community, and a signal processing module for analyzing the information and instructing the communication module 112 to transmit the analyzed information to the cloud server 12 for establishing the community.

Referring to fig. 2 again, which illustrates a block diagram of the field terminal for community communication according to an embodiment of the present invention, as shown in the figure, the field terminal 13 for community communication includes a light receiving module 131, a communication module 132 and a processor 133. The optical receiving module 131 is configured to receive an ID and location information of an optical terminal 11, the communication module 132 is communicatively connected to a cloud server 12, and the processor 133 is configured to analyze the ID and location information of the optical terminal 11 and send the ID and location information of the processor to the optical terminal 11, and receive and analyze ID and location information of other field terminals of the community associated with the optical terminal 11 from the cloud server 13, and establish communication with the other field terminals.

Specifically, the field terminal 13 may be a mobile phone or a mobile computer, or may be an application software (APP) loaded on the mobile phone or the mobile computer, and taking the application software as an example, after the field terminal 13 enters the area covered by the optical terminal 11, the field terminal can receive the ID and the location information sent by the optical terminal 11 by opening the application software; the processor 133 analyzes the received ID and position information of the optical terminal 11, and transmits its own ID and position information to the optical terminal 11; the optical terminal 11 receives and analyzes the ID and the location information of the field terminal 13, and transmits the information to the cloud server 12; the cloud server 12 receives the ID and the location information of the field terminal 13 uploaded by the optical terminal 11, joins the community to which the optical terminal 11 belongs with the ID of the field terminal 13, and transmits the ID and the location information of the other field terminals associated with the community to the field terminal 13, and the communication module 132 of the field terminal 13 receives the information from the cloud server 12, so that the field terminal 13 can establish communication with the other field terminals in the community to which the optical terminal 11 belongs.

The processor 133 may be a central processing unit, a microprocessor, a digital signal processor, or other processing chips. Further, the processor 133 at least includes a signal sending module and a signal processing module, and the signal processing module is configured to parse the ID and the location information received by the light receiving module 131 from the optical terminal and to parse the ID and the location information received by the communication module 132 from the cloud server 12 and associated with the other field terminals of the community of the optical terminal; the signal sending module is used for sending the ID and the position information of the field terminal to the optical terminal.

Referring to fig. 3 and fig. 4, fig. 3 illustrates a system architecture diagram of a community communication system according to an embodiment of the present invention, and fig. 4 illustrates a block diagram of a community communication system according to an embodiment of the present invention. As shown, the community communication system includes an optical terminal 11, at least one on-site terminal 13 to be joined to a community, and a cloud server 12. Wherein, the optical terminal 11 is used for sending the ID and the location information of the optical terminal to the outside; the field terminal 13 to be joined in the community is used for receiving and analyzing the ID and the location information of the lamp terminal 11, and uploading the ID and the location information of the field terminal to the optical terminal 11; the cloud server 12 is communicatively connected to the optical terminal 11, receives the ID and the location information of the field terminal 13 to be joined in the community, associates the ID and the location information with the community to which the optical terminal 11 belongs, shares the ID and the location information of the other field terminals, and establishes communication.

Specifically, the optical terminal 11 may use a visible light communication technology to implement optical communication with the field terminal 13 to be joined in the community, and the optical terminal 11 sends its ID and location information to the field terminal 13 entering into the light coverage area; the field terminal 13 to be joined in the community receives and analyzes the ID and the location information of the optical terminal 11 and transmits the ID and the location information of itself back to the optical terminal 11; the optical terminal 11 receives and analyzes information from the field terminal 13 to be added into the community and transmits the information to a cloud server 12 through a wired or wireless network, the cloud server 12 receives the ID and the position information of the field terminal 13 to be added into the community, the ID and the position information can be associated with the community to which the optical terminal 11 belongs through necessary authentication, the IDs and the position information of the other field terminals in the community are shared to the field terminal 13 through a wireless network, communication is established, and communication among a plurality of field terminals in the same optical terminal coverage area is achieved.

Furthermore, because the optical communication is regional, when a certain field terminal leaves the coverage area of the optical terminal, that is, leaves the field, the field terminal cannot receive the ID and the location information sent by the optical terminal, and naturally, the ID and the location information of the field terminal cannot be fed back to the optical terminal, the optical terminal does not receive the information of the field terminal, and cannot upload the information to the cloud server, and the cloud server marks the field terminal as an off-site state in a community when the cloud server does not receive the information of the field terminal continuously, and updates the community information, thereby implementing dynamic update of the community information.

Referring to FIG. 5, an architecture diagram of a community established in an embodiment of the present invention is shown. As shown in the figure, an area a covered by an optical terminal (one or more LIFI lights) is a live area, an area outside the area a is an off-site area, live terminals (e.g., a1, a2, a3 and a4) entering the area a and joining the community to which the optical terminal belongs through optical communication are displayed as an "on-site" state in the community and can be represented by a mark "o", while off-site terminals (e.g., b1, b2, b3 and b4) leaving the area a or accessing the off-site terminals joining the community through a cloud server are displayed as an "off-site" state in the community and can be represented by a mark "Δ", and the system dynamically updates the community information according to whether the user marks a real-time state on-site. The system of the invention is also provided with an identity protection mechanism, when the user is on site, the identity of the group automatically generates a virtual account each time, the virtual account is only related to the site position, the site position can be mutually known only between site terminals on site, and after the site terminals leave the site, the virtual account related to the site position can be endowed to a new user at the site position, therefore, the establishment of the community is based on the position characteristics, and the identity information of the user can not be leaked. In addition, the off-site terminals can only issue communication information in the community, such as inquiry of on-site queuing, dining conditions and the like. As shown in fig. 4, the optical terminal 11 of the present system at least includes an optical transmitter module, a communication module, a signal receiver module, a signal processing module, a photoelectric conversion module and a positioning module, wherein the functions of the optical transmitter module, the communication module, the signal receiver module and the signal processing module have been described in detail in the above embodiments of the optical terminal, which are not exhaustive here. The functions of the remaining modules in the optical terminal 11 will be briefly described below, but the functions of the optical terminal should not be limited to the enumerated functions.

Specifically, the positioning module is used for positioning and generating the ID and the position information of the optical terminal itself. The photoelectric conversion module is used for converting an optical signal and an electric signal, namely converting the electric signal after the optical terminal is electrified into the optical signal so as to generate the ID and the position information of the optical terminal in the form of the optical signal.

The field terminal 13 to be added to the community of the system at least comprises a light receiving module, a communication module, a signal sending module, a signal processing module, a positioning module and a photoelectric conversion module. The functions of the light receiving module, the communication module, the signal transmitting module and the signal processing module have been described in detail in the above embodiments describing the field terminal, which is not redundant here. The functions of the remaining modules in the field terminal 13 will be briefly described below, but the functions of the field terminal should not be limited to the enumerated functions.

Specifically, the positioning module is used for positioning and generating the ID and the position information of the field terminal to be joined in the community, and updating the position information of the field terminal in real time along with the position change of the field terminal. The photoelectric conversion module is used for converting an optical signal and an electric signal, namely, the optical signal from the optical terminal acquired by the field terminal is converted into the electric signal which can be processed by the equipment, and the electric signal is analyzed by the signal processing module.

Preferably, the field terminal 13 may further include an application management module and an AR module. The application management module is used for managing an application program loaded by the field terminal, and can receive the ID and the position information from the optical terminal after the application software is started. The AR module is used for presenting the position information of the field terminal, user interest data and the like, specifically, the field terminal presents the IDs and the position information of other field terminals, which are related to the community of the optical terminal, from the cloud server on a mobile phone or a computer interface through an AR technology by utilizing the AR module, so that interestingness can be increased, the user can be helped to quickly and intuitively position the positions of the other field terminals in the community, and communication is more vivid, three-dimensional and real.

The cloud server 12 of the system may include a community management module, a communication module, a location management module, a map module, an identity protection module, a preference management module, an AR management module, and a lamp management module. The community management module is used for managing information in each community on the cloud terminal server, and the information comprises communication information among field terminals in the community. The communication module is communicatively connected to the optical terminal 11 and the field terminal 13, and is configured to establish communication between the cloud server 12 and the optical terminal 11 through a wired or wireless network and establish communication between the cloud server 12 and the field terminal 13 through a wired or wireless network. The position management module is used for managing the ID and the position information in the community, and comprises the ID and the position information of the optical terminal to which the community belongs and the ID and the position information of the field terminal in the community. The map module is used for presenting the position, interest data and the like of a field terminal in a community in a map form, for example, an off-site terminal inputs a destination address on map navigation or inquires a corresponding community in a circle range, after a target is retrieved, the corresponding community position is presented on the map, a user can issue information in the community after joining the community with an off-site identity, inquires the field situation of the field terminal in the community, after the communication authorization of the field terminal in the community is obtained, the off-site terminal can communicate with the field terminal, a communication object is established according to preference, and whether the community is navigated to the field according to the acquired field situation is selected. The identity protection module is used for identity verification of basic information of a terminal requesting to join in a community and can be achieved through a terminal ID, specifically, after the cloud server obtains the ID and the position information of the terminal, the identity protection module can be used for identity verification of the terminal ID in advance, the terminal ID is added into the community to which the optical terminal belongs after verification, and the ID and the position information of other field terminals in the community are shared. The AR management module is used for managing the position information and interest data of the field terminals in the community presented by the AR. The light management module is used for managing information of the optical terminals to which the community belongs, and comprises a corresponding relation table for managing the optical terminals and the community. The preference management module is used for managing user interest data, specifically, managing preference of terminals in a community in a manner of establishing preference indexes, and displaying the preference indexes of corresponding terminals in the community so that a user can select the terminals with common preference to establish communication. Wherein, the definition rule of the preference index can be:

1. hobby label

(1) Defining preference categories and subclasses;

(2) setting a personal preference label;

(3) participate in hobby activities or programs.

2. Definition of common preference index

Index＝F(x，y，z，c)

x, the more the same preference item number, the higher the index;

y is the preference degree ranking grade, the more indexes the ranking match is the same, the higher the index is;

z is a hobby time period, and the longer the common hobby time is, the higher the index is;

c, the specific activity of which preference is currently being focused on.

For example, by combining the preference management module and the map module, when the terminal position in the community is presented in the form of a map, the preference index of the authorized user is displayed beside the corresponding terminal on the map, and after the user joins the community, the user can select a chat object according to the preference index, and click the user terminal corresponding to the preference index in the interface, so that the chat request can be initiated. By combining the preference management module and the AR management module, when the terminal position in the community is presented by the AR picture, the preference index of the authorized user is displayed beside the corresponding terminal on the AR interface, the user can select a chat object according to the preference index after joining the community, and the user terminal of the corresponding preference index in the interface is clicked, so that a chat request can be initiated.

Referring to fig. 6 and 7, fig. 6 illustrates a flowchart of a community communication method according to an embodiment of the invention, and fig. 7 illustrates an information interaction diagram of the community communication method according to an embodiment of the invention. As shown in the figure, the social communication method at least includes the following steps:

step S10: providing at least one optical terminal 11, and sending the ID and the location information of the optical terminal 11 to the outside;

step S20: the field terminal 13 to be joined in the community receives and analyzes the ID and the position information of the optical terminal 11, and uploads the ID and the position information of the field terminal 13 to be joined in the community to the optical terminal 11;

step S30: after receiving the information of the field terminal 13 to be joined in the community, the optical terminal 11 uploads the information to a cloud server 12;

step S40: the cloud server 12 associates the field terminal 13 to be joined in the community with the community to which the optical terminal 11 belongs, shares the ID and the location information of the other field terminals, and establishes communication.

Further, the method may further comprise the steps of:

the method comprises the steps of providing at least one offsite terminal 14 to be added into a community, receiving and analyzing community information from the cloud server 12 or sending a request for adding into the community to the cloud server 12, sending ID information of the offsite terminal to the cloud server 12, and establishing communication with other terminals in the community.

As shown in fig. 6, the overall process of the community communication method according to one embodiment of the present invention is shown.

Firstly, an optical terminal 11 continuously sends the ID and location information of the optical terminal 11 to the outside;

after a field terminal 13 to be joined in a community enters an area covered by the optical terminal, by opening an application on a mobile phone, receiving the ID and the location information of the optical terminal 11, analyzing the received ID and the location information of the optical terminal 11 by the field terminal 13, calculating to obtain a self location, and uploading the self ID and the location information to the optical terminal 11;

then, the optical terminal 11 receives and analyzes the ID and the location information of the field terminal 13, and transmits the information to a cloud server 12;

then, after receiving the information, the cloud server 12 performs authentication, associates the ID of the field terminal with the community to which the optical terminal belongs, shares the IDs and the location information of the other field terminals in the community, and establishes communication.

In addition, after communication is established, communication information between terminals can be transmitted through the cloud server 12, specifically, the field terminal 11 selects a communication object in a community, the communication object can be selected according to the position information and the user interest data, then the communication information is sent to the optical terminal, the optical terminal transmits the information to the cloud server, the cloud server transmits the information to the selected communication object through the optical terminal, and real-time transmission of the communication information between the field terminal and the cloud server is achieved through the optical terminal and the cloud server.

Because optical communication is regional, when a certain field terminal leaves the area covered by the optical terminal, namely leaves the field, the ID and the position information sent by the optical terminal can not be received, and the ID and the position information of the field terminal can not be sent to the optical terminal naturally, the optical terminal can not receive the information of the field terminal any more, and the information can not be uploaded to a cloud server, and the cloud server can mark the field terminal as an off-site state in a community when continuously not receiving the information of the field terminal, so that dynamic update of community information is realized.

Since the offsite terminal 14 is not present at the optical terminal, it cannot participate in the community by optical communication with the optical terminal. When the offsite terminal 14 wants to join the community to which the optical terminal belongs, the cloud server 13 first authorizes to share the ID and the location information of the optical terminal 11 corresponding to the community under the condition that the onsite terminal 13 agrees in the community;

the offsite terminal 14 may open an application through a mobile phone to inquire about community information by inputting a location name corresponding to ID information of the optical terminal or an address corresponding to location information of the optical terminal 11; at this time, if the inquired optical terminal information is authorized, the offsite terminal can inquire the community to which the optical terminal belongs, otherwise, the community cannot be inquired;

after inquiring the community to which the optical terminal belongs, the offsite terminal 14 may request to join the community to which the optical terminal belongs by sending information requesting to join the community to the cloud server 12 and sending its own ID information to the remote server 12, and after the identity of the cloud server 12 is verified, the cloud server 12 joins the community to which the offsite terminal 14 belongs with the ID information of the offsite terminal 14 to establish communication; or, when the offsite terminal 14 sends an inquiry instruction for inquiring the community to which the optical terminal belongs to the cloud server through the inquiry address, the cloud server may actively send information of the community to which the optical terminal belongs to the offsite terminal 14 by obtaining the inquiry instruction, so as to establish communication.

It is worth mentioning that the present invention also provides an embodiment of a storage medium having stored thereon a computer program that, when being executed by a processor, realizes the steps of the community communication method of the present invention. The storage medium may be a ROM, RAM, removable hard disk, magnetic disk, optical disk, usb disk, or the like.

Preferably, the method of the invention can also establish the theme communities by the color and the brightness of the light, the light terminals emit the light with different colors and brightness, the community categories of the light with different colors and brightness are different, and the light with different colors and brightness is used as some theme communities, for example, the game area adopts red light, which represents that the game community can be searched under the light, the level can be distinguished by the brightness of the light, the light corresponding to the communities with higher levels is brighter, and the light corresponding to the communities with lower levels is darker, so that the user can conveniently and quickly search the favorite communities, and people with common love can be gathered together more quickly.

It should be noted that the structures, ratios, sizes, and the like shown in the drawings attached to the present specification are only used for matching the disclosure of the present specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions of the present invention, so that the present invention has no technical essence, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. An optical terminal for community communication, comprising:

the optical transmitting module is used for sending the ID and the position information of the optical terminal to the outside;

the communication module is in communication connection with a cloud server; and

the processor is used for receiving and analyzing the ID and the position information of a field terminal to be added into the community, and transmitting the information to the cloud server for establishing the community;

the method comprises the steps that an off-site terminal accesses and joins a community through a cloud server, communication information is issued in the community, the cloud server marks real-time states in the community according to whether a user is on site or not, the community is established based on position characteristics, when the user is on site, a virtual account is automatically generated in the community every time through the identity of the user, the virtual account is only associated with the site position, the site position can be obtained only among site terminals on site, and after the site terminals leave the site, the virtual account associated with the site position can be endowed to a new user located at the site position.

2. A field terminal for community communication, comprising:

a light receiving module for receiving ID and position information of a light terminal;

the communication module is in communication connection with a cloud server; and

the processor is used for analyzing the ID and the position information of the optical terminal and sending the ID and the position information of the processor to the optical terminal; receiving and analyzing IDs and position information of other field terminals which are related to the community of the optical terminal and come from the cloud server, and establishing communication with the other field terminals;

the method comprises the steps that an off-site terminal accesses and joins a community through a cloud server, communication information is issued in the community, the cloud server marks real-time states in the community according to whether a user is on site or not, the community is established based on position characteristics, when the user is on site, a virtual account is automatically generated in the community every time through the identity of the user, the virtual account is only associated with the site position, the site position can be obtained only among site terminals on site, and after the site terminals leave the site, the virtual account associated with the site position can be endowed to a new user located at the site position.

3. The field terminal of claim 2, wherein the field terminal further comprises an AR module for presenting user interest data of the field terminal.

4. A community communication system, comprising:

the optical terminal is used for sending the ID and the position information of the optical terminal to the outside;

the system comprises at least one field terminal to be joined in a community, a server and a user terminal, wherein the field terminal is used for receiving and analyzing the ID and the position information of the optical terminal and uploading the ID and the position information of the field terminal to the optical terminal; and

the cloud server is in communication connection with the optical terminal, receives the ID and the position information of the field terminals to be joined into the community, associates the ID and the position information with the community to which the optical terminal belongs, shares the ID and the position information of the other field terminals, and establishes communication;

at least one offsite terminal to be joined to a community, the offsite terminal at least comprising:

the communication module is in communication connection with the cloud server;

the processor is used for receiving and analyzing community information from the cloud server or sending a request for joining a community to the cloud server, sending ID information of the processor to the cloud server, and establishing communication with other terminals in the community;

the cloud server marks real-time states in the community according to whether the user is on site or not, the community is established based on the position characteristics, when the user is on site, the identity of the user in the community automatically generates a virtual account each time, the virtual account is only related to the site position, the site position can be mutually known only among site terminals, and after the site terminals leave the site, the virtual account related to the site position can be endowed to a new user at the site position.

5. The system of claim 4, wherein the optical terminal comprises at least:

the optical transmitting module is used for sending the ID and the position information of the optical terminal to the outside;

the communication module is in communication connection with the cloud server;

a positioning module for setting the position information of the optical terminal; and

and the photoelectric conversion module is used for converting the optical signal and the electric signal.

6. The system of claim 4, wherein the on-site terminals to join the community comprise at least:

the optical receiving module is used for receiving and analyzing the ID and the position information of the optical terminal and uploading the ID and the position information of the field terminal to be joined in the community to the optical terminal;

the communication module is in communication connection with the cloud server;

the positioning module is used for setting the position information of the field terminal to be joined in the community; and

and the photoelectric conversion module is used for converting the optical signal and the electric signal.

7. The system of claim 4, wherein: the cloud server at least comprises:

the community management module is used for managing community information;

the communication module is in communication connection with the optical terminal; and

and the position management module is used for managing the ID and the position information in the community.

8. A method for community communication, the method comprising at least the steps of:

providing at least one optical terminal, and sending the ID and the position information of the optical terminal to the outside;

the method comprises the steps that a field terminal to be joined in a community receives and analyzes the ID and the position information of an optical terminal, and the ID and the position information of the field terminal to be joined in the community are uploaded to the optical terminal;

after receiving the information of the field terminal to be joined in the community, the optical terminal uploads the information to a cloud server;

the cloud server associates the field terminals to be added into the community with the community to which the optical terminal belongs, shares the IDs and the position information of the other field terminals, and establishes communication;

the method further comprises the steps of:

providing at least one offsite terminal to be added into the community, receiving and analyzing community information from the cloud server or sending a request for adding into the community to the cloud server, sending ID information of the offsite terminal to the cloud server, and establishing communication with other terminals in the community;

the cloud server marks real-time states in the community according to whether the user is on site or not, the community is established based on the position characteristics, when the user is on site, the identity of the user in the community automatically generates a virtual account every time, the virtual account is only related to the site position, the site position can be obtained only among site terminals on site, and after the site terminals leave the site, the virtual account related to the site position can be endowed to a new user on the site position.

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