CN108600536A - A new mobile communication system oriented to communication scenarios and content - Google Patents

Abstract

A novel mobile communication system facing to scenes and contents enables communication participants to establish communication in communication modes such as voice, video and talkback or switch modes according to requirements to adapt to scene change in communication, and realizes sharing and interaction of data such as texts, data, files, media files, position information and IOT in communication. The novel mobile communication system is provided aiming at the defect that the prior connection-oriented mobile communication system can not be oriented to scene and content.

Description

A new mobile communication system oriented to communication scenarios and content

technical field

The present disclosure is a method for implementing a new type of mobile communication system oriented to communication scenarios and communication content. The method enables a mobile communication terminal to operate in voice, video duplex, half-duplex communication mode and instant message communication mode. Communication participants can switch their communication modes arbitrarily according to the communication scene and communication content, so as to realize the communication mode and communication content that are more in line with the scene in the corresponding scene; they can also send and receive, share data, and share data while communicating with voice and video. Location information, shared pictures, files, web links, text interaction, etc.; when sharing location information, mutual location information such as distance, path, queue status, etc. can be formed based on the terminal positioning information and the terminal's GIS system, and can be calculated in real time based on displacement And synchronously update to each location sharer; the communication terminal can be a smart terminal, a smart phone, a smart walking communication terminal or an App running on these smart terminals or a communication plug-in of a certain App containing this method, because the function of communication It should also be able to support life scenes such as driving, moving or exercising, so in addition to terminal screen control and keyboard control, it can also support eyes free, fingers free man-machine exchange control functions to ensure that mobile communication terminal users Especially during high-speed sports such as driving and cycling, dangerous sports such as mountaineering, skiing or extreme sports, and sports that require displacement such as walking and running, the eyes of the communicator do not have to leave the road or focus on things because of operating the communication terminal, which may cause accidents and accidents. It is necessary to interrupt and change the motion state due to the operation of the smart terminal/mobile phone, and make up for the defects that the existing smart terminal and smart phone systems cannot be used safely and conveniently in scenarios such as sports, displacement, and driving.

Background technique

Over the past few years, smart phones and smart terminals have developed rapidly, but the following problems have not been effectively solved. For example, the participants in the communication were originally interacting with an instant message, but when the problem became complicated, they needed to switch modes immediately and become voice duplex. Communication, or multi-person duplex communication to discuss this issue, and can also support necessary data sharing or file sending and receiving, but today's instant messaging system cannot support the participants in the chat group to switch from message interaction mode to voice or multi-person In the state of voice conference or video conference or intercom communication, it is even impossible to effectively communicate with people outside the instant messaging group users. For example, inviting a user who is not an instant messaging app to participate in voice and data communication; Participants can form a group of half-duplex communication, and at the same time, the participants of the communication will obtain the location information, path information and relative displacement of the other party, so that the participants of the communication can not only communicate information by voice, but also obtain a more accurate position than voice Information such as photos of landmarks and locations enables participants to better organize activities. When the team leader arrives at a certain place, he may wish to use live video to allow the members behind to better understand the road conditions ahead. Our mobile communication system today does not support such arbitrary conversion mode and content communication; we often have such scenarios in our lives, such as going to a certain place to meet others, when going to an unfamiliar destination, usually need to communicate by phone, The traditional communication system does not support location sharing. In fact, if the location sharing function is used after the call is made, one party can obtain the other party's location information, and according to the guidance formed by GIS, it is convenient to find the other party or guide the location. If one party sets a common target position, the GIS of other communicators' terminals will automatically form their own paths, the guiding party will also have its own paths, and the terminals will form their own paths and relative displacements, and can be used according to According to the request of the user, the corresponding position, displacement, etc. are broadcast at any time, so that the communication participants can know each other's displacement and the situation of reaching the target location. the other side. Usually when people are communicating, it is sometimes very difficult to describe a specific thing, but if you take a photo and send it to the other party, the other party can immediately understand the original appearance of the thing, while the traditional mobile system phone does not have this direct function. Instead, you need to start a third-party app. If the other party is not very familiar with someone, is not in the friend list of instant messaging or social networking system, or does not have a common instant messaging app, the communication content will be blocked and the communication effect will be greatly reduced. Since the current instant messaging system partially contains duplex voice communication functions, but as a stranger, the communication parties must be added as "friends" before they can communicate. Support more information interaction such as file sharing and location sharing, which actually hinders people's communication and limits the diversification of today's communication content, and instant messaging systems usually cannot directly communicate with telecom operators' voice switching systems , so some good functions possessed by some instant messaging systems can only operate within its system, not its users, who can only download the APP first, and if the mobile smart phone system optimizes its link-oriented communication system, the cost will be made public A new mobile communication system oriented to scenarios and content can avoid many problems in today's mobile systems that affect communication effects and communication content, and can also solve the problem that instant messaging systems cannot communicate with non-users, thereby making the communication boundary larger. Less restrictive. For example, when today's mobile communication terminals are in traffic, various data connections are interrupted, so that necessary communication functions such as data sharing, location sharing, and file sharing cannot be realized at the same time, and this is a technology that cannot keep up with the demands of the times. Therefore, under this method, this restriction will be canceled, so that a mobile communication system that crosses instant messaging APPs and mobile operators without artificial barriers can be realized.

For mobile users outdoors in rainy days or communication users whose hands are prone to wet and dirty work and living environments, the screens used in today’s smart terminals are usually difficult to control when the screen is wet, and even basic functions such as answering, rejecting, and hanging up calls, or unlocking the screen This basic function is difficult to achieve, so it is also necessary to use smart terminals, smart phones and control telephone communication systems without being limited by the screen. For example, drivers using smartphones while driving is currently one of the leading causes of traffic fatalities worldwide. In addition to using smart phones for voice communication, drivers usually use social networking, instant messaging apps, and navigation to guide directions, because all smart phones lack simple and effective blind control functions, and users need to take their eyes off the road to operate Mobile phones, so drivers must temporarily drive blind, which leads to frequent traffic accidents. For non-motor vehicle drivers, they usually hold the handle with both hands, and when communicating, looking at instant information or GIS, they usually hold the handle with one hand and keep their eyes off the road, which naturally reduces the safety factor. However, because communication equipment manufacturers have not effectively studied the communication requirements in these scenarios, some developed countries and regions have completely prohibited touching mobile phones while cycling or driving or allowed the use of mobile phones with hands free technology (voice recognition in noise, It does not meet the basic requirements of use, and when the car body vibrates outdoors and driving, it usually cannot satisfy the user). Some scenarios still exist in team sports such as mountaineering, cycling, and motorcycles. However, the existing smart phones or terminal systems have not done a good job of studying the changes in people's communication content and the diversification of scenarios, but continue the previous connection-oriented Therefore, the system functions cannot meet the communication needs of people in various scenarios and various communication contents. Only by changing the existing connection-oriented mobile communication system as a whole can a new communication system and capabilities be formed. To adapt to the life that people face every day today.

More scenarios will not be cited one by one, but it can be confirmed that the current mobile communication system has not fully studied the communication content and communication scenarios faced by communication users today and the situation that occurred when connection-oriented communication was invented (telephone communication). There have been significant changes, so today's communication systems need to be improved to meet the real life of communication users.

Emphasis on the blind control function of smart terminals and smart phone communication systems is because no matter driving, running, cycling or other types of sports, smart phone users usually have to destroy the original motion state to use the phone, because they need to look at the screen with their eyes, Use your fingers to cooperate with the touch screen to control the mobile phone, so it is necessary to disturb the original movement and displacement state. This is a problem that existed when the smartphone was invented and has not been resolved, and smartphone users spend a considerable amount of time in the movement and displacement every day. Status (driving, walking, biking...). When moving or moving, it is very easy to cause accidents when using the mobile phone with the head down, and the blind control technology of the smart phone will make the communication in these scenarios relatively safer and more in line with the requirements of the communication scene, and the blind control is no longer limited Instead of having to touch the mobile phone with the hand, the user triggers the wearable device wirelessly connected to the smart communication terminal to operate and control the mobile phone, such as reversely controlling the mobile phone through the sensor of the full wireless headset, but this requires the mobile operating system to increase the sensor control interface , rather than limited to today's screen controls.

The traditional voice communication is a link-oriented communication system, that is, the communication parties communicate with at least two parties in a circuit way through the switching equipment, and in the packet-switched transmission system that is commonly used today, more functions should be provided for the communicators, and Instead of continuing to use the communication ideas of the link exchange era, our communication today and in the future should be oriented to the content needs and scene needs of the communicators, not purely for the needs and logic of voice and video communication, nor is it that users can only communicate in static Screen touch is used in the environment, so the packet switching system provides a technical basis for new mobile communication methods. An effective communication today or in the future is often voice, video, data (including GIS or IOT information), file sharing, text interaction, A combined form of data interaction, messages, etc.

Today's smart terminals and smart phones contain a wealth of sensors, some of which can sense the time when an external object is close to an object or even the direction and speed of the object's movement, which provides a technical way for blind control of mobile phones. By approaching the sensor of the mobile phone, instructions can be sent to the smart terminal. The existence of these basic functions provides the possibility for communication users to blindly control smartphones when their hands and eyes are inconvenient. Of course, after smart terminals use sensors or sensor groups that can sense directional triggers, sense trigger time, and duration, they can conveniently Realize blind control.

When we analyze the communication content and the communication scene, we draw a very clear conclusion that today's mobile communication system does not combine the communication content and the scene, so the method involved in this disclosure is a new type of mobile communication that meets the demands of the content and the scene. method.

In the field of special work, digital clusters are commonly used, but their technology is old and cannot make good use of modern scientific and technological achievements. For example, when the police arrest criminals, they usually use the round-up method, but because of the different perspectives of the participants in each direction, the language description Half a day is not as good as police officers from different angles sharing photos and videos from their respective angles. In some scenes where voice communication is not possible, information and instructions can be sent in the form of text messages plus various files and photos, so that those involved in the arrest can clearly understand the environment of all parties. Situations for reasonable handling. By adopting the novel mobile communication method disclosed in the present disclosure, the problem of digital clusters can be solved, and information such as voice, video, photos, maps, drawings, etc. can be quickly shared and shared with all parties, so that the arrest work is more effective and the risk is reduced. Chances of information leakage are reduced. Similarly, this method is also applicable to the individual soldier communication terminal, which can enable the individual soldier to understand the situation of the entire combat area and the commander can understand the position of each individual soldier and the information fed back by the individual soldier, so as to make a more comprehensive command decision.

Based on the scenarios that mobile communication users may use today and in the future, and the communication content that may be involved, this method restructures communication and information components and modules, adopts new technologies to make multi-mode communication possible, and makes it possible for users to use eyes and fingers inconveniently. In some occasions, it can also blindly control the communication of smart terminals, which solves the defect that today's smart terminals or mobile phone products cannot be used in all scenarios. Today's mobile communication system cuts off the data service during a call, so that the data and voice services cannot work in parallel, artificially destroys the content (data) demands of the communicator, and artificially separates the voice communication of the mobile communication service from the community instant messaging service provider. Block messages and functions so that users across communication systems cannot communicate seamlessly.

Contents of the invention

In order to overcome the fact that today's smart terminals, smart phones and the communication systems on them cannot effectively adapt to the communication scenarios and communication content in real life, this method is proposed, so that users of smart terminals and smart phones in the future can communicate to the greatest extent. Adapt to various communication scenarios to the greatest extent; during communication, you can also share, share, and exchange various information, and you can use a larger boundary communication for the communication party (instant message users can start telephone communication when they do not know the other party's phone number, and the phone Users can also communicate data (such as data, file sharing) when they are not instant messaging friends. Communication parties can switch between duplex, half-duplex and instant messaging modes without having to hang up and restart other APPs and other cumbersome operations. Communication switching can be carried out by the communicator according to the change of the scene and the change of the communication content. switch. For different Apps with instant messaging functions, when communicating across App users, the API using this method on the smart terminal can be called, and the instant messaging and voice and video communication can be switched across Apps, making the App natural Formed user boundaries are broken down by this new method of communication. For scenarios where eyes and hands are inconvenient, such as driving, sports, cycling, etc., participants can blindly control the communication function of the smart terminal, so that the communication control function can meet the scenarios where smart terminals and smartphones are inconvenient to use as mentioned above.

Description of drawings

The method will be further described below in conjunction with the accompanying drawings.

Fig. 1 is a composition diagram of system function modules and diagrams of information flow, signaling flow and control flow of the method.

Figure 2 is a hierarchical architecture diagram of this method when it is deployed on a large scale.

Fig. 3 is an example of the function of the communication interface when the method is used as a calling party.

Fig. 4 is an example of the communication interface and corresponding functions on the terminal when the method is used as a calling party.

Fig. 5 is an example of the function of the communication interface when this method is used as a call.

FIG. 6 is an example of the communication interface and corresponding functions on the terminal when the method is called.

Fig. 7 is an example of the function of the communication interface of the method in communication.

Fig. 8 is an example of the location sharing interface on the terminal when the method is in communication.

Fig. 9 is an example of an instant message interface on a terminal when the method is in communication.

Fig. 10 is an interface example of a video conference on a terminal when the method is in communication.

Detailed ways

The implementations described in the following exemplary embodiments and the specific time, codes, quantities, schematic diagrams, etc. do not represent all implementations consistent with this method, on the contrary, they are only as described in the attached power of attorney Some aspects of this method are consistent with the method.

As shown in Figure 1, S101, S102, and S103 are all smart terminals and smart phones that adopt this method. These smart terminals are interconnected with the S104 communication service module signaling through a packet-switched wireless network system. The connected signaling can be Based on international protocols such as SIP or a more practical communication signaling system in the future, the information registered by the terminal on the communication service module includes at least the following information but is not limited to the following information, such as mobile phone SIM card number, smart terminal unique number, E.164 number, User name, packet switching network address, terminal physical address, one or more instant messaging system names installed on the smart terminal, corresponding user name, user ID, user email, etc. All relevant data of the terminal are communicated with S104 The service module data is registered and stored in the S105 user information database. When the data on the terminal side changes, such as the address roaming of the wireless packet switching network used, the information is immediately updated to the S104 communication service module, which stores the data to the S105 user An information database, which may be an in-memory database, to ensure instant call addressing for a large number of users. For traditional communication systems, E.164 numbers are the basis of calling and addressing. For packet switching systems, such as SIP and H323, aliases, email names, etc. can be used as long as they can be used as unique addressing information. Yes, but as a multi-party compatible system, the numbers of different systems need to be translated correspondingly, and finally the address of the packet switching network such as IP address is used for communication connection; of course, user ID card information and social security number information can be used as addressing numbers For example, when the public security organ has a person's ID card information and needs to contact him, he does not have an E.164 number at hand, but he can directly call his ID number to call the person's mobile phone or track his phone number (or any social network that the police has already mastered) number), for example, when a social security unit contacts a relevant person, it can directly call the social security number to achieve communication, and the social security personnel can share the missing information form of the person in real time to complete the data update. Diversified addressing methods will facilitate many life scenarios, but this requires the S105 to be safe and confidential. This realization not only facilitates personal communication, but also facilitates the interaction between the government or corresponding institutions and individuals, rather than being limited to today's connection-oriented communication design.

When the smart terminal S101 calls the smart terminal S102 as the calling party, S101 first passes through the S104 communication service module, according to the called phone number or calling user name or a user name of a certain instant messaging system or an ID or ID number of a certain instant messaging system , find the address of its current corresponding packet switching network in the user information database in S105, and then establish communication by the communication service module according to the signaling procedure. Audio and video streams during point-to-point communication can directly establish voice and video channel connections without other components. In a packet-switching network such as the IP protocol, the usual protocol for establishing video and audio is RTP/RTCP. This kind of communication connection is the most common connection mode of voice and video in our IP network today, but in the public mobile network, today is to use the telephone number, that is, the E.164 encoding instead of any user name or certain user name in the embodiment. ID of a messaging system. However, in the new content- and scene-oriented mobile communication system, the compatibility of the front and rear systems must be considered. Therefore, when communicating with the traditional system, the local E.164 number is used. In the backward compatibility, various information is used, but It is enough to ensure the uniqueness when addressing (such as ID card, social security number, etc., the theory cannot be duplicated), for example, the mobile communication user can also be addressed through a community user number, establish a communication connection, and want others to join the communication Others are not users of the community, but call other numbers such as E.164 or his other unique identification numbers.

After the smart terminal S101 is successfully connected to the smart terminal S102, if the user of the smart terminal S101 wants to describe an item to the user of the smart terminal S102, but after the description, it is found that sending a photo is more direct and effective, then the user of the S101 uses the smart terminal to take a photo , and then send the photo to the S109 protocol/data adaptation layer. During the sending process, any status and behavior will be sent to the S108 real-time database in real time, such as progress data. After receiving the data, S108 will send it to the terminal S102 in real time. The user of the terminal S102 knows the behavior and progress of the file sent by the other party in real time. When the file upload is completed, the file is stored in S111 through S109, and when S102 receives the notification of S108, the photo file can be transferred from the S111 file server to the local terminal through S109. terminal, of course, the photos sent by terminal S101 can be stored in S110 through S109, but this is not a good method for structured databases; but for unstructured databases, S110 and S111 can be integrated, and the functions include sending, receiving and storing instant messaging systems Data, files, media and other interactive data.

S108 uses a real-time database because various states and data change rapidly during communication. For certain data changes, the database will directly notify the associated user, while the traditional database responds poorly to high-frequency data, and the response is slow. It cannot automatically send data and messages to associated group users, and is not suitable for the environment where the multi-service parallel communication system works. Therefore, for a better communication experience, it is necessary to use a real-time database S108 to quickly update messages, Data response and processing, in this type of database, the performance and characteristics are representative, such as Firebase, but every time there is a data update, the data sensitive person will be notified, so that the terminal will reflect such as someone leaving a message, an unknown phone number, But the caller is someone among social friends, so the called party has more auxiliary information to judge whether it is a harassing call or whether to answer the call, unlike today when an unfamiliar call needs to determine whether it is harassing or use mobile phone software to automatically check the called person After using this method, the caller information is no longer the E.164 number, but some auxiliary information. If there is no call with this information, the called party can ignore it, because normal people and organizations will mark it related information, so after the implementation of this method, the significance of fraudulent calls, telephone firewalls, etc. will be greatly reduced, because when any mobile user needs to bundle information such as ID card, social security, social, affiliation, credit, etc., the cost of fraudulent crimes is already very high. High, the high incidence of mobile fraud today is related to the current mobile technology model. If this method is used, a legitimate mobile user cannot have a communication signal without multi-party cross-verification of the real information. A number without cross-verification information, naturally No one answered.

The main function of S109 is to receive and call data, files, etc. Its actual function is to play the role of middleware, adapting data and files from different sources, protocols, and interfaces, and balancing the communication content and information such as Data, files, etc. are stored in the corresponding database component S110 and file service component S111, or called from the corresponding database component S110 and file component S111 to a terminal that needs data. For communication services for a large number of users, S109 balances the business pressure and then submits it to the corresponding database or file server in the background. Without this layer, it is difficult for ordinary servers and databases to meet user experience when faced with large-scale business pressure. requirements.

Use another scene to illustrate the function of S109. For example, S101 calls the API of this method from the instant messaging system A to make a call, and dials the S102 terminal. When the communication starts, it is found that the voice cannot explain the problem, and a video file needs to be shared. There is no instant messaging system A on S102. According to the traditional model, terminal S102 must also install instant messaging system A to realize video file sharing. However, after adopting this method, the terminal itself has instant messaging function, although it is not the same instant messaging system as S101. , but through S109, the purpose of communication can be achieved without requiring both parties to use the same instant messaging system, which greatly improves the freedom of communication. So S109 also plays the function of various protocol adaptation. For information communication, the main thing is content transmission and communication, and information content such as voice, video, files, and instant messages usually meet the corresponding standards, so S109 can easily realize adaptation, and smart terminals have their own non-third After the three-party instant messaging system, the boundaries of different instant messaging systems can be completely opened by using the API, so that instant messaging will not be limited to the group of friends but will be used as a standard mobile communication function.

S110 is a database component, which records various communication behaviors, participants, time, communication data and content conveniently stored in the database, etc. If it is a media file or unstructured data that is inconvenient to store in the database, it will be stored and managed by the S111 file server component. However, there are corresponding records in the database, and the user can call the specific file of S111 according to the data record of S110 when calling, which is completely different from the traditional connection-oriented voice communication system.

If the unstructured database can well store various structured data and unstructured data, then S110 and S111 can be integrated.

Let's use the example of group communication of S101, S102, and S103 to illustrate the realization method of this new type of mobile communication system. A user selects voice communication in the group communication interface such as S103, so that the text message interface remains, but all three parties can establish a voice communication connection. The realization of this process is as follows.

After S103 selects voice communication, S103 sends the information to S104 communication server, and the communication server queries S107 audio and video bridge server resources, and applies for resources of 3 ports to S101, S102 and S103, and when resources are obtained, S104 notifies S101 , S102, S103 apply for the resource code on S107, and notify S101, S102, S103 to establish a connection with the code. The way to establish the connection can be that S107 calls S101, S102, S103 or S101, S102, S103 receives the notification from S104 After receiving the message, actively call the resource number on S107. In this way, an instant message group chat scene that we are usually familiar with becomes a multi-party voice discussion and meeting. If the discussion topic involves files, information, etc., you can continue to use the original instant message system window to transmit information. It is also worth mentioning Yes, after the implementation of this method, the communicator is not a user of any instant messaging APP and friends can also "chat" and share files in groups, which is different from the premise of the instant messaging system that they must be "friends" or join a certain "group" The premise logic of ability to communicate is completely opposite, because the communicator is not necessarily a friend, nor will he necessarily become a friend, but just to communicate something clearly based on the facts. For example, Chinese correspondent A needs to discuss business with American correspondent B on the phone, but finds that it is best to have a drawing to illustrate, and one of them is in a mobile state. Americans use Facebook and Chinese use QQ. It cannot continue to be effective, but after adopting this method, mobile phone users can immediately share the drawings in the mobile phone, and all parties can still communicate with their own systems without forcing the installation of the same APP, so the efficiency of communication is much higher than today's communication system .

We continue to use the example of the three terminals to illustrate this method. When the users of the three terminals think that the voice discussion is not as effective as the face-to-face conversation, go to the current location of one of them, for example, go to the current location of S101 , then S101 chooses to share location information on the communication interface. If S102 and S103 accept sharing, the GIS on the communication interface will display the real-time location information of S101, S102, and S103. S102 and S103 point to the current location of S101 and then navigate, then S102, S103 is prompted by the navigation to go to the location of S101. Everyone in the communication knows the location of the other party. If S101 thinks that a landmark building needs to be sent at this time, then take a photo and send an instant message. Then S102 and S103 will update when they reach the destination. Easy to find S101. Of course, the voice can be hung up at this time, but if you do not choose to stop the location sharing, the three smart terminal users will know each other's location and distance until they reach the destination. That is to say, after the voice communication ends, the location sharing will not stop Before the end, the shared function continues to work, which is also fundamentally different from the traditional idea that hanging up means ending the communication, because being scenario-oriented requires real usage scenarios rather than connection-oriented thinking. This means that one person can maintain communication with multiple people in different ways at the same time, such as location sharing with A, short message status, voice or video with B, and location sharing at the same time, which is more in line with today's daily scenarios, rather than necessary Hang up someone, because communication has been derived from the process of a person's behavior, not just communication, especially after the popularity of IOT, this logic is stronger, man-machine, everyone, the machine on the person and the machine in the background Communication is the problem that this method hopes to solve. For example, call 110. According to this method, after 110 is connected, the location information, location change information, on-site monitoring voice data, and image data when it is convenient are obtained by the police, instead of Today's voice describes the position for half a day, but it cannot be accurately described. This is a simple embodiment of man-machine and everyone's communication.

In this example, the implementation of the technology is to select a shared location on the communication interface of any terminal, and the initiating terminal will notify the S104 communication service component of the initiation, and the communication service component will notify other terminals. When other terminals receive the shared location, the terminal will read Get the location information of the terminal and send it to the real-time database of S108. Other communication participants receive the data pushed by S108. In this way, the communication participants obtain the location information from each other and display it on the local GIS. Because the location information changes during high-speed displacement. Keep up with the speed, so adopt real-time database to reduce the inefficiency when interacting with traditional database. Of course, there is another way to realize it is to select the shared location on the communication interface of any terminal, and the initiator will send the sharing request to the S108 real-time database, and the real-time database will notify other terminals. When other terminals receive the request, the S108 will share the GIS data in real time . The former method requires the support of S104 signaling, while the latter method only requires the terminal to update the indication according to the real-time database data. When S101 transmits a photo, the photo file is sent to the S109 protocol data adaptation layer through the instant message window of the communication interface, and the adaptation layer sends the photo to the database or file management component according to the definition. When the photo transmission is completed, S108 notifies each terminal, and each The terminal reads the data or file storage location from S110 via S109 (database format is tag, file format is storage address), and displays it in the instant message window of each terminal (or automatically pushes it to other terminals after S109 completes the work of receiving information) . And S106 records various information of the whole communication process for behavior research and charging use.

This example can also be set to not go to the location of S101, but to go to a certain location after the three-party discussion. Only one person needs to set the target location in the GIS of the communication interface, and the three correspondents can obtain the location information of the destination address. And form their own paths, and in the process of going to the destination, the communicators can keep track of each other's displacement paths and the distance and arrival time of each other at any time.

The above-mentioned example is consistent with the technical implementation method of the example in [0036], and will not be repeated, but when setting the address, the destination address is not the address of S101 but the target address manually located or searched, which is also a multi-party that is not supported by the GIS system today. share function.

If this scene is changed again, they are going on an outing by bicycle, and set a certain suburban address, then one of the three communicators can choose the intercom mode, so that one party can speak, and the other two cannot speak. Half-duplex working state, so that when three or more people participate in the communication, they can only communicate when needed, but each user has the location information and team information of other parties and himself, so that everyone can be very effective To maintain queue travel and communication without additional preparation of trunking communication system (the future wireless communication system should be a no-dead-angle system, that is, a satellite-covered wireless network, so mountainous areas are not the same as today. Mobile phones do not have network signals, and communication users can use a mobile phone. Realize all the functions of today's walkie-talkie).

If this scene is changed again, several people are going to climb a mountain. Usually, the distance will be opened due to the difference in physical strength during mountain climbing, and there is usually no GIS calibration on the mountain road. Into the GIS of his smartphone, and form a climbing route, if he chooses GIS sharing, then this route will be automatically shared by multiple parties, so that climbers will walk according to the track after they distance themselves on the mountain road, even if they are In the case of communication barriers in mountainous areas, people traveling in groups will not be separated. Similarly, this function can also share GIS information with the mountaineering team that has agreed to meet somewhere. Even if communication is interrupted, the shared The GIS information still exists, and you can still form a team after reaching the agreed point at the appointed time. And this kind of function is not supported by the traditional mobile phone GIS function, and the multi-function walkie-talkie does not support it. Because this method emphasizes the scene, it is not a simple point-to-point sharing location, but to achieve the purpose of sharing, such as meeting and The purpose is still for the purpose of teaming up, not simply A's position, B's position and the current positions of A and B are logically shared. Of course, this is the basis of shared positions.

In this example, after any terminal selects the intercom mode, it will notify each terminal through the S104 communication server. When all terminals switch to the intercom mode, when one terminal presses the intercom key or controls the sound, the other terminals will not It can speak, but can only listen (PUSH TO TALK function). The realization method is that after entering the intercom mode, when one of the terminals presses the intercom button, it will send a request to S104 for intercom permission, and others cannot at this time Request again, and then use S104 to control the bridge port of S107, the person who has obtained the authority, the audio bridge port input authorization is open, while the bridge port of other participants only has the output open, and the input is closed. When the intercom is over, the bridge port bidirectional All are open, when the next applicant applies for speaking (press the intercom button), his input will be open, and the input of others will be closed. The above method needs to modify the signaling in S104 and control S107; of course, there is another simple method that the terminal sends a PUSH TO TALK request to S108. If there is no other intercom request in S108, the terminal can make a sound , if there are other intercom or intercom requests, the voice, vibration and other prompts cannot intercom but can only be listened to, and the terminal's audio pickup function will be suspended until the other person's PUSH TO TALK ends. The former needs to define the intercom function in the S104 signaling. For example, taking SIP as an example, use the blank field of the SIP protocol header to define the intercom function information. , then give the audio bridge S107 the corresponding port corresponding authority, so that it is not necessary to use S108 in the intercom link. The latter can be realized without changing any signaling structure and functions of the audio bridge. As for the GIS change on the terminal, S108 is sent immediately. S108 sends the updated information of all parties to other shared terminals, and forms queues, displacements, data or maps on the GIS of their respective terminals, so that participants can grasp the information of other parties at any time. information. The S106 will store all kinds of data in multiple ways such as time, group, and individual, for the analysis of charging and communication behavior, which is usually CDR data, but the CDR of this new communication method is compared with the past , the content covered is relatively complex, not only recording the calling, called, and communication duration, but also recording various signaling or non-signaling communication status and change data on this basis.

In Figure 1, S112 is a communication gateway, which is used for intercommunication and interconnection with communication systems with non-identical protocols, such as traditional telephone networks, traditional mobile wireless networks connected by circuit interaction, or communications with non-identical protocols Systems, etc., usually need to be interconnected through S112, otherwise the communication system cannot be interconnected with the previous communication system. Some instant messaging systems have voice communication capabilities, but cannot communicate with PSTN, and cannot be addressed by audio and video users of other systems. This is a typical implementation mode of communication systems with barriers.

The above examples only describe the functions of this new type of mobile communication system and the working logic between the major functional modules, in order to try to illustrate the advantages of the disclosed system and today's mobile phone communication system and today's mobile communication system can no longer meet the requirements. Communication requirements for scenes and content in people's lives.

It is particularly worth mentioning that location sharing is a default option when calling the official emergency or emergency number. Sending to the police, the police do not need to spend a certain amount of time communicating specific location information (usually wasting precious time) as in the past, but immediately start an emergency response. Of course, this requires the police call center to have the same capabilities as the mobile terminal described in this method If the system of the police alarm center does not have the ability to match it, the S109 part of the system can use the message form of information, email or the conventional method of the police to send the caller information, on-site voice, location, etc. Information, movement tracks, etc. are submitted to the police in the form of resource links, and the police can also obtain real-time information on the scene including location and voice by entering the link.

The location information mentioned above includes GPS, Beidou and other satellite positioning system information, base station information used by wireless terminals, address information assigned by the packet switching network for Internet access, and physical location information associated with access devices, etc. These are all location information, and Not limited to GPS which is commonly used today. For example, the satellite cannot locate the area, the base station is the best positioning tool, and the address of the auxiliary packet switching network can obtain relatively accurate location information.

When the number of system user groups is very large, the industry has relatively mature technologies such as Cluster technology. For S104, multiple communication service components can be clustered, which can not only ensure the number of service users, but also ensure that the system within a Cluster Redundancy, load balancing, etc. For a large-scale system, a hierarchical (Class) system is adopted, which is not much different from today's carrier-level switching system, but the supported communication functions and content increase, and the communication information In addition to the existing communication protocols, many control protocols associated with terminals have been added. The protocol used in S104 can also use industry standard communication protocols such as SIP or next-generation signaling standards. However, in view of communication content and scenarios, it is necessary to supplement some control signaling or use real-time databases and terminal corresponding functions through S108. out-of-band control. For S105, S106, S107, S108, S109, S110, S11, S112, and S104 are all members of a Cluster, and each member can use Cloud (cloud technology) horizontal expansion according to the number of users to become a complete scenario-oriented and Cluster or Cloud (cloud) of a new type of mobile communication system for communication content. Multiple hierarchical clusters form a "domain", such as a province or a service provider, and multiple "domains" form a new mobile communication system at the national level.

As shown in Figure 2, if the second-level nodes are prefecture-level nodes, the first-level nodes are provincial-level nodes, and the root node is a national-level node, and the root-level nodes between countries are logically connected through a mesh network. In the form of interconnection, the root node and the first-level nodes and second-level nodes below constitute a "domain". For circuit-switched systems, such a three-level structure is very difficult, but today on the packet-switched network, the network is sufficient Under good conditions, the second-level nodes can be collected, that is, a national-level communication system can be completed by the root node and the first-level node, and for the redundancy of the entire system, the root node may be physically multiple , and logically it can be one, and the existing cloud technology can realize this on a large-scale system, but only requires time characteristics between systems, such as response time.

The above describes the working logic and functions of the main functional modules of the background of the new mobile communication system under several communication scenarios and contents through examples. It also describes the layout method when the system is used in a large area.

However, when describing the above examples, some functions of the communication interface are mentioned. Obviously, these functions are not available in today's smart terminal phone system. Therefore, to realize the above functions, the communication interface of the communication terminal also needs to be changed. In the following, the implementation method of the present disclosure on the communication interface will be described respectively by using the three states of calling, called, and in communication.

The functions in the communication interface mentioned below are the basic functions used to illustrate this method, and do not represent all the functions tested by this method on the communication interface, and on the contrary, more functions expanded under this method are just using this method. The method is just an example of a certain function point; the layout of the communication interface in the drawings used is only the simplest representation used to illustrate this method, and does not represent the only layout of this method. On the contrary, any communication interface based on this method A layout is just one implementation instance of this method.

In the caller communication interface, at least contain the function options shown in Figure 3, S201, the communication participant list area, this list is to click on S210 personal favorites, S211 latest calls, S212 address book The reselectable contact numbers, contact Information, etc. or the number entered by the S213 dial pad, the S201 is very easy to understand, just like today when we make a call, we need to find the called information from the phone book, but it is different from today’s system that can select multiple at a time communication participants.

After the contact information of the communication participants selected or double-selected is displayed in the list area of the selected communication participants in S202, the caller can edit and delete those who do not need to participate in the communication or those who are wrongly selected. After selecting the communication participant, you need to select the communication mode. The communication mode is divided into S203 voice mode. This mode is the most commonly used voice phone in our mobile communication today. After the communication is established, it is duplex communication. The calling communication interface defaults to S203. If you want video communication, you can choose S204 video mode, in which two-way video communication. If you want the communication mode to be an intercom mode, such as when many people are riding, mountaineering, etc., select S205. If you choose single person or multiple people, leave a message, leave a text or share a file, choose S206. This function is similar to the group function in today's group instant messaging system. Select participants when creating a group, and then share various information in the group. (But the biggest difference with the instant messaging system is that the object to leave a message, leave a message, and share various data is not a "friend" in the instant messaging system, but may be any stranger, any newly entered contact). If during communication, it is hoped that multiple communication parties can obtain each other's position information, displacement information, and trajectory information, such as arriving at a certain party's current position, or going to a specific position, etc., then select S207 position sharing, and S207 is selected after S203, S204, S205, and S206 additional options. S208 is calling, that is, the caller calls the participant in S202, according to any one of the modes in S203 to S206, together with the additional option S207 to form the call information, call S104 communication service components, S104 schedules related components according to the mode and additional option S207 Establish communication.

It is worth noting that if the selected communication mode is not S206, but any one of S203 to S205, S206 will be executed to automatically form an instant message group, and the users in the group are communication participants. If these participants have previously formed If there is a group, the previous name of the group is directly selected, and if it is a new correspondent, a new group is created for instant messaging. If other words, files, multimedia, etc. need to be added during the communication, there will be an instant message window in the interface after the communication is established, input text, share files, call the camera to take pictures, etc. This is also a function that the previous mobile communication phone system did not have.

A2 in Figure 4 is an example of a calling interface in a mobile terminal, which contains the basic functions described in Figure 3 to complete the call (A2 in Figure 4 does not represent the only communication interface used in this method, and A2 is just an example to show this A specific pattern in the implementation of the method is used to illustrate this method), and the area corresponding to S201 in A2 is the second area in the middle. The most straightforward understanding is the contact list, which can be all the contacts in the phone book today. A list, which can also be a list of recent correspondents. In S202, in the corresponding area in A2, there is a list of contact persons who have selected to communicate immediately. The various functions displayed in A2 can be optimized to a more beautiful way in the specific calling interface, and more functions can be added to make the functions more direct and the interface more beautiful and friendly, but this is all based on this method It's just a concrete realization.

When the calling terminal makes a call according to the mode and additional options selected on the communication interface, after S104 and related components complete the scheduling preparations, S104 initiates a ringing signal to other called terminals, and the called party will display at least the following necessary information after ringing Figure 5. S301. Display communication participant information, which includes caller information and other participant information, so that the called party knows who will participate in the communication.

S302, the communication mode, that is, one of S203, S204, and S205. Of course, if the displayed mode is video during use, but it is inconvenient for the called party to use video, you can click S302 to select the communication mode that you recognize. After receiving and confirming the mode desired by the called party, the communication is established.

S303 is location sharing. When the caller chooses location sharing when calling, a prompt will appear in S303, indicating that the communication needs to share location. If the called party does not want their location to be known by the other party, just choose to refuse location sharing, for example, click S303 Or select S303 non-location sharing mode. When the calling party does not select S207 location sharing when calling, and the called party wants to obtain the calling party's location before answering the communication, then S303 location sharing can be selected, and S304 is selected to answer, the called party notifies the S104 server and informs the calling party to select S207, After the caller selects S207, the communication starts to be established; otherwise, the caller refuses or hangs up. These control information can all belong to signaling information, which is slightly more complicated than traditional communication connection signaling. It can be supplemented with signaling for a new mobile communication system oriented to scenarios and data on the basis of relevant ITU-T, or it can be out-of-band The information is pre-defined through the real-time database and the intelligent terminal communication system, and is executed by the terminal and notified to S104 to complete the information required for communication and subsequent control.

S304 is that the called party thinks that he is willing to answer the communication after seeing various information, and then selects to answer, and if he is not willing to connect to the communication, then selects S305 to refuse.

Figure 6 is a schematic diagram of the called interface. In the figure, A3 is the called communication interface, corresponding to S301, S302, S303, and S304, and S305 has a corresponding schematic area, and only corresponds to the called interface, except for S304 and S305. Basic functions, such as communication hold, etc., are not marked one by one, because such functions do not affect the description of the realization of this method.

When we connect the call, no matter what mode the communication is established, at least the following function options appear on the communication interface, as shown in Figure 7, the basic information of S401 communication, including the communication participants, the time the communication has been carried out, and the communication mode, etc. information.

S402 is the GIS information function. If the communication contains S207 shared location when the communication is established, then the GIS information function of S402 displays the location, displacement, path, etc. of the communication. If the location sharing of S207 is not selected when the call is established, then the shared location is selected in S402, and other After the party confirms, the position information of the communicator who shares the position will be displayed in the GIS layer of S402. We know that all smart terminals include navigation apps. This function can be realized by calling the navigation app randomly installed on the terminal or directly calling the navigation and GIS services on the network through the packet switching network. However, when functions such as teaming are involved, navigation is required. Or GIS can provide this type of API. If GIS does not have such API functions, S402 is required to implement these functions, and then call navigation and GIS as required.

When talking about S402, the terminal navigation APP provider can also directly call the API of this mobile communication method to start the communication function. For example, we often use navigation when driving. When routing, you can directly call the other party on the navigation APP. After the other party shares the address, the navigation will form a route and guide according to the shared address.

S403 is instant messaging, including traditional text, photos and other information, and it can also be multimedia files such as music, video and other point-to-point or group information transmission. instant messaging services based on packet switching. Moreover, when a call is established, this information is automatically established to facilitate the sharing of various information in the communication. If there have been various communication information in the past, the latest communication information and data will be displayed. For the current instant messaging service providers or telecom service providers, there is no need to separate this kind of business. Content-oriented communication should integrate these services instead of separate systems, which puts a lot of burden on users . S404 is mode switching, switching the duplex call to half-duplex or video, and the purpose is to allow the user of the mobile terminal to choose a communication method more suitable for the scene. For the communication system of packet switching, the difficulty of mode switching is very small, and if these functions are based on circuit switching, a large amount of signaling may be required, but based on packet switching networks, in-band or out-of-band signaling can solve these mode switching problems . About S405 to S409 are the basic functions of the terminal communication interface after a call, such as hanging up the phone, holding the phone, such as mute, such as using a speaker, such as telephone recording, such as adding communication participants to the phone book or inviting more communication participants. For people, these are the basic functions of today's communication systems and will not be described one by one.

Fig. 8 is an example of establishing communication under location sharing. The information corresponding to A4 in S401 is: A, B, and X communicate in intercom mode, and the location is shared. In the GIS in A4, we can see that 3 people moved in a team to a common place. Someone set the target address and formed a queue mode, and the 3 people moved according to the queue mode. In the GIS function at the bottom right of GIS, you can set such as but not limited to: 1. Location sharing, 2. Target setting; 2. Team function; 4. Path import (previous data, mountaineering data, charts, etc.); 5. Path Optimal (multiple people team up, and the departure address is different, the best calculation is required); 6. Optimal destination (multiple people will meet and choose the best area); 7. Intercom communication between communication users in the selected area ( Mountaineering, fishing and other scenes, stranger group communication) and other functions to adapt to various life scenes, and the above-mentioned 7 functions and corresponding communication modes are not supported by the GIS system at present, and sports in land, mountains, and oceans, During displacement, when multiple people, vehicles, and ships are displaced, the above-mentioned basic functions should all be basic functions. As for the algorithm, the optimal calculation on GIS is usually calculated according to the cost of the path, the speed of the participants, and the specific path, and can be adjusted in real time according to the dynamic shared data. As for why such a function is available on smartphones today , It has not been implemented on smart terminals, because industry participants have artificially separated communication and GIS, without considering people's scene needs and communication needs.

In the A4 area of Figure 8, there is a mode switching function under the GIS, which is for the communication participants to choose the mode switching according to the situation, such as using the intercom in this example to switch to other modes, and "PTT" is what we call The PUSH TO TALK function is the intercom function. In half-duplex communication, the right to speak can only be applied for after pressing the PTT, and this right is not released when others are speaking. In displacement movement, our hands and eyes may always be occupied, and how to use this function requires the blind control function of smart terminals and mobile phones, such as the use of ultrasonic sensors or proximity sensors. Talk, end of coverage, end of intercom. And other S405 to S409 functions, can hide according to the requirement of interface, replace calling or according to function supplement with a key, all are the functions that adopt for the function more perfect under this method, are a realization display of this method.

In the area A5 in Fig. 9, it is an instant message window. If people want to send a photo on the phone in the past, they need to use other communication APPs. In this method, voice, video, duplex, half-duplex When communication is established, this instant message window exists. Once there is something that cannot be clearly stated by voice, video, files, information, drawings, etc. can be transmitted immediately. Maps, documents, photos, so communication efficiency is greatly improved. In the example in A5, 3 people team up to a certain goal. If one of them walks to a certain place and feels that the road is difficult or easy to get lost, he can send a photo or a short video to tell the people behind him that the No matter how the region continues to move forward, the people behind will not lose their way, so communication is for people, not limited to connection-oriented technical inertia.

In the lower right of the instant message window in the A5 area in Figure 9 is the "instant message function". After clicking this function, file sharing, photo sharing, media file sharing, and even music sharing and simulcasting can be realized. There are many in it For content, in view of the fact that the instant messaging system has been used for many years, it is enough to refer to the instant messaging function of the mainstream instant messaging system in the industry. After clicking this function, there are various sub-functions required by instant messaging.

In Figure 10, the A6 area is a communication interface for video communication. It uses multi-split screens to display 4 communicators. As for which mode to use, such as PIP or 4-split screen, select it in the video function under the video interface window. That is, the video communication system has a communication standard based on SIP or H.323, and the basic control functions have been standardized. In the "Video Control" function, choose your favorite method such as full screen, PIP, voice activation, etc. Not only can it be used as a participant to control the display effect of the terminal itself, but it can also reversely control the work of the MCU.

The above content describes the display and basic functions of the communication interface of the terminal. Because in communication, the capabilities of the background system and the functions of the front-end system are consistent and matched, so the functions of the background need to be realized and displayed by the front-end equipment. Through the above description, we can see a mobile communication system that has richer functions than today's mobile phone system and is more suitable for people's communication content and communication scenarios.

In modern life, people spend a lot of time in displacement, and how the displacement does not affect the displacement and can use the communication system of intelligent terminals, such as accidents caused by using smart phones while driving, and the death rate ranks at the forefront of traffic accident deaths , which requires blind control mobile phone technology.

Regarding the patent of blind control mobile phone technology, see: patent application CN2017110653987 "A Control Method for Smart Terminals, Smart Phones, and Smart Electronic Devices" and patent application CN2016103632799 "A Control Method for Smart Terminals/Mobile Phones", citing the above two The implementation of the patent application can control the communication function without using the screen of the smart terminal, without using eyes, and without using fingers.

Taking the proximity sensor on all mobile phones as an example, let's explain how to blindly control it. For function and state switching, we can use super long trigger to realize, through super long trigger, you can switch function, switch menu, and under the instant message function, the super long trigger is to leave a message, under the intercom function, super long The trigger is the intercom. For the instant messaging system, the short trigger is the last message of TTS (Text To Speech) (if the pointer of the instant message is not at the top), and the long trigger is the next message of TTS (if the pointer of the instant message is not at the end), If the pointer points to a text-type file sent by the other party, the voice will prompt "XX sent a text or pdf or word type file." If the communication user wants to listen to the file, two consecutive short triggers, Then the system starts to TTS this file; if the other party sends a picture, and the communication user wants to listen to this picture, the method used is relatively complicated, and the steps are as follows: 1. The system first TTS "someone sent a picture" ; 2. If you want to know the content of this picture, it is a double short trigger; 3. After the communication terminal receives the short trigger, it calls the AI (artificial intelligence) interface, uploads the picture to the image content recognition service corresponding to AI, and Identify the elements in the picture and turn them into text (strings containing associations); 4. Submit the text recognition form of the view to AI (NLP) natural language generation, that is, after the results of 3 and the understanding of 4, Generate natural language (rather than the direct output of 3, which is usually incoherent but related information); 5. Use TTS to inform the correspondent of the feedback text information; if the correspondent wants to reply, in step 6, long trigger and Speak, after the trigger is over, the content of the speech during the trigger period will be sent to the communicator. This means that the communicator did not use his eyes, fingers, or mobile phone screen to participate in the steps from 1 to 6 during the exercise, and realized the interpretation of the sent message and picture file, and combined the communication content of the communicator before and after, although the communicator did not read the picture. , you have already basically understood the more detailed content of the sent pictures, and also fed back to others. At present, this function does not exist in any instant messaging and community systems (of course, the system can also compare the sent pictures with similar pictures. API of the service Docking, so that the picture becomes relevant information. For example, the user who sent the picture took a picture of a mountain. The TTS result is still a mountain after the natural semantics of the picture content recognition, and the similarity picture recognition, the feedback information is the Fragrant Mountain taken from a certain angle. , combined with the GIS information in the photos, users who blindly use the smart terminal will know the Fragrant Hills taken by the other party at a certain location in Xiangshan, so the two paths of image recognition should be combined in practice instead of blindly relying on image recognition and natural semantics) .

It is easier to answer, reject, and hang up the phone. After the call, according to the blind control method, TTS will inform who is the caller, communication mode, GIS sharing and other information. For example, the caller is A, using voice mode, but location sharing is required, the terminal will broadcast "A voice communication requesting location sharing". After one short trigger and the end of the command window, the calling party will see that the called party wants to answer the call, but has not accepted the location sharing; and when the called party wants to accept the location sharing, three consecutive short triggers will realize the voice communication. location sharing. And when wanting to hang up the phone, still 3 consecutive short triggers, then the phone call and sharing are all interrupted, but only 2 continuous short triggers, then hang up the phone without interrupting the location sharing. Due to the adopted trigger code, as above, as long as the 1-3 bit trigger code is defined, the connection and interruption of communication can be controlled.

As for the location sharing function, the user can switch to the location sharing mode through a super long trigger, and then realize the function selection with a short touch and a long trigger, and a continuous double short trigger means to execute the function, so that the user will be prompted by TTS , using the proximity sensor of the smart phone to realize the selection and execution of menu functions.

Of course, the method is the same for making a call. Use the super long trigger to enter the phone book, and then use the long and short triggers to find the communication partner. However, because it is used blindly, it is recommended that you do not choose hundreds of people as the caller in this case. Instead, choose 10 or 20 most critical contacts, such as running or driving, usually only dial a very critical or long-term contact person, instead of finding a person who is not in frequent contact.

The above content describes how to use the blind control technology to control communication, so that the communication problems of people in motion can be solved, no matter they are called or calling.

However, when a communication terminal user encounters a risk and wants to get help but cannot make a phone call with his hands, such as a violent incident such as robbery against an individual or several people, the victim cannot and has no chance to touch the mobile phone. Today's smart terminal None of the functions of smartphones and smart phones can help the victim, but under this method, using the method of patent application CN2015108357473 "A Concealed Method for Calling for Help Based on Smart Terminal/Mobile Phone and Its Auxiliary or Associated Devices", as long as the smart phone and its accessories Associated devices that adopt this method can trigger a call for help, and the communication system of this method will covertly send the on-site sound, image (if the front and rear cameras of the smart terminal are not covered), and location information to the rescuer in real time, allowing the rescuer to Fully aware of the situation at the scene and the location of the scene, but the perpetrator of the crime is completely unaware (the above information is usually sent in a black screen mode). The background will store all relevant information and time one by one according to the system clock. If in order to prevent tampering and credible verification and investigation in the future, blockchain technology will be used to record the triggered on-site voice information, real-time changing location information, and on-site images. The information is stamped with a system time stamp accurate to about 10 milliseconds, so that hackers cannot change the evidence.

The content covered by this method involves the scenarios and communication content faced by communication users, but today’s connection-oriented communication ideas of smart phones and smart terminals cannot meet these scenarios and content, so a more advanced communication system is needed to replace today’s system. However, this method is proposed based on the understanding of people's life scenes, the understanding of communication content, and the knowledge of communication systems and information systems. The realization of this method is not difficult technically (image recognition and natural language processing, here Complex graphs are immature, Microsoft, Google and other companies have open APIs for calling), all other basic functions and equipment, communication and information industries have been used for many years, but because of the existing interests of the industry (such as standard patents to maintain interests), Therefore, it has not kept up with the current and future communication scenarios and content requirements, so it has not organically integrated existing technologies to form a communication system that serves people. This method combines technologies such as voice, video communication, information communication, real-time database, application of location information, touch control, covert help, AI (actually calling a formed third-party API) and other technologies to form a scene-oriented and content-oriented mobile communication system. For information or communication companies, according to this method and this method, a new type of mobile communication system oriented to communication scenarios and communication content can be easily realized, thereby completely changing our current mobile terminals that cannot communicate with other data services in parallel during phone calls. Fragmentation (between the instant messaging system and the operator, between the instant messaging system), GIS multiple real-time sharing technologies conflict with the operator's voice business communication, data conflicts, and the problem of not being able to make full use of smart terminals during sports.

The content mentioned in this method can be implemented step by step. The new scene-oriented and data-oriented mobile communication system after realization can greatly improve the communication efficiency of mobile users, and greatly adapt to the problems faced by every mobile user today. It is better to use the smart mobile terminal with the screen in a static environment instead of the mobile scene assumed today.

When this method is implemented, a series of adjustments need to be made to the current smart terminal, wireless network, background data, voice, video interaction, and switching system to form the ability to meet mobile scenarios and data demands. The communication system capability is much higher than the mobile communication system we have experienced in a few days.

Claims (9)

1. A new type of mobile communication system oriented to scenarios and contents. This system enables communication participants to establish communications in communication modes such as voice, video, and intercom or switch modes during communications according to communication scenarios and communication content, and Realize the sharing and sharing of text, data, files, media files, location information, IOT and other data in communication, in order to enable mobile communication users to use their eyes, fingers, and smart terminals when their hands and eyes are inconvenient, such as driving, exercising, and moving The participation of the touch screen can conveniently control the communication, control the receiving, sending, reading of instant messages and the use of the location sharing function. The intelligent terminal/mobile phone "blind control" technology is adopted. The function of the novel mobile communication system can be used to covertly call for help without touching the mobile phone, and the location information and on-site sound information can be transmitted to rescuers in real time. 2. As claimed in claim 1, the novel mobile communication system of the present disclosure can communicate in voice, video, and intercom mode and can share and share data, text, media files, files, IOT data, etc. 3. As claimed in claim 1, the novel mobile communication system of the present disclosure can switch between voice, video, and intercom modes according to communication scenarios. 4. As claimed in claim 1, the novel mobile communication system of the present disclosure includes a location sharing function, which includes but is not limited to the seven location sharing functions listed and described in paragraph [0064] of the description. 5. As claimed in claim 1, the blind control method adopted by the novel mobile communication system of the present disclosure includes but is not limited to the description in paragraph [0072] of the manual and 6 specific methods in controlling the functions of receiving, sending and reading instant messages. Implement method steps. 6. As claimed in claim 1, the new mobile communication system of the present disclosure supports communication users to control and operate communication without the participation of eyes, fingers, smart terminals, and smart phone touch screens in the state of movement, displacement, and driving. main function in . 7. As claimed in claim 1, the novel mobile communication system of the present disclosure will establish communication with rescuers after the hidden alarm is triggered, and send location information and on-site sound information to rescuers and rescue units in real time, and record them in the background into the blockchain system. 8. The novel mobile communication system of the present disclosure can establish instant message communication with strangers without communicating with other instant message systems, that is, they must be friends or users of the same instant system. 9. When the communication system of the new mobile communication system of the present disclosure is used blindly, the background recognizes the photos and forms a text description, and then uses natural language method TTS to the receiver, so as to ensure that the receiver can know the content of the received pictures while exercising and driving. You don't have to look at the screen with your eyes.