CN108476386B - Broadcast communication method of mobile device and communication method of wireless cloud end system - Google Patents

Abstract

The invention discloses a broadcast communication method of a mobile device, which is executed by the mobile device and comprises the following steps: (1) recording external voice or sound or video after receiving a trigger signal, wherein the trigger signal is generated by receiving trigger of a touch screen key of the mobile device or a key in wireless or wired connection with the mobile device; (2) converting the voice, sound or video to the streaming signal; (3) outputting the stream signal to a cloud system; and (4) continuously receiving stream signals transmitted by other mobile devices received by the cloud system.

Description

Broadcast communication method of mobile device and communication method of wireless cloud end system

Technical Field

The present invention relates to a method for cross-network communication, and more particularly, to a method for cross-network communication of a wireless cloud system and a method for communication of a mobile device.

Background

The mobile device has been developed rapidly in recent decades, and the industry has also evolved in several times. From the simple communication in the GSM system and the prevalence of 4G and mobile network, the cross-network communication is becoming mainstream, and many new communication applications such as community network, mapping, text messaging, etc. are also generated. However, the existing communication technology lacks a communication mode in a broadcasting (broadcasting) mode, and is limited in use. For example, the current mobile device cannot communicate with many individuals simultaneously in a wireless communication mode, or perform broadcast communication to multiple receivers in a manner similar to that of a wireless intercom.

Disclosure of Invention

In order to solve the problem that the existing mobile device lacks a communication mode similar to a wireless intercom, the invention provides a broadcast communication method of the mobile device, which is executed by the mobile device, and the steps comprise:

recording external voice or sound or video after receiving a trigger signal, wherein the trigger signal is generated by receiving trigger of a touch screen key of the mobile device or a key in wireless or wired connection with the mobile device;

converting the voice, sound or video to the streaming signal;

outputting the stream signal to a cloud system; and

continuously receiving stream signals received by the cloud system from other mobile devices.

The present invention further provides a cross-network communication method of a wireless cloud system, which is executed by a cloud system and performs streaming signal transmission with a plurality of mobile devices added to the cloud system, and the method includes the steps of:

providing a plurality of quasi-radio communication channels, wherein each channel is participated by each mobile device, and each quasi-radio communication channel respectively outputs or receives streaming signals with each participating mobile device;

receiving streaming signals output by each mobile device participating in different analog radio communication channels; and

respectively transmitting the stream signals received by each analog radio communication channel to the mobile devices participating in the analog radio communication channel.

As can be seen from the above description, the present invention has the following features and achieves the following technical effects:

1. the mobile device 30 can perform communication functions similar to those of a wireless phone through the cloud system 50, and can communicate with a general wireless phone in a similar manner.

2. The user can select the channels with different functions to be added through a device such as a mobile phone, and receive the streaming voice messages of other users participating in the channels at the same time, and the user can also transmit the streaming voice messages to other users simply through the form of speaking after pressing by using a wireless telephone.

Drawings

FIG. 1 is a system block diagram of a preferred embodiment of the present invention;

FIG. 2 is a schematic diagram of the preferred embodiment of the present invention.

Description of the symbols:

10. a radio communication device; 20. a radio gateway; 30. a mobile device; 50. a cloud system; 55. a functional tag; 70. a connecting device; 80. an Internet of things element.

Detailed Description

To facilitate understanding of the technical solutions and advantages of the present invention by those skilled in the art, the following description of the embodiments is made with reference to the accompanying drawings.

Referring to fig. 1 and 2, a communication system block diagram of a broadcast communication method of a mobile device and a cross-network communication method of a wireless cloud system according to the present invention includes a cloud system 50, a mobile device 30, which may further include a wireless communication device 10, a wireless gateway 20 and a connection device 70.

The radio communication device 10 may be a walkie-talkie (walkie-talkie). The radio communication device 10 and the radio gateway 20 are connected by radio signals, and the frequency band of the radio signals is not limited, may be different according to the regulations of each country, and is generally in the frequency range of kHz to GHz. The specification and protocol of the radio signal are not limited, for example, a CTCSS (Continuous Tone Coded Squelch System) or a DCS (Digital-Coded Squelch) System, so that the output radio signal contains an internal code, or only the radio signal with the internal code can be received. The radio signal containing the internal code can utilize the internal code to output other types of data, such as digital signals of GPS address, text, code, etc.

The radio gateway 20 receives the radio signal outputted from the radio communication terminal, converts the radio signal into a network signal, and outputs the network signal to the cloud system 50. The wireless communication device 10 also receives the network signal outputted from the cloud system 50, converts the network signal into the wireless signal, and broadcasts (broadcasting) the wireless signal to all or part of the wireless communication devices 10, thereby achieving the purpose of two-way communication.

In the embodiment of the present invention, the radio gateway 20 forms a plurality of communication channels (channels), and each radio communication device 10 and the radio gateway 20 can complete message communication through a preset or selected communication Channel. Different communication channel configurations allow a selected radio communication device 10 to perform a group-specific radio communication within a group through the radio gateway 20. Typically, broadcast transmissions are sent between the radio gateway 20 and each of the radio communication devices 10.

The radio gateway 20 is in signal connection with the cloud system 50, which may be a physical network signal connection or a wireless network signal connection. The network signal is transmitted between the cloud system 50 and the radio gateway 20.

The mobile device 30 is connected to the cloud system 50 in a signal transmission manner, and the mobile device 30 includes a mobile phone, a tablet computer, a smart wearable device, and the like. The communication between the mobile device 30 and the cloud system 50 and the radio communication device 10 can be communication systems of a broadcast communication method of the mobile device 30 and a cross-network communication method of a radio cloud system, and the aforementioned communication between the cloud system 50 and the mobile device 30 can be half-duplex (half-duplex), that is, each mobile device 30 only receives or only transmits a streaming signal at the same time.

In establishing a communication network between the mobile device 30 and the cloud system 50, the cloud system 50 can provide a plurality of simulated radio communication channels (simulated radio communication channels), the mobile device 30 logs in the cloud system 50 through a wireless communication interface, which can be an application program (APP) installed in a smart phone, and a user transmits and receives the streaming signal after logging in the cloud system 50 through the APP. Transmitting the streaming signal means that the mobile device 30 receives a trigger signal of the user and then converts the voice or sound or video of the user into the streaming signal and outputs the streaming signal to the cloud system 50. Receiving the stream signal means that the cloud system 50 will receive the stream signal from each mobile device 30 and broadcast the stream signal to all or part of the mobile devices 30. The sending of the trigger signal means that the application program provides a selectable or a depressible graphical interface or option, so that the user can select to send the trigger signal, so that the mobile device 30 starts to receive the voice of the user and convert the stream signal to be output to the cloud system 50, and the mobile device 30 continuously receives the stream signal output by the cloud system 50 when there is no trigger signal, so that the mobile device 30 can complete a half-duplex communication mode of sending the stream signal (push to talk) after being depressed.

The triggering signal can also be accomplished by triggering a connection device 70, wherein the connection device 70 can be electrically or signal connected to one of the mobile devices 30 correspondingly, for example, connected to the mobile device 30 through bluetooth or other protocols, the connection device 70 includes a button, and the mobile device 30 starts to receive the voice of the user and output the stream signal when the user touches the button. The connection device 70 may be a bluetooth button, a bluetooth wireless headset microphone set, or a wired headset microphone.

Further describing the communication mode between the mobile device 30 and the cloud system 50, the mobile device 30 and the cloud system 50 respectively execute a broadcast communication method of a mobile device and a communication method of a wireless cloud system to complete the communication mode therebetween, which includes the following steps:

receiving registration of the mobile device: the cloud system 50 generates the wireless communication interface so that each mobile device 30 can register on the cloud system 50 through the internet to generate a recognizable account. The registration form is not limited, and each mobile device 30 can log into the cloud system 50 after installing the application program through a web page provided by the cloud system 50 or a dedicated application program. It is not necessary for all mobile devices 30 to establish a new registration account, and the functions opened by the cloud system 50 can be browsed.

Providing an analog radio communication channel: the cloud system 50 generates and provides a plurality of the pseudo-radio communication channels. The pseudo-radio communication channel is set up according to a specific purpose, function or group, and each mobile device 30 selects to join more than one pseudo-radio communication channel, so that the mobile devices 30 joining the pseudo-radio communication channel and the cloud system 50 can complete the streaming signal transmission. The special purpose may include, for example, the pseudo radio communication channels including pseudo radio communication channels dedicated to transmitting traffic related to road conditions, pseudo radio communication channels dedicated to providing geographical locations (GPS) in proximity to each other for transmitting streaming signals of the mobile device 30, pseudo radio communication channels providing road conditions according to geographical locations, pseudo radio communication channels without restrictions on identification conditions, and pseudo radio communication channels with specific identification conditions. The pseudo-radio communication channel without the identification constraint is similar to the conventional radio communication, so that each mobile device 30 can perform the streaming signal transmission with other mobile devices 30 or other radio communication devices 10 through the cloud system 50.

The content of the pseudo-radio channel of the cloud system 30 can be a streaming signal of each mobile device 30 or a network signal output by the radio gateway 20, so that the pseudo-radio channel of the cloud system 30 can enable the communication between the radio communication device 10 and the mobile device 30.

Selecting a pseudo-radio communication channel: the user operates the mobile device 30 to log into the cloud system 50 and selects one or more pseudo-radio communication channels of the cloud system 50, and when the mobile device 30 obtains sufficient authority to join the pseudo-radio communication channels, the user can start receiving the message of the cloud system 30.

Sending out a trigger signal: the mobile device 30 generates and sends the trigger signal.

Receiving external sound to generate the series flow signal and outputting: the mobile phone 30 receives external sound or voice when sending a trigger signal, converts the received signal into a streaming signal, and outputs the streaming signal to the cloud system 50.

As can be seen from the above description, the mobile device 30 can complete voice signal transmission with other mobile devices 30 or the radio communication device 10 through the cloud system 50.

Further, the cloud system 50 is not limited to a cloud server, and may be a wireless device that is connected to the mobile device 30, the radio gateway 20, and the radio interphone 10 at the same time in a wired or wireless manner, and the wireless device may be, for example, a WIFI or a local area network connection device, so that the mobile device 30 can complete the streaming signal transmission effect in a local network area in this embodiment.

Further, as shown in fig. 1, the present invention may include an internet of things element 80 connected to the cloud system 50, the internet of things element 80 continuously receives or detects an internet of things signal, the internet of things signal may be an ambient temperature, a haze detection, a fire detection, etc., the internet of things element 80 outputs the received internet of things signal to the cloud system 50, so that the cloud system 50 can output a serial stream signal corresponding to the internet of things signal to the specific or non-limited mobile device 30. For example, the internet of things element 80 is a fire detection element, and when the internet of things signal related to the fire detection result is output to the cloud system 50, the cloud system 50 can play a series flow signal recorded with a fire alarm notification to each mobile device 30.

Further, the cloud system 50 of the present invention can provide each business with a dedicated pseudo-radio communication channel, which can be dedicated for streaming signal transmission between the business and the mobile device 30 connected thereto. In practical example, the channel can be used for customer service of a merchant, a user transmits a stream signal of a customer complaint to the pseudo radio communication channel of the merchant through the mobile device 30, the merchant can assign the stream signal of the customer complaint to relevant processing personnel or service personnel after receiving the stream signal of the customer complaint, and corresponding personnel can transmit the stream signal of the customer complaint back through the pseudo radio communication channel. The method for selecting a specific mobile device 30 to send the streaming signal responding to the customer complaint can be to send the streaming signal of the customer complaint processing result to the mobile device 30 through the registration information of the mobile device 30 in the cloud system 50. In other words, the owner of each channel can set whether to respond to a specific mobile device 30 or all mobile devices 30, so as to achieve the effect of selectively sending streaming signals.

The aforementioned setting of the pseudo radio communication channel may be preset in the cloud system 50, for example, a plurality of channels may be respectively preset according to a theme, such as a channel dedicated to providing road condition reports, a channel dedicated to providing preferential messages, a channel dedicated to shopping, a channel dedicated to beauty, a channel dedicated to religion, a channel dedicated to education, a channel dedicated to broadcasting, and the like. Alternatively, the cloud system 50 may provide an interface to enable the registered mobile device to self-establish a dedicated pseudo-radio communication channel, so that other mobile devices 30 can join the dedicated pseudo-radio communication channel.

The following are several exemplary embodiments:

example 1: referring to fig. 2, a business may set up its own pseudo-radio communication channel to continuously play streaming signals, and directly communicate with other users and businesses in the channel in a wireless communication manner similar to a wireless telephone. The merchant can also receive a function tag 55 through the cloud system 50, where the content of the function tag 55 is not limited, and may be a voice message, and a privilege authentication, for example, the function tag is a recording of a privilege message of the merchant, and the privilege message is recorded in a manner that an opening privilege requirement can be further set, and the opening privilege requirement is, for example, within a distance adjacent to a satellite positioning address, and the recording of the privilege message can be read. Alternatively, the opening right requirement may be a password.

Example 2: referring to fig. 2, the functional tag 55 can be a road accident notification record or a road condition notification record, etc., and when each mobile device 30 participating in the pseudo radio communication channel related to the road information satisfies the activation permission requirement, the road accident notification record or the road condition notification record can be played.

Example 3: referring to fig. 2, the function tag 55 can be a home message record, and when the user goes home, the mobile device 30 plays the home message record through the cloud system 50.

Example 4: the cloud system 50 can join the channel according to the geographic proximity, and receive the streaming signal transmitted by the channel.

The mobile device 30 can set an application program, and can receive or execute the transmission of the streaming signals of multiple channels at the same time, so that the user can set a screen for displaying the receiving and communication of multiple channels, continuously receive and select the channel to be communicated.

The mobile devices 30 can also be connected via bluetooth or short-distance pairing or network, so that the neighboring mobile devices 30 can transmit streaming signals to each other without being transmitted to the cloud system 50.

Further, the mobile device 30 may include a display interface, which may include a plurality of pseudo-radio communication channels logged on the cloud system 50,

from the foregoing description, it can be seen that the present invention has the following features and technical effects:

1. the mobile device 30 can perform communication functions similar to those of a wireless phone through the cloud system 50, and can communicate with a general wireless phone in a similar manner.

2. The user can select the channels with different functions to be added through a device such as a mobile phone, and receive the streaming voice messages of other users participating in the channels at the same time, and the user can also transmit the streaming voice messages to other users simply through the form of speaking after pressing by using a wireless telephone.

3. The invention can be used for asynchronous message leaving, and the receiver can select the time for reply by transmitting the series flow signal.

4. The user of mobile phone can select the appropriate channel to continuously receive road conditions, leave messages and warn, which is very convenient for the driving family to use, reduces the requirement of continuously watching characters during driving, and promotes the safety of the road.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A broadcast communication method for a mobile device, the method being performed by the mobile device, the method comprising:

recording external voice or sound or video after receiving a trigger signal, wherein the trigger signal comprises a touch screen key of the mobile device, a wirelessly connected key or a wired key;

converting the voice or sound or video to a streaming signal;

outputting the streaming signals to a cloud system, wherein the cloud system provides a plurality of pseudo-radio communication channels, and the cloud system receives network signals of a plurality of radio gateways and converts the network signals into streaming signals;

the mobile device continuously receives streaming signals from other mobile devices or network signals converted into streaming signals through the cloud system from the cloud system through the plurality of quasi-radio communication channels when no trigger signal exists;

the mobile device selects to transmit the streaming signal to different analog radio communication channels when receiving the trigger signal; and

the mobile device receives a function label of the cloud system, and meets the requirement of playing the function label in an opening authority, wherein the opening authority requirement comprises a satellite positioning address or an identity authentication.

2. The method of claim 1, wherein the mobile device is connected to neighboring mobile devices via a bluetooth connection and transmits the stream signal.

3. A cross-network communication method of a wireless cloud system, executed by a cloud system, for streaming with a plurality of mobile devices participating in the cloud system, comprising:

providing a plurality of quasi-radio communication channels, wherein each channel is participated by each mobile device, and each quasi-radio communication channel respectively outputs or receives streaming signals with each participating mobile device;

receiving streaming signals output by each mobile device participating in different analog radio communication channels; and

respectively transmitting the streaming signals received by each analog radio communication channel to the mobile devices participating in the analog radio communication channel; and

the cloud system receives a network signal from a radio gateway connected to a network, converts the network signal into a streaming signal, broadcasts the streaming signal to each mobile device, and outputs the received streaming signal to a plurality of radio communication devices connected to the radio gateway in the form of network signals.

4. The method of claim 3, wherein the step of separately transmitting the received stream signal of each pseudo-radio channel to the mobile devices participating in the pseudo-radio channel outputs the stream signal to the mobile devices with an open permission requirement satisfied.

5. The method of claim 4, wherein the cloud system receives an Internet of things signal detected by an Internet of things device and outputs the Internet of things signal to each mobile device participating in the specific pseudo-radio communication channel in accordance with a streaming signal.

6. The method of any of claims 3-5, wherein a specific pseudo-radio channel in the cloud system generates a function tag, and after determining that each participating mobile device satisfies an activation permission requirement, the method plays the stream signal corresponding to the function tag.

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