WO2019024049A1 - Mobile terminal capable of multiple data channel transmission and method thereof - Google Patents

Mobile terminal capable of multiple data channel transmission and method thereof Download PDF

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Publication number
WO2019024049A1
WO2019024049A1 PCT/CN2017/095837 CN2017095837W WO2019024049A1 WO 2019024049 A1 WO2019024049 A1 WO 2019024049A1 CN 2017095837 W CN2017095837 W CN 2017095837W WO 2019024049 A1 WO2019024049 A1 WO 2019024049A1
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WIPO (PCT)
Prior art keywords
data channel
lte
mclte
transmission
communication unit
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PCT/CN2017/095837
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French (fr)
Chinese (zh)
Inventor
王运峰
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深圳酷泰丰科技有限公司
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Priority to PCT/CN2017/095837 priority Critical patent/WO2019024049A1/en
Publication of WO2019024049A1 publication Critical patent/WO2019024049A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management

Definitions

  • the invention relates to the field of communication transmission, in particular to a multi-data channel transmission mobile terminal and a method thereof.
  • McLTE Multimedia Communication LTE
  • TD-LTE fourth-generation mobile communication technology
  • McLTE has the ability of professional cluster communication performance, high reliability and high real-time data transmission and multimedia scheduling. It provides professional-grade voice cluster, broadband data transmission, high-definition video surveillance and video scheduling and other rich multimedia communication in one network. means. At the same time, it has strong technical advantages in terms of network security, reliability, scalability, etc. It can be widely used in public security, transportation, power, coal, petrochemical, government, military and other industries.
  • an object of the present invention is to provide a multi-data channel transmission mobile terminal and a method thereof, which can realize three-channel communication of data streams and solve the problem that the mobile terminal cannot communicate under no signal conditions.
  • the technical solution adopted by the present invention is: a multi-data channel transmission mobile terminal, the terminal includes a Wi-Fi communication unit, an LTE main control communication unit, and a McLTE communication unit, and the LTE main control communication unit and Wi-Fi respectively The communication unit and the McLTE communication unit are connected.
  • the LTE master communication unit includes an LTE antenna, a power source, and an LTE module, and an output end of the power source is connected to an input end of the LTE module, and the LTE module is connected to an antenna;
  • the Wi-Fi communication unit includes a Wi-Fi module and a Wi-Fi antenna, and the Wi-Fi module is connected to a Wi-Fi antenna;
  • the McLTE communication unit includes a McLTE module and a McLTE antenna, and the McLTE module is connected to a McLTE antenna;
  • the LTE module is respectively connected to a Wi-Fi module and a McLTE module.
  • the LTE module includes an LTE controller, an LTE signal amplifier, an LTE radio frequency transceiver, and an LTE filter, and an output end of the LTE antenna is connected to an input end of the LTE filter, and an output end of the LTE filter is The input end of the LTE radio frequency transceiver is connected, the LTE radio frequency transceiver is connected to the LTE controller, the output end of the LTE radio frequency transceiver is connected to the input end of the LTE signal amplifier, and the output end of the LTE signal amplifier and the LTE antenna The input end is connected, and the output end of the power source is connected to the input end of the LTE controller;
  • the McLTE module includes a McLTE controller, a McLTE signal amplifier, a McLTE radio frequency transceiver, and a McLTE filter, and an output of the McLTE antenna is connected to an input end of a McLTE filter, and an output of the McLTE filter is transmitted and received with a McLTE radio frequency.
  • the input end of the device is connected, the McLTE radio frequency transceiver is connected to the McLTE controller, the output end of the McLTE radio frequency transceiver is connected to the input end of the McLTE signal amplifier, and the output end of the McLTE signal amplifier and the input end of the McLTE antenna connection.
  • the multi-data channel transmission mobile terminal further includes a voice processing unit and/or a display unit, where the voice processing unit is respectively connected to an LTE master communication unit and a McLTE communication unit, and an output end of the LTE master communication unit Connected to the input of the display unit.
  • the voice processing unit includes an analog switch and an electro-acoustic device, and the analog switch is connected to the electro-acoustic device;
  • the electroacoustic device includes an earphone, an earpiece, and/or a speaker.
  • Another technical solution adopted by the present invention is: a multi-data channel transmission method, which is applied to the multi-data channel transmission mobile terminal, and includes the following steps:
  • S1 The user sends a data transmission instruction to the LTE main control communication unit to submit a data transmission application;
  • the LTE main control communication unit determines whether the data transmission instruction is a multi-data channel transmission instruction, and if so, initiates multi-data channel transmission, otherwise enters a single data channel transmission;
  • the data channel includes a Wi-Fi data channel, an LTE data channel, and a McLTE data channel.
  • step S3 includes the following steps:
  • the LTE master communication unit of the first multi-data channel transmission mobile terminal transmits the hop transmission request information to its McLTE communication unit and spreads the hop transmission request information by the data channel when the data channel cannot transmit data;
  • the second multi-data channel transmission mobile terminal's McLTE communication unit receives the hop transmission request information, and the second multi-data channel transmission mobile terminal responds to the hop transmission request, and if the second multi-data channel transmission mobile terminal communicates with the base station server data channel, the hopping The transmission request response is successful, and the first multi-data channel transmission mobile terminal transmits the mobile terminal to the base station server for data transmission through the second multiple data channel, otherwise the hop transmission request response fails, and the McLTE communication unit that transmits the mobile terminal by the second multi-data channel continues. Sending a hop transfer request message;
  • the transmission of the hop transmission request information is ended until the hop transmission request is successfully responded, and the data hopping transmission is started.
  • the single data channel transmission includes the following steps:
  • the LTE main control communication unit determines whether the data channel is connected according to a preset data channel transmission sequence, and if connected, performs data transmission with the base station server through the connected data channel.
  • the multi-data channel transmission includes the following steps:
  • the LTE master communication unit simultaneously performs data transmission with the base station server through the Wi-Fi data channel, the LTE data channel, and the McLTE data channel.
  • the hop transmission request information includes multi-data channel transmission terminal information of the mobile terminal, and the terminal information includes a PID code and/or an IMEI code.
  • the invention has the beneficial effects that the multi-data channel transmission mobile terminal in the invention comprises three communication units: a Wi-Fi communication unit, an LTE main control communication unit and a McLTE communication unit, and can perform data with the base station server through three data channels.
  • Transmission enhances the stability of mobile terminal communication, increases the speed of data transmission, increases the Wi-Fi communication unit, and reduces the communication cost of the mobile terminal.
  • the multi-data channel transmission method of the present invention provides a method for simultaneous transmission of three data channels, single data channel transmission, and hop transmission, which can realize global dead angle information transmission, and has low communication cost, and The method of skip transmission solves the problem that the mobile terminal cannot communicate under no signal conditions.
  • FIG. 1 is a structural block diagram of a multi-data channel transmission mobile terminal in the present invention
  • FIG. 2 is a block diagram showing a specific structure of a multi-data channel transmission mobile terminal according to the present invention
  • FIG. 3 is a schematic diagram of call signal reception of a multi-data channel transmission mobile terminal according to the present invention.
  • FIG. 4 is a schematic diagram of a call signal transmission of a multi-data channel transmission mobile terminal according to the present invention.
  • Figure 5 is a flow chart showing the steps of a multi-data channel transmission method in the present invention.
  • FIG. 6 is a flow chart showing the steps of a specific embodiment of a multi-data channel transmission and a single data channel transmission in a multi-data channel transmission method according to the present invention
  • Figure 7 is a flow chart showing the steps of a specific embodiment of hop transmission in a multi-data channel transmission method in the present invention.
  • FIG. 1 is a structural block diagram of a multi-data channel transmission mobile terminal according to the present invention, where the terminal includes a Wi-Fi communication unit, an LTE main control communication unit, and a McLTE communication unit.
  • the LTE master communication unit is respectively connected to the Wi-Fi communication unit and the McLTE communication unit.
  • the multi-data channel transmission mobile terminal of the present invention adopts an LTE main control communication unit as a main control unit, externally connects to a McLTE communication unit and extends out of a Wi-Fi communication unit, and the McLTE communication unit and the Wi-Fi communication unit are subject to LTE.
  • the main control communication unit controls, the LTE main control communication unit, the McLTE communication unit, and the Wi-Fi communication unit can all be used as independent information transmission individual units, and each has an independent information data stream transmission channel, and the mobile terminal can implement three communication modes.
  • the mobile terminal can work, the communication stability is good and the efficiency is high; the mobile terminal can connect with the base station server through multiple data channels for data transmission, so the data transmission speed is fast; and the Wi-Fi communication unit is added. Since Wi-Fi does not need to pay a fee to an operator, the communication cost of the mobile terminal can be greatly reduced.
  • FIG. 2 is a block diagram showing a specific structure of a multi-data channel transmission mobile terminal according to the present invention, where the LTE main control communication unit includes an LTE antenna, a power supply, and an LTE module, and the power supply The output end is connected to an input end of the LTE module, and the LTE module is connected to the antenna;
  • the Wi-Fi communication unit includes a Wi-Fi module and a Wi-Fi antenna, and the Wi-Fi module is connected to a Wi-Fi antenna;
  • the McLTE communication unit includes a McLTE module and a McLTE antenna, and the McLTE module is connected to a McLTE antenna;
  • the LTE module is respectively connected to a Wi-Fi module and a McLTE module.
  • the LTE master communication unit transmits the power controller of the mobile terminal as the entire multi-data channel, and is responsible for providing power for transmitting the other parts of the mobile terminal by the multi-data channel such as the Wi-Fi communication unit and the McLTE communication unit; Wi- The Fi communication unit, the LTE master communication unit, and the McLTE communication unit each have an antenna structure, and all three can serve as senders and receivers of data.
  • FIG. 2 is a block diagram of a specific structure of a multi-data channel transmission mobile terminal according to the present invention, where the LTE module includes an LTE controller, an LTE signal amplifier, an LTE radio transceiver, and LTE filtering.
  • the LTE module includes an LTE controller, an LTE signal amplifier, an LTE radio transceiver, and LTE filtering.
  • the output end of the LTE antenna is connected to the input end of the LTE filter, the output end of the LTE filter is connected to the input end of the LTE radio frequency transceiver, and the LTE radio frequency transceiver is connected to the LTE controller, An output end of the LTE radio frequency transceiver is connected to an input end of the LTE signal amplifier, an output end of the LTE signal amplifier is connected to an input end of the LTE antenna, and an output end of the power supply is connected to an input end of the LTE controller;
  • the McLTE module includes a McLTE controller, a McLTE signal amplifier, a McLTE radio frequency transceiver, and a McLTE filter, and an output of the McLTE antenna is connected to an input end of a McLTE filter, and an output of the McLTE filter is transmitted and received with a McLTE radio frequency.
  • the input end of the device is connected, the McLTE radio frequency transceiver is connected to the McLTE controller, the output end of the McLTE radio frequency transceiver is connected to the input end of the McLTE signal amplifier, and the output end of the McLTE signal amplifier and the input end of the McLTE antenna connection.
  • the LTE controller serves as a multi-data channel transmission control center and an information processing center of the mobile terminal, and is also an interaction layer data processing center of the multi-data channel transmission mobile terminal.
  • the Wi-Fi communication unit and the LTE main unit are used.
  • the data received by the control communication unit or the McLTE communication unit is sent to the LTE controller for processing, and the LTE controller processes the signal to be transmitted, and then transmits the signal to the Wi-Fi communication unit, the LTE master communication unit or the McLTE communication unit.
  • the LTE signal amplifier and the McLTE signal amplifier are often implemented using a power amplifier.
  • the McLTE communication unit can serve as an independent operation unit during a call, and the McLTE controller functions as a call signal processing center of the McLTE communication unit.
  • FIG. 2 is a block diagram showing a specific structure of a multi-data channel transmission mobile terminal according to the present invention, where the multi-data channel transmission mobile terminal further includes a voice processing unit and/or a display unit.
  • the voice processing unit is respectively connected to the LTE master communication unit and the McLTE communication unit, and the output end of the LTE master communication unit is connected to the input end of the display unit.
  • the voice processing unit is configured to process the signals received by the LTE master communication unit and the McLTE communication unit during the call and present to the user in the form of sound or to convert the voice signal into an electrical signal for transmission.
  • the display unit includes a display module for displaying various information of the multi-data channel transmission mobile terminal.
  • the voice processing unit includes an analog switch and an electro-acoustic device, and the analog switch is connected to the electro-acoustic device;
  • the electroacoustic device includes an earphone, an earpiece, and/or a speaker.
  • FIG. 3 is a schematic diagram of call signal reception of a multi-data channel transmission mobile terminal according to the present invention.
  • the electromagnetic wave analog data signal ie, the McLTE data source information and the LTE data source information
  • the McLTE antenna or the LTE antenna After being forwarded to the McLTE filter or the LTE filter for filtering processing, and then processed by the McLTE radio frequency transceiver or the LTE radio frequency transceiver, it is processed by the McLTE controller or the LTE controller, and then transmitted to the analog switch after the processing is completed, and the analog switch is guided.
  • the signal is transmitted to the electroacoustic device, which is responsible for parsing the signal into an electroacoustic signal and presenting it to the user.
  • FIG. 4 is a schematic diagram of a call signal transmission of a multi-data channel transmission mobile terminal according to the present invention.
  • the electro-acoustic device collects a voice signal and converts it into an electrical signal, and the electrical signal is transmitted to the McLTE through an analog switch.
  • the controller or the LTE controller, the McLTE controller or the LTE controller transmits the electrical signal to be sent to the McLTE radio transceiver or the LTE radio transceiver, and the processed electrical signal to be transmitted is amplified by the McLTE signal amplifier or the LTE signal amplifier. Transfer to the McLTE antenna or LTE antenna for transmission.
  • FIG. 5 is a flow chart of steps of a multi-data channel transmission method according to the present invention, including the following steps:
  • S1 The user sends a data transmission instruction to the LTE main control communication unit to submit a data transmission application;
  • the LTE main control communication unit determines whether the data transmission instruction is a multi-data channel transmission instruction, and if so, initiates multi-data channel transmission, otherwise enters a single data channel transmission;
  • the data channel includes a Wi-Fi data channel, an LTE data channel, and a McLTE data channel.
  • the present invention can realize data switching or simultaneous transmission between three data channels of the LTE data channel, the McLTE data channel and the Wi-Fi data channel of the mobile terminal in the multi-data channel transmission, thereby ensuring the connection and improvement of the data transmission channel.
  • the data transmission speed and the communication stability of the mobile terminal are strong.
  • no operator or mobile terminal can guarantee the transmission of no dead angle information in the world, and the present invention implements hop transmission based on the McLTE communication unit.
  • a multi-data channel transmission mobile terminal cannot transmit data with the base station server
  • the mobile terminal is transmitted as another intermediate springboard through another multi-data channel, and the data information is hopped and transmitted, and the wireless jump transmission of the information is realized, until the original multi-data channel transmission mobile terminal and the base station server can perform data transmission, and the global scope can be realized. No dead angle data transmission inside.
  • the user submits a data transmission instruction on the interactive program to apply for data transmission with the base station server.
  • the data transmission instruction is a single data channel transmission instruction, and when an emergency occurs, the emergency command of the interaction layer can be forcibly switched to multi-data channel transmission. Instruction, when multiple data channels are transmitted, when one of the data channels is unavailable, data transmission is performed by the remaining two data channels, and the data transmission includes uploading data and downloading data.
  • the multi-data channel transmission comprises the following steps:
  • the LTE master communication unit simultaneously performs data transmission with the base station server through the Wi-Fi data channel, the LTE data channel, and the McLTE data channel.
  • the LTE controller retrieves and determines that the data transmission instruction is a multi-data channel transmission instruction, refer to FIG. 6, which is a multi-data channel in the present invention.
  • FIG. 6 is a multi-data channel in the present invention.
  • the LTE controller controls three data channels for multi-data channel transmission, and then determines whether the data is successfully transmitted, and if successful, ends the data transmission, Otherwise, the CDMA transmission unit is used to enter the hop transmission.
  • the LTE controller splits the data to be uploaded according to the number of data channels and allocates it to each data channel, and each data channel simultaneously uploads corresponding partial data information to the base station server through the corresponding radio frequency transceiver.
  • the LTE controller determines whether the data is successfully transmitted by determining whether there is return data receiving feedback information, and if the data receiving feedback information is received, the data uploading is successful, wherein if all the data channels are received After receiving the data receiving feedback information, the data transmission ends; otherwise, the re-split data is returned to the data channel having the received data receiving feedback information for data transmission; if all the data channels do not receive the data receiving feedback information, the data is uploaded.
  • a temporary file is created in the mobile terminal of the multi-data channel transmission, and the LTE controller determines whether the three data channels are connected, and the LTE controller sends the heartbeat packet to the base station server through the corresponding data channel and receives the feedback information returned by the base station server to determine the data. Whether the channel is connected. If there is feedback information, it means that the data channel is connected. Otherwise, the data channel is not connected. If it is connected, the data is successfully downloaded. If all three data channels are connected, the data is allocated according to the size of the temporary file.
  • the data channel should download part of the data, and the three data channels send the data channel information to the base station server through the corresponding radio frequency transceiver, and the base station server sends the data to the multi-data channel to transmit the mobile terminal according to the data channel information; otherwise, each connection is redistributed.
  • the data channel should download the data and transmit data to the base station server through the connected data channel; if the three data channels are not connected, it means that the data download fails and the data jump transmission is entered.
  • the single data channel transmission comprises the following steps:
  • the LTE main control communication unit determines whether the data channel is connected according to a preset data channel transmission sequence, and if connected, performs data transmission with the base station server through the connected data channel.
  • FIG. 6 is a flow chart of steps of a specific embodiment of multi-data channel transmission and single data channel transmission in a multi-data channel transmission method according to the present invention, and the present invention uses a Wi-Fi data channel as a By default, the first data channel transmits data, and the LTE data channel and the McLTE data channel can be selected by the user to select the default second data channel and the third data channel.
  • the user selects the McLTE data channel as the second data channel, and the LTE data.
  • the channel is the third data channel
  • the LTE main controller sequentially sends the heartbeat packet detection data channel to the base station server through the corresponding data channel, and if it is connected, the data transmission is performed with the base station server through the connected data channel, otherwise, the data skip transmission is entered.
  • the data is uploaded to the base station server through the connected data channel and receives the data receiving feedback information returned by the base station server; when the data is downloaded, the data channel information is sent to the base station server through the connected data channel, and the base station server is configured according to The data channel information is sent to the multi-data channel transmission mobile terminal.
  • step S3 includes the following steps:
  • the LTE master communication unit of the first multi-data channel transmission mobile terminal transmits the hop transmission request information to its McLTE communication unit and spreads the hop transmission request information by the data channel when the data channel cannot transmit data;
  • the second multi-data channel transmission mobile terminal's McLTE communication unit receives the hop transmission request information, and the second multi-data channel transmission mobile terminal responds to the hop transmission request, and if the second multi-data channel transmission mobile terminal communicates with the base station server data channel, the hopping The transmission request response is successful, and the first multi-data channel transmission mobile terminal transmits the mobile terminal to the base station server for data transmission through the second multiple data channel, otherwise the hop transmission request response fails, and the McLTE communication unit that transmits the mobile terminal by the second multi-data channel continues. Sending a hop transfer request message;
  • the transmission of the hop transmission request information is ended until the hop transmission request is successfully responded, and the data hopping transmission is started.
  • FIG. 7 is a flow chart of a specific embodiment of a hopping transmission in a multi-data channel transmission method according to the present invention.
  • the LTE controller of the first multi-data channel transmission mobile terminal determines whether the data channel is connected to the base station server, and if the data channel can be connected to the base station server, data transmission is performed with the base station server through the available data channel, otherwise LTE control Transmitting the hop transmission request information to the McLTE communication unit, the McLTE communication unit encapsulates and spreads the hop transmission request information by the McLTE radio frequency transceiver, and the hop transmission request information is transmitted by the second multi-data channel to the McLTE communication unit of the mobile terminal
  • the RF transceiver receives and transmits to the LTE controller of the second multi-data channel transmission mobile terminal, and the LTE controller of the second multi-data channel transmission mobile terminal determines whether the data channel is connected to the base station
  • the first multi-data channel transmission mobile terminal when the second multi-data channel transmission mobile terminal performs the hopping transmission request information diffusion, the first multi-data channel transmission mobile terminal also receives the hop transmission request sent by the second multi-data channel transmission mobile terminal, and the first multi-data channel After the transmission mobile terminal processes the hop transmission request information and recognizes the hop transmission request information transmitted before itself, the hop transmission request is not processed.
  • the hopping transmission is performed during the call, and the multi-data channel transmission mobile terminal can use the LTE controller to determine whether the LTE master communication unit and the McLTE communication unit are synchronized with the base station server instead of the LTE controller to determine whether the data channel is connected to the base station server.
  • the multi-data channel transmission mobile terminal performs data transmission with the base station server through a communication unit that can synchronize with the base station server; when the LTE master communication unit and the McLTE communication unit When both are synchronized with the base station server, the communication unit and the base station server are used for data transmission according to the data channel transmission sequence preset by the user; if neither the LTE master communication unit nor the McLTE communication unit can synchronize with the base station server, the hop transmission request information is transmitted.
  • the LTE controller of the first multi-data channel transmission mobile terminal determines that the data channel is connected to the base station server, the hopping transmission is stopped, and the first multi-data channel is automatically used to transmit the available data channel and the base station of the mobile terminal.
  • the server performs data transfer.
  • the hop transmission request information includes multi-data channel transmission terminal information of the mobile terminal, and the terminal information includes a PID code and/or an IMEI code.
  • the multi-data channel is added to the terminal information of the mobile terminal in the hop transmission request information to prevent the serial number of the radio frequency signal in the hop transmission, which affects the normal transmission of the data.
  • the terminal information may also be other information that uniquely identifies the mobile terminal, such as the MAC address of the mobile terminal.
  • the PID data and the IMEI code of the first multi-data channel transmission mobile terminal are added to the hop transmission request information.
  • the invention realizes the integration of multiple communication units of the mobile terminal, and realizes the transmission of data in three data stream channels of McLTE, LTE and Wi-Fi. At the same time, the data transmission is skipped by the McLTE communication unit.
  • the mobile terminal can be transmitted to another multi-data channel by transmitting the hop transmission request information, through another The multi-data channel transmission mobile terminal realizes information jump transmission.

Abstract

The invention discloses a mobile terminal capable of multiple data channel transmission, comprising a Wi-Fi communication unit, an LTE main control communication unit, and an McLTE communication unit. A multiple data channel transmission method is further disclosed, comprising the following steps of: S1, a user sends a data transmission instruction and submits a data transmission request to an LTE main control communication unit; S2, the LTE main control communication unit determines whether the data transmission instruction is a multiple data channel transmission instruction; if so, activate multiple data channel transmission, and if not, perform single data channel transmission; S3, perform hopping transmission using an McLTE communication unit when a data channel cannot transmit data. The mobile terminal capable of multiple data channel transmission and method thereof of the invention can perform data transmission with a base station server via three data channels, so as to increase data transmission speeds, and allows simultaneous transmission over three data channels, single data channel transmission, and hopping transmission. The invention can be widely applied in the field of communication transmission.

Description

一种多数据通道传输移动终端及其方法  Multi-data channel transmission mobile terminal and method thereof
技术领域Technical field
本发明涉及通信传输领域,尤其是一种多数据通道传输移动终端及其方法。The invention relates to the field of communication transmission, in particular to a multi-data channel transmission mobile terminal and a method thereof.
背景技术Background technique
McLTE(Multimedia Communication LTE)是以第四代移动通信技术TD-LTE为核心,将TD-LTE的高速率、大带宽与数字集群技术中的资源共享、快速呼叫建立、指挥调度等特点进行融合,集语音、数据、视频为一体的新一代宽带多媒体数字集群系统。McLTE具有专业集群通信性能、高可靠性和高实时性数据传输以及多媒体调度的能力,在一张网络内同时提供专业级的语音集群,宽带数据传输、高清视频监控及视频调度等丰富的多媒体通信手段。同时在网络的安全性、可靠性、可扩展性等方面具有强大的技术优势,可广泛应用于公共安全、交通运输、电力、煤矿、石化、政务、军队等行业领域。McLTE (Multimedia Communication LTE) is based on the fourth-generation mobile communication technology TD-LTE, which combines the high-speed, large bandwidth of TD-LTE with resource sharing, fast call setup, command and scheduling in digital trunking technology, and integrates voice and data. A new generation of broadband multimedia digital trunking system with video as one. McLTE has the ability of professional cluster communication performance, high reliability and high real-time data transmission and multimedia scheduling. It provides professional-grade voice cluster, broadband data transmission, high-definition video surveillance and video scheduling and other rich multimedia communication in one network. means. At the same time, it has strong technical advantages in terms of network security, reliability, scalability, etc. It can be widely used in public security, transportation, power, coal, petrochemical, government, military and other industries.
随着科技的高速发展,人们对移动终端的智能化要求越来越高,现有移动终端多采用单一数据传输通道,一部移动终端只能通过一种数据流通道连接基站,信息传输速度慢,通信模块不能与基站同步的时候无法进行通讯,在单一信号源强度不佳的地方甚至会出现信息传输中断的情况;为了解决这个问题,人们采用LTE+3G模块或者双LTE模块的移动终端,但通信费用高,而且在两个通信模块均无法与基站连接的情况下,移动终端依旧没有通信能力。With the rapid development of technology, people are increasingly demanding the intelligentization of mobile terminals. Existing mobile terminals use a single data transmission channel. A mobile terminal can only connect to a base station through a data stream channel, and the information transmission speed is slow. When the communication module cannot synchronize with the base station, communication cannot be performed. In the case where the strength of a single signal source is not good, information transmission interruption may occur. To solve this problem, people adopt LTE+3G module or dual LTE module mobile terminal. However, the communication cost is high, and in the case where both communication modules cannot be connected to the base station, the mobile terminal still has no communication capability.
发明内容Summary of the invention
为了解决上述技术问题,本发明的目的是提供一种多数据通道传输移动终端及其方法,其能实现数据流的三通道通讯,并解决移动终端在无信号条件下不能通讯的问题。In order to solve the above technical problem, an object of the present invention is to provide a multi-data channel transmission mobile terminal and a method thereof, which can realize three-channel communication of data streams and solve the problem that the mobile terminal cannot communicate under no signal conditions.
本发明所采用的技术方案是:一种多数据通道传输移动终端,所述终端包括Wi-Fi通信单元、LTE主控通信单元和McLTE通信单元,所述LTE主控通信单元分别与Wi-Fi通信单元、McLTE通信单元连接。The technical solution adopted by the present invention is: a multi-data channel transmission mobile terminal, the terminal includes a Wi-Fi communication unit, an LTE main control communication unit, and a McLTE communication unit, and the LTE main control communication unit and Wi-Fi respectively The communication unit and the McLTE communication unit are connected.
进一步地,所述LTE主控通信单元包括LTE天线、电源和LTE模块,所述电源的输出端与LTE模块的输入端连接,所述LTE模块与天线连接;Further, the LTE master communication unit includes an LTE antenna, a power source, and an LTE module, and an output end of the power source is connected to an input end of the LTE module, and the LTE module is connected to an antenna;
所述Wi-Fi通信单元包括Wi-Fi模块和Wi-Fi天线,所述Wi-Fi模块与Wi-Fi天线连接;The Wi-Fi communication unit includes a Wi-Fi module and a Wi-Fi antenna, and the Wi-Fi module is connected to a Wi-Fi antenna;
所述McLTE通信单元包括McLTE模块和McLTE天线,所述McLTE模块与McLTE天线连接;The McLTE communication unit includes a McLTE module and a McLTE antenna, and the McLTE module is connected to a McLTE antenna;
所述LTE模块分别与Wi-Fi模块、McLTE模块连接。The LTE module is respectively connected to a Wi-Fi module and a McLTE module.
进一步地,所述LTE模块包括LTE控制器、LTE信号放大器、LTE射频收发器和LTE滤波器,所述LTE天线的输出端与LTE滤波器的输入端连接,所述LTE滤波器的输出端与LTE射频收发器的输入端连接,所述LTE射频收发器与LTE控制器连接,所述LTE射频收发器的输出端与LTE信号放大器的输入端连接,所述LTE信号放大器的输出端与LTE天线的输入端连接,所述电源的输出端与LTE控制器的输入端连接;Further, the LTE module includes an LTE controller, an LTE signal amplifier, an LTE radio frequency transceiver, and an LTE filter, and an output end of the LTE antenna is connected to an input end of the LTE filter, and an output end of the LTE filter is The input end of the LTE radio frequency transceiver is connected, the LTE radio frequency transceiver is connected to the LTE controller, the output end of the LTE radio frequency transceiver is connected to the input end of the LTE signal amplifier, and the output end of the LTE signal amplifier and the LTE antenna The input end is connected, and the output end of the power source is connected to the input end of the LTE controller;
所述McLTE模块包括McLTE控制器、McLTE信号放大器、McLTE射频收发器和McLTE滤波器,所述McLTE天线的输出端与McLTE滤波器的输入端连接,所述McLTE滤波器的输出端与McLTE射频收发器的输入端连接,所述McLTE射频收发器与McLTE控制器连接,所述McLTE射频收发器的输出端与McLTE信号放大器的输入端连接,所述McLTE信号放大器的输出端与McLTE天线的输入端连接。The McLTE module includes a McLTE controller, a McLTE signal amplifier, a McLTE radio frequency transceiver, and a McLTE filter, and an output of the McLTE antenna is connected to an input end of a McLTE filter, and an output of the McLTE filter is transmitted and received with a McLTE radio frequency. The input end of the device is connected, the McLTE radio frequency transceiver is connected to the McLTE controller, the output end of the McLTE radio frequency transceiver is connected to the input end of the McLTE signal amplifier, and the output end of the McLTE signal amplifier and the input end of the McLTE antenna connection.
进一步地,所述多数据通道传输移动终端还包括语音处理单元和/或显示单元,所述语音处理单元分别与LTE主控通信单元、McLTE通信单元连接,所述LTE主控通信单元的输出端与显示单元的输入端连接。Further, the multi-data channel transmission mobile terminal further includes a voice processing unit and/or a display unit, where the voice processing unit is respectively connected to an LTE master communication unit and a McLTE communication unit, and an output end of the LTE master communication unit Connected to the input of the display unit.
进一步地,所述语音处理单元包括模拟开关和电声器件,所述模拟开关与电声器件连接;Further, the voice processing unit includes an analog switch and an electro-acoustic device, and the analog switch is connected to the electro-acoustic device;
所述电声器件包括耳机、听筒和/或喇叭。The electroacoustic device includes an earphone, an earpiece, and/or a speaker.
本发明所采用的另一技术方案是:一种多数据通道传输方法,应用于所述的多数据通道传输移动终端,包括以下步骤:Another technical solution adopted by the present invention is: a multi-data channel transmission method, which is applied to the multi-data channel transmission mobile terminal, and includes the following steps:
S1、用户向LTE主控通信单元发送数据传输指令提交数据传输申请;S1: The user sends a data transmission instruction to the LTE main control communication unit to submit a data transmission application;
S2、LTE主控通信单元判断数据传输指令是否为多数据通道传输指令,若是,则启动多数据通道传输,否则进入单一数据通道传输;S2. The LTE main control communication unit determines whether the data transmission instruction is a multi-data channel transmission instruction, and if so, initiates multi-data channel transmission, otherwise enters a single data channel transmission;
S3、数据通道无法传输数据时利用McLTE通信单元进行跳跃传输;S3. When the data channel cannot transmit data, the data transmission is performed by using the McLTE communication unit;
所述数据通道包括Wi-Fi数据通道、LTE数据通道和McLTE数据通道。The data channel includes a Wi-Fi data channel, an LTE data channel, and a McLTE data channel.
进一步地,所述步骤S3包括以下步骤:Further, the step S3 includes the following steps:
第一多数据通道传输移动终端的LTE主控通信单元在数据通道无法传输数据时发送跳跃传输请求信息至其McLTE通信单元并由其扩散跳跃传输请求信息;The LTE master communication unit of the first multi-data channel transmission mobile terminal transmits the hop transmission request information to its McLTE communication unit and spreads the hop transmission request information by the data channel when the data channel cannot transmit data;
第二多数据通道传输移动终端的McLTE通信单元接收跳跃传输请求信息,第二多数据通道传输移动终端响应跳跃传输请求,若第二多数据通道传输移动终端与基站服务器的数据通道连通,则跳跃传输请求响应成功,第一多数据通道传输移动终端通过第二多数据通道传输移动终端与基站服务器进行数据传输,否则跳跃传输请求响应失败,由第二多数据通道传输移动终端的McLTE通信单元继续发送跳跃传输请求信息;The second multi-data channel transmission mobile terminal's McLTE communication unit receives the hop transmission request information, and the second multi-data channel transmission mobile terminal responds to the hop transmission request, and if the second multi-data channel transmission mobile terminal communicates with the base station server data channel, the hopping The transmission request response is successful, and the first multi-data channel transmission mobile terminal transmits the mobile terminal to the base station server for data transmission through the second multiple data channel, otherwise the hop transmission request response fails, and the McLTE communication unit that transmits the mobile terminal by the second multi-data channel continues. Sending a hop transfer request message;
直到跳跃传输请求被成功响应则结束发送跳跃传输请求信息,开始数据跳跃传输。The transmission of the hop transmission request information is ended until the hop transmission request is successfully responded, and the data hopping transmission is started.
进一步地,所述单一数据通道传输包括以下步骤:Further, the single data channel transmission includes the following steps:
LTE主控通信单元按照预设的数据通道传输顺序判断数据通道是否连通,若连通,则通过连通的数据通道与基站服务器进行数据传输。The LTE main control communication unit determines whether the data channel is connected according to a preset data channel transmission sequence, and if connected, performs data transmission with the base station server through the connected data channel.
进一步地,所述多数据通道传输包括以下步骤:Further, the multi-data channel transmission includes the following steps:
LTE主控通信单元通过Wi-Fi数据通道、LTE数据通道、McLTE数据通道同时与基站服务器进行数据传输。The LTE master communication unit simultaneously performs data transmission with the base station server through the Wi-Fi data channel, the LTE data channel, and the McLTE data channel.
进一步地,所述跳跃传输请求信息包括多数据通道传输移动终端的终端信息,所述终端信息包括PID码和/或IMEI码。Further, the hop transmission request information includes multi-data channel transmission terminal information of the mobile terminal, and the terminal information includes a PID code and/or an IMEI code.
本发明的有益效果是:本发明中一种多数据通道传输移动终端包括Wi-Fi通信单元、LTE主控通信单元和McLTE通信单元三大通信单元,可以通过三个数据通道与基站服务器进行数据传输,增强移动终端通信的稳定性,并提高了数据传输的速度,增加Wi-Fi通信单元,降低移动终端的通信成本。The invention has the beneficial effects that the multi-data channel transmission mobile terminal in the invention comprises three communication units: a Wi-Fi communication unit, an LTE main control communication unit and a McLTE communication unit, and can perform data with the base station server through three data channels. Transmission enhances the stability of mobile terminal communication, increases the speed of data transmission, increases the Wi-Fi communication unit, and reduces the communication cost of the mobile terminal.
本发明的另一有益效果是:本发明中一种多数据通道传输方法提供了三数据通道同时传输、单一数据通道传输以及跳跃传输的方法,可以实现全球无死角信息传输,通信成本低,而且跳跃传输的方法解决了移动终端在无信号条件下不能通讯的问题。Another advantageous effect of the present invention is that the multi-data channel transmission method of the present invention provides a method for simultaneous transmission of three data channels, single data channel transmission, and hop transmission, which can realize global dead angle information transmission, and has low communication cost, and The method of skip transmission solves the problem that the mobile terminal cannot communicate under no signal conditions.
附图说明DRAWINGS
下面结合附图对本发明的具体实施方式作进一步说明:The specific embodiments of the present invention are further described below in conjunction with the accompanying drawings:
图1是本发明中一种多数据通道传输移动终端的结构框图;1 is a structural block diagram of a multi-data channel transmission mobile terminal in the present invention;
图2是本发明中一种多数据通道传输移动终端的具体结构框图;2 is a block diagram showing a specific structure of a multi-data channel transmission mobile terminal according to the present invention;
图3是本发明中一种多数据通道传输移动终端的通话信号接收示意图;3 is a schematic diagram of call signal reception of a multi-data channel transmission mobile terminal according to the present invention;
图4是本发明中一种多数据通道传输移动终端的通话信号发射示意图;4 is a schematic diagram of a call signal transmission of a multi-data channel transmission mobile terminal according to the present invention;
图5是本发明中一种多数据通道传输方法的步骤流程图;Figure 5 is a flow chart showing the steps of a multi-data channel transmission method in the present invention;
图6是本发明中一种多数据通道传输方法中多数据通道传输和单一数据通道传输的一具体实施例步骤流程图;6 is a flow chart showing the steps of a specific embodiment of a multi-data channel transmission and a single data channel transmission in a multi-data channel transmission method according to the present invention;
图7是本发明中一种多数据通道传输方法中跳跃传输的一具体实施例步骤流程图。Figure 7 is a flow chart showing the steps of a specific embodiment of hop transmission in a multi-data channel transmission method in the present invention.
具体实施方式Detailed ways
需要说明的是,在不冲突的情况下,本申请中的实施例及实施例中的特征可以相互组合。It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict.
一种多数据通道传输移动终端,参考图1,图1是本发明中一种多数据通道传输移动终端的结构框图,所述终端包括Wi-Fi通信单元、LTE主控通信单元和McLTE通信单元,所述LTE主控通信单元分别与Wi-Fi通信单元、McLTE通信单元连接。A multi-data channel transmission mobile terminal, referring to FIG. 1, FIG. 1 is a structural block diagram of a multi-data channel transmission mobile terminal according to the present invention, where the terminal includes a Wi-Fi communication unit, an LTE main control communication unit, and a McLTE communication unit. The LTE master communication unit is respectively connected to the Wi-Fi communication unit and the McLTE communication unit.
在本实施例中,本发明的多数据通道传输移动终端以LTE主控通信单元为主控单元,外接McLTE通信单元并延伸出Wi-Fi通信单元,McLTE通信单元和Wi-Fi通信单元受LTE主控通信单元控制,LTE主控通信单元、McLTE通信单元、Wi-Fi通信单元都可以作为独立的信息传输个体单元,都具有独立的信息数据流传输通道,移动终端可以实现三种通讯模式,任意一个通信单元可以工作则移动终端就可以工作,通信稳定性好且效率高;移动终端可以通过多种数据通道与基站服务器连接进行数据传输,故数据传输速度快;增加Wi-Fi通信单元,由于目前Wi-Fi无需向运营商支付费用,因此,可以大大降低移动终端的通信成本。In this embodiment, the multi-data channel transmission mobile terminal of the present invention adopts an LTE main control communication unit as a main control unit, externally connects to a McLTE communication unit and extends out of a Wi-Fi communication unit, and the McLTE communication unit and the Wi-Fi communication unit are subject to LTE. The main control communication unit controls, the LTE main control communication unit, the McLTE communication unit, and the Wi-Fi communication unit can all be used as independent information transmission individual units, and each has an independent information data stream transmission channel, and the mobile terminal can implement three communication modes. If any communication unit can work, the mobile terminal can work, the communication stability is good and the efficiency is high; the mobile terminal can connect with the base station server through multiple data channels for data transmission, so the data transmission speed is fast; and the Wi-Fi communication unit is added. Since Wi-Fi does not need to pay a fee to an operator, the communication cost of the mobile terminal can be greatly reduced.
作为技术方案的进一步改进,参考图2,图2是本发明中一种多数据通道传输移动终端的具体结构框图,所述LTE主控通信单元包括LTE天线、电源和LTE模块,所述电源的输出端与LTE模块的输入端连接,所述LTE模块与天线连接;As a further improvement of the technical solution, referring to FIG. 2, FIG. 2 is a block diagram showing a specific structure of a multi-data channel transmission mobile terminal according to the present invention, where the LTE main control communication unit includes an LTE antenna, a power supply, and an LTE module, and the power supply The output end is connected to an input end of the LTE module, and the LTE module is connected to the antenna;
所述Wi-Fi通信单元包括Wi-Fi模块和Wi-Fi天线,所述Wi-Fi模块与Wi-Fi天线连接;The Wi-Fi communication unit includes a Wi-Fi module and a Wi-Fi antenna, and the Wi-Fi module is connected to a Wi-Fi antenna;
所述McLTE通信单元包括McLTE模块和McLTE天线,所述McLTE模块与McLTE天线连接;The McLTE communication unit includes a McLTE module and a McLTE antenna, and the McLTE module is connected to a McLTE antenna;
所述LTE模块分别与Wi-Fi模块、McLTE模块连接。The LTE module is respectively connected to a Wi-Fi module and a McLTE module.
在本实施例中,LTE主控通信单元作为整个多数据通道传输移动终端的供电控制者,负责为Wi-Fi通信单元、McLTE通信单元等多数据通道传输移动终端的其他部分提供电能;Wi-Fi通信单元、LTE主控通信单元和McLTE通信单元各自具有天线结构,则三者均可作为数据的发送者和接收者。In this embodiment, the LTE master communication unit transmits the power controller of the mobile terminal as the entire multi-data channel, and is responsible for providing power for transmitting the other parts of the mobile terminal by the multi-data channel such as the Wi-Fi communication unit and the McLTE communication unit; Wi- The Fi communication unit, the LTE master communication unit, and the McLTE communication unit each have an antenna structure, and all three can serve as senders and receivers of data.
作为技术方案的进一步改进,参考图2,图2是本发明中一种多数据通道传输移动终端的具体结构框图,所述LTE模块包括LTE控制器、LTE信号放大器、LTE射频收发器和LTE滤波器,所述LTE天线的输出端与LTE滤波器的输入端连接,所述LTE滤波器的输出端与LTE射频收发器的输入端连接,所述LTE射频收发器与LTE控制器连接,所述LTE射频收发器的输出端与LTE信号放大器的输入端连接,所述LTE信号放大器的输出端与LTE天线的输入端连接,所述电源的输出端与LTE控制器的输入端连接;As a further improvement of the technical solution, referring to FIG. 2, FIG. 2 is a block diagram of a specific structure of a multi-data channel transmission mobile terminal according to the present invention, where the LTE module includes an LTE controller, an LTE signal amplifier, an LTE radio transceiver, and LTE filtering. The output end of the LTE antenna is connected to the input end of the LTE filter, the output end of the LTE filter is connected to the input end of the LTE radio frequency transceiver, and the LTE radio frequency transceiver is connected to the LTE controller, An output end of the LTE radio frequency transceiver is connected to an input end of the LTE signal amplifier, an output end of the LTE signal amplifier is connected to an input end of the LTE antenna, and an output end of the power supply is connected to an input end of the LTE controller;
所述McLTE模块包括McLTE控制器、McLTE信号放大器、McLTE射频收发器和McLTE滤波器,所述McLTE天线的输出端与McLTE滤波器的输入端连接,所述McLTE滤波器的输出端与McLTE射频收发器的输入端连接,所述McLTE射频收发器与McLTE控制器连接,所述McLTE射频收发器的输出端与McLTE信号放大器的输入端连接,所述McLTE信号放大器的输出端与McLTE天线的输入端连接。The McLTE module includes a McLTE controller, a McLTE signal amplifier, a McLTE radio frequency transceiver, and a McLTE filter, and an output of the McLTE antenna is connected to an input end of a McLTE filter, and an output of the McLTE filter is transmitted and received with a McLTE radio frequency. The input end of the device is connected, the McLTE radio frequency transceiver is connected to the McLTE controller, the output end of the McLTE radio frequency transceiver is connected to the input end of the McLTE signal amplifier, and the output end of the McLTE signal amplifier and the input end of the McLTE antenna connection.
在本实施例中,LTE控制器作为多数据通道传输移动终端的控制中心和信息处理中心,也是多数据通道传输移动终端的交互层数据处理中心,数据传输时,Wi-Fi通信单元、LTE主控通信单元或McLTE通信单元接收到数据均给到LTE控制器进行处理,LTE控制器处理待发射的信号后,交由Wi-Fi通信单元、LTE主控通信单元或McLTE通信单元进行信号发射。所述LTE信号放大器和McLTE信号放大器常常采用功率放大器来实现。所述McLTE通信单元在通话过程中可作为独立运行单元,所述McLTE控制器作为McLTE通信单元的通话信号处理中心。In this embodiment, the LTE controller serves as a multi-data channel transmission control center and an information processing center of the mobile terminal, and is also an interaction layer data processing center of the multi-data channel transmission mobile terminal. When data is transmitted, the Wi-Fi communication unit and the LTE main unit are used. The data received by the control communication unit or the McLTE communication unit is sent to the LTE controller for processing, and the LTE controller processes the signal to be transmitted, and then transmits the signal to the Wi-Fi communication unit, the LTE master communication unit or the McLTE communication unit. The LTE signal amplifier and the McLTE signal amplifier are often implemented using a power amplifier. The McLTE communication unit can serve as an independent operation unit during a call, and the McLTE controller functions as a call signal processing center of the McLTE communication unit.
作为技术方案的进一步改进,参考图2,图2是本发明中一种多数据通道传输移动终端的具体结构框图,所述多数据通道传输移动终端还包括语音处理单元和/或显示单元,所述语音处理单元分别与LTE主控通信单元、McLTE通信单元连接,所述LTE主控通信单元的输出端与显示单元的输入端连接。As a further improvement of the technical solution, referring to FIG. 2, FIG. 2 is a block diagram showing a specific structure of a multi-data channel transmission mobile terminal according to the present invention, where the multi-data channel transmission mobile terminal further includes a voice processing unit and/or a display unit. The voice processing unit is respectively connected to the LTE master communication unit and the McLTE communication unit, and the output end of the LTE master communication unit is connected to the input end of the display unit.
在本实施例中,语音处理单元用于处理通话过程中LTE主控通信单元和McLTE通信单元接收到的信号并以用声音的形式表现给用户或将语音信号变成电信号以供传输。显示单元包括显示模组,用于显示多数据通道传输移动终端的各种信息。In this embodiment, the voice processing unit is configured to process the signals received by the LTE master communication unit and the McLTE communication unit during the call and present to the user in the form of sound or to convert the voice signal into an electrical signal for transmission. The display unit includes a display module for displaying various information of the multi-data channel transmission mobile terminal.
作为技术方案的进一步改进,所述语音处理单元包括模拟开关和电声器件,所述模拟开关与电声器件连接;As a further improvement of the technical solution, the voice processing unit includes an analog switch and an electro-acoustic device, and the analog switch is connected to the electro-acoustic device;
所述电声器件包括耳机、听筒和/或喇叭。The electroacoustic device includes an earphone, an earpiece, and/or a speaker.
在本实施例中,通话过程中,可以通过LTE主控通信单元或者McLTE通信单元来实现。参考图3,图3是本发明中一种多数据通道传输移动终端的通话信号接收示意图,正常通话的电磁波模拟数据信号(即McLTE数据源信息和LTE数据源信息)由McLTE天线或者LTE天线接收后转发给McLTE滤波器或者LTE滤波器进行滤波处理,再经McLTE射频收发器或者LTE射频收发器处理后,交由McLTE控制器或者LTE控制器处理,处理完成之后传送给模拟开关,模拟开关导通并将信号传送到电声器件,电声器件负责将信号解析为电声信号并表现给用户。In this embodiment, during the call, the LTE master communication unit or the McLTE communication unit may be implemented. Referring to FIG. 3, FIG. 3 is a schematic diagram of call signal reception of a multi-data channel transmission mobile terminal according to the present invention. The electromagnetic wave analog data signal (ie, the McLTE data source information and the LTE data source information) of the normal call is received by the McLTE antenna or the LTE antenna. After being forwarded to the McLTE filter or the LTE filter for filtering processing, and then processed by the McLTE radio frequency transceiver or the LTE radio frequency transceiver, it is processed by the McLTE controller or the LTE controller, and then transmitted to the analog switch after the processing is completed, and the analog switch is guided. The signal is transmitted to the electroacoustic device, which is responsible for parsing the signal into an electroacoustic signal and presenting it to the user.
参考图4,图4是本发明中一种多数据通道传输移动终端的通话信号发射示意图,电声器件收集语音信号,并将其转化成电信号,所述电信号通过模拟开关被传递至McLTE控制器或者LTE控制器,McLTE控制器或者LTE控制器将待发送的电信号传递给McLTE射频收发器或者LTE射频收发器处理,处理后的待发送电信号被McLTE信号放大器或者LTE信号放大器放大后交给McLTE天线或者LTE天线进行发射。Referring to FIG. 4, FIG. 4 is a schematic diagram of a call signal transmission of a multi-data channel transmission mobile terminal according to the present invention. The electro-acoustic device collects a voice signal and converts it into an electrical signal, and the electrical signal is transmitted to the McLTE through an analog switch. The controller or the LTE controller, the McLTE controller or the LTE controller transmits the electrical signal to be sent to the McLTE radio transceiver or the LTE radio transceiver, and the processed electrical signal to be transmitted is amplified by the McLTE signal amplifier or the LTE signal amplifier. Transfer to the McLTE antenna or LTE antenna for transmission.
一种多数据通道传输方法,应用于所述的多数据通道传输移动终端,参考图5,图5是本发明中一种多数据通道传输方法的步骤流程图,包括以下步骤:A multi-data channel transmission method is applied to the multi-data channel transmission mobile terminal. Referring to FIG. 5, FIG. 5 is a flow chart of steps of a multi-data channel transmission method according to the present invention, including the following steps:
S1、用户向LTE主控通信单元发送数据传输指令提交数据传输申请;S1: The user sends a data transmission instruction to the LTE main control communication unit to submit a data transmission application;
S2、LTE主控通信单元判断数据传输指令是否为多数据通道传输指令,若是,则启动多数据通道传输,否则进入单一数据通道传输;S2. The LTE main control communication unit determines whether the data transmission instruction is a multi-data channel transmission instruction, and if so, initiates multi-data channel transmission, otherwise enters a single data channel transmission;
S3、数据通道无法传输数据时利用McLTE通信单元进行跳跃传输;S3. When the data channel cannot transmit data, the data transmission is performed by using the McLTE communication unit;
所述数据通道包括Wi-Fi数据通道、LTE数据通道和McLTE数据通道。The data channel includes a Wi-Fi data channel, an LTE data channel, and a McLTE data channel.
在数据传输时,本发明能实现数据在多数据通道传输移动终端的LTE数据通道、McLTE数据通道和Wi-Fi数据通道三种数据通道之间任意切换或同时传输,保证数据传输通道连通和提高数据传输速度,移动终端的通信稳定性强。现阶段没有一个运营商或者哪款移动终端可以保证全球无死角信息传输,而本发明基于McLTE通信单元实现跳跃传输,当一台多数据通道传输移动终端无法与基站服务器进行数据传输的时候,可以通过另外一台多数据通道传输移动终端作为中间跳板,进行数据信息的跳跃传输,实现信息的无线跳转传输,直至原多数据通道传输移动终端与基站服务器可以进行数据传输为止,可实现全球范围内的无死角数据传输。During data transmission, the present invention can realize data switching or simultaneous transmission between three data channels of the LTE data channel, the McLTE data channel and the Wi-Fi data channel of the mobile terminal in the multi-data channel transmission, thereby ensuring the connection and improvement of the data transmission channel. The data transmission speed and the communication stability of the mobile terminal are strong. At present, no operator or mobile terminal can guarantee the transmission of no dead angle information in the world, and the present invention implements hop transmission based on the McLTE communication unit. When a multi-data channel transmission mobile terminal cannot transmit data with the base station server, The mobile terminal is transmitted as another intermediate springboard through another multi-data channel, and the data information is hopped and transmitted, and the wireless jump transmission of the information is realized, until the original multi-data channel transmission mobile terminal and the base station server can perform data transmission, and the global scope can be realized. No dead angle data transmission inside.
用户在交互程序上提交数据传输指令申请与基站服务器进行数据传输,一般情况的数据传输指令为单一数据通道传输指令,当出现紧急情况时,可通过交互层的紧急指令强制切换成多数据通道传输指令,多数据通道传输时,当其中一个数据通道不可用时,由剩余两个数据通道进行数据传输,数据传输包括上传数据、下载数据。The user submits a data transmission instruction on the interactive program to apply for data transmission with the base station server. In general, the data transmission instruction is a single data channel transmission instruction, and when an emergency occurs, the emergency command of the interaction layer can be forcibly switched to multi-data channel transmission. Instruction, when multiple data channels are transmitted, when one of the data channels is unavailable, data transmission is performed by the remaining two data channels, and the data transmission includes uploading data and downloading data.
作为技术方案的进一步改进,所述多数据通道传输包括以下步骤:As a further improvement of the technical solution, the multi-data channel transmission comprises the following steps:
LTE主控通信单元通过Wi-Fi数据通道、LTE数据通道、McLTE数据通道同时与基站服务器进行数据传输。The LTE master communication unit simultaneously performs data transmission with the base station server through the Wi-Fi data channel, the LTE data channel, and the McLTE data channel.
在本实施例中,用户在交互程序上提交数据传输申请后,当LTE控制器检索判断得到数据传输指令为多数据通道传输指令时,参考图6,图6是本发明中一种多数据通道传输方法中多数据通道传输和单一数据通道传输的一具体实施例步骤流程图,LTE控制器控制三个数据通道进行多数据通道传输,接着判断数据是否传输成功,若成功,则结束数据传输,否则利用McLTE通信单元进入跳跃传输。In this embodiment, after the user submits the data transmission request on the interactive program, when the LTE controller retrieves and determines that the data transmission instruction is a multi-data channel transmission instruction, refer to FIG. 6, which is a multi-data channel in the present invention. A flow chart of a specific embodiment of the multi-data channel transmission and the single data channel transmission in the transmission method, the LTE controller controls three data channels for multi-data channel transmission, and then determines whether the data is successfully transmitted, and if successful, ends the data transmission, Otherwise, the CDMA transmission unit is used to enter the hop transmission.
具体地,上传数据时,LTE控制器根据数据通道个数拆分待上传的数据并分配给每个数据通道,每个数据通道同时通过相应的射频收发器上传相应的部分数据信息至基站服务器并接收基站服务器返回的数据接收反馈信息,LTE控制器通过判断是否有返回数据接收反馈信息来判断数据是否传输成功,若有接收到数据接收反馈信息,则表示数据上传成功,其中,若全部数据通道接收到数据接收反馈信息,则结束数据传输,否则返回重新拆分数据分配给有接收到数据接收反馈信息的数据通道进行数据传输;若全部数据通道没有接收到数据接收反馈信息,则表示数据上传失败,进入数据跳跃传输。下载数据时,在多数据通道传输移动终端建立一个临时文件,LTE控制器判断三个数据通道是否连通,LTE控制器通过相应数据通道向基站服务器发送心跳包并接收基站服务器返回的反馈信息判断数据通道是否连通,若有返回反馈信息,则表示数据通道连通,否则表示数据通道不连通;若连通,则表示数据下载成功,其中,若三个数据通道均连通,则根据临时文件的大小分配每个数据通道应该下载的部分数据,三个数据通道通过相应的射频收发器发送数据通道信息至基站服务器,基站服务器根据数据通道信息下发数据至多数据通道传输移动终端,否则,重新分配每个连通数据通道应该下载的数据并通过连通的数据通道与基站服务器进行数据传输;若三个数据通道均不连通,则表示数据下载失败,进入数据跳跃传输。Specifically, when uploading data, the LTE controller splits the data to be uploaded according to the number of data channels and allocates it to each data channel, and each data channel simultaneously uploads corresponding partial data information to the base station server through the corresponding radio frequency transceiver. Receiving the data receiving feedback information returned by the base station server, the LTE controller determines whether the data is successfully transmitted by determining whether there is return data receiving feedback information, and if the data receiving feedback information is received, the data uploading is successful, wherein if all the data channels are received After receiving the data receiving feedback information, the data transmission ends; otherwise, the re-split data is returned to the data channel having the received data receiving feedback information for data transmission; if all the data channels do not receive the data receiving feedback information, the data is uploaded. Failed to enter data hopping transmission. When downloading data, a temporary file is created in the mobile terminal of the multi-data channel transmission, and the LTE controller determines whether the three data channels are connected, and the LTE controller sends the heartbeat packet to the base station server through the corresponding data channel and receives the feedback information returned by the base station server to determine the data. Whether the channel is connected. If there is feedback information, it means that the data channel is connected. Otherwise, the data channel is not connected. If it is connected, the data is successfully downloaded. If all three data channels are connected, the data is allocated according to the size of the temporary file. The data channel should download part of the data, and the three data channels send the data channel information to the base station server through the corresponding radio frequency transceiver, and the base station server sends the data to the multi-data channel to transmit the mobile terminal according to the data channel information; otherwise, each connection is redistributed. The data channel should download the data and transmit data to the base station server through the connected data channel; if the three data channels are not connected, it means that the data download fails and the data jump transmission is entered.
作为技术方案的进一步改进,所述单一数据通道传输包括以下步骤:As a further improvement of the technical solution, the single data channel transmission comprises the following steps:
LTE主控通信单元按照预设的数据通道传输顺序判断数据通道是否连通,若连通,则通过连通的数据通道与基站服务器进行数据传输。The LTE main control communication unit determines whether the data channel is connected according to a preset data channel transmission sequence, and if connected, performs data transmission with the base station server through the connected data channel.
在本实施例中,当检索判断得到数据传输指令为单一数据通道传输指令时,LTE主控通信单元按照预设的数据通道传输顺序判断数据通道是否连通,用户可在交互层程序中自主设置数据通道传输的顺序,参考图6,图6是本发明中一种多数据通道传输方法中多数据通道传输和单一数据通道传输的一具体实施例步骤流程图,本发明将Wi-Fi数据通道作为默认第一数据通道传输数据,LTE数据通道和McLTE数据通道可由用户自行选择默认第二数据通道和第三数据通道,在本实施例中,假设用户选择McLTE数据通道为第二数据通道,LTE数据通道为第三数据通道,LTE主控器依次通过相应数据通道向基站服务器发送心跳包检测数据通道是否连通,若连通,则通过连通的数据通道与基站服务器进行数据传输,否则,进入数据跳跃传输。具体地,上传数据时,通过连通的数据通道将数据上传至基站服务器并接收基站服务器返回的数据接收反馈信息;下载数据时,通过连通的数据通道将数据通道信息发送至基站服务器,基站服务器根据数据通道信息下发数据至多数据通道传输移动终端。In this embodiment, when the retrieval determines that the data transmission instruction is a single data channel transmission instruction, the LTE main control communication unit determines whether the data channel is connected according to a preset data channel transmission order, and the user can independently set the data in the interaction layer program. For the sequence of channel transmission, referring to FIG. 6, FIG. 6 is a flow chart of steps of a specific embodiment of multi-data channel transmission and single data channel transmission in a multi-data channel transmission method according to the present invention, and the present invention uses a Wi-Fi data channel as a By default, the first data channel transmits data, and the LTE data channel and the McLTE data channel can be selected by the user to select the default second data channel and the third data channel. In this embodiment, it is assumed that the user selects the McLTE data channel as the second data channel, and the LTE data. The channel is the third data channel, and the LTE main controller sequentially sends the heartbeat packet detection data channel to the base station server through the corresponding data channel, and if it is connected, the data transmission is performed with the base station server through the connected data channel, otherwise, the data skip transmission is entered. . Specifically, when uploading data, the data is uploaded to the base station server through the connected data channel and receives the data receiving feedback information returned by the base station server; when the data is downloaded, the data channel information is sent to the base station server through the connected data channel, and the base station server is configured according to The data channel information is sent to the multi-data channel transmission mobile terminal.
作为技术方案的进一步改进,所述步骤S3包括以下步骤:As a further improvement of the technical solution, the step S3 includes the following steps:
第一多数据通道传输移动终端的LTE主控通信单元在数据通道无法传输数据时发送跳跃传输请求信息至其McLTE通信单元并由其扩散跳跃传输请求信息;The LTE master communication unit of the first multi-data channel transmission mobile terminal transmits the hop transmission request information to its McLTE communication unit and spreads the hop transmission request information by the data channel when the data channel cannot transmit data;
第二多数据通道传输移动终端的McLTE通信单元接收跳跃传输请求信息,第二多数据通道传输移动终端响应跳跃传输请求,若第二多数据通道传输移动终端与基站服务器的数据通道连通,则跳跃传输请求响应成功,第一多数据通道传输移动终端通过第二多数据通道传输移动终端与基站服务器进行数据传输,否则跳跃传输请求响应失败,由第二多数据通道传输移动终端的McLTE通信单元继续发送跳跃传输请求信息;The second multi-data channel transmission mobile terminal's McLTE communication unit receives the hop transmission request information, and the second multi-data channel transmission mobile terminal responds to the hop transmission request, and if the second multi-data channel transmission mobile terminal communicates with the base station server data channel, the hopping The transmission request response is successful, and the first multi-data channel transmission mobile terminal transmits the mobile terminal to the base station server for data transmission through the second multiple data channel, otherwise the hop transmission request response fails, and the McLTE communication unit that transmits the mobile terminal by the second multi-data channel continues. Sending a hop transfer request message;
直到跳跃传输请求被成功响应则结束发送跳跃传输请求信息,开始数据跳跃传输。The transmission of the hop transmission request information is ended until the hop transmission request is successfully responded, and the data hopping transmission is started.
在本实施例中,参考图7,图7是本发明中一种多数据通道传输方法中跳跃传输的一具体实施例步骤流程图,当第一多数据通道传输移动终端无法进行数据传输时,启动跳跃传输,第一多数据通道传输移动终端的LTE控制器判断数据通道是否与基站服务器连通,若有数据通道可以与基站服务器连接,则通过可用数据通道与基站服务器进行数据传输,否则LTE控制器发送跳跃传输请求信息至McLTE通信单元,McLTE通信单元通过McLTE射频收发器对跳跃传输请求信息进行封装并扩散,所述跳跃传输请求信息被第二多数据通道传输移动终端的McLTE通信单元的McLTE射频收发器接收并传送至第二多数据通道传输移动终端的LTE控制器,第二多数据通道传输移动终端的LTE控制器判断数据通道是否与基站服务器连通,若有数据通道可以与基站服务器连接,则第一多数据通道传输移动终端通过第二多数据通道传输移动终端与基站服务器进行数据传输,第二多数据通道传输移动终端通过可用数据通道与基站服务器进行数据传输,否则第二多数据通道传输移动终端的LTE控制器发送跳跃传输请求信息至第二多数据通道传输移动终端的McLTE通信单元,第二多数据通道传输移动终端的McLTE通信单元继续通过McLTE射频收发器封装跳跃传输请求信息,并继续向第N多数据通道传输移动终端进行跳跃传输请求信息扩散,直到跳跃传输请求被成功响应则结束发送跳跃传输请求信息并开始数据传输。此时,第二多数据通道传输移动终端进行跳跃传输请求信息扩散时,第一多数据通道传输移动终端也将接收到第二多数据通道传输移动终端发送的跳跃传输请求,第一多数据通道传输移动终端处理跳跃传输请求信息后识别出为自身之前发送的跳跃传输请求信息,则不予处理跳跃传输请求。In this embodiment, referring to FIG. 7, FIG. 7 is a flow chart of a specific embodiment of a hopping transmission in a multi-data channel transmission method according to the present invention. When the first multi-data channel transmission mobile terminal cannot perform data transmission, Initiating hop transmission, the LTE controller of the first multi-data channel transmission mobile terminal determines whether the data channel is connected to the base station server, and if the data channel can be connected to the base station server, data transmission is performed with the base station server through the available data channel, otherwise LTE control Transmitting the hop transmission request information to the McLTE communication unit, the McLTE communication unit encapsulates and spreads the hop transmission request information by the McLTE radio frequency transceiver, and the hop transmission request information is transmitted by the second multi-data channel to the McLTE communication unit of the mobile terminal The RF transceiver receives and transmits to the LTE controller of the second multi-data channel transmission mobile terminal, and the LTE controller of the second multi-data channel transmission mobile terminal determines whether the data channel is connected to the base station server, and if the data channel can be connected to the base station server , the first multi-data channel transmission shift The terminal transmits the mobile terminal and the base station server for data transmission through the second multi-data channel, and the second multi-data channel transmits the mobile terminal to perform data transmission with the base station server through the available data channel, otherwise the second multi-data channel transmits the LTE controller of the mobile terminal to transmit Jumping the transmission request information to the second multi-data channel transmission mobile terminal's McLTE communication unit, the second multi-data channel transmission mobile terminal's McLTE communication unit continues to encapsulate the hop transmission request information through the McLTE radio frequency transceiver, and continues to the Nth multi-data channel The transmitting mobile terminal performs the hopping transmission request information diffusion until the hopping transmission request is successfully responded to end transmitting the hopping transmission request information and starting the data transmission. At this time, when the second multi-data channel transmission mobile terminal performs the hopping transmission request information diffusion, the first multi-data channel transmission mobile terminal also receives the hop transmission request sent by the second multi-data channel transmission mobile terminal, and the first multi-data channel After the transmission mobile terminal processes the hop transmission request information and recognizes the hop transmission request information transmitted before itself, the hop transmission request is not processed.
具体地,通话过程中进行跳跃传输,多数据通道传输移动终端可以用LTE控制器判断LTE主控通信单元和McLTE通信单元与基站服务器是否同步来代替LTE控制器判断数据通道是否与基站服务器连通,若LTE主控通信单元和McLTE通信单元有与基站服务器同步的,则多数据通道传输移动终端通过可与基站服务器同步的通信单元与基站服务器进行数据传输;当LTE主控通信单元和McLTE通信单元均与基站服务器同步时,按照用户预设的数据通道传输顺序使用通信单元与基站服务器进行数据传输;若LTE主控通信单元和McLTE通信单元都不能与基站服务器同步,则发送跳跃传输请求信息。Specifically, the hopping transmission is performed during the call, and the multi-data channel transmission mobile terminal can use the LTE controller to determine whether the LTE master communication unit and the McLTE communication unit are synchronized with the base station server instead of the LTE controller to determine whether the data channel is connected to the base station server. If the LTE master communication unit and the McLTE communication unit are synchronized with the base station server, the multi-data channel transmission mobile terminal performs data transmission with the base station server through a communication unit that can synchronize with the base station server; when the LTE master communication unit and the McLTE communication unit When both are synchronized with the base station server, the communication unit and the base station server are used for data transmission according to the data channel transmission sequence preset by the user; if neither the LTE master communication unit nor the McLTE communication unit can synchronize with the base station server, the hop transmission request information is transmitted.
跳跃传输过程中,当第一多数据通道传输移动终端的LTE控制器判断有数据通道与基站服务器连通时,则停止跳跃传输,自动转用第一多数据通道传输移动终端的可用数据通道与基站服务器进行数据传输。During the hopping transmission process, when the LTE controller of the first multi-data channel transmission mobile terminal determines that the data channel is connected to the base station server, the hopping transmission is stopped, and the first multi-data channel is automatically used to transmit the available data channel and the base station of the mobile terminal. The server performs data transfer.
作为技术方案的进一步改进,所述跳跃传输请求信息包括多数据通道传输移动终端的终端信息,所述终端信息包括PID码和/或IMEI码。As a further improvement of the technical solution, the hop transmission request information includes multi-data channel transmission terminal information of the mobile terminal, and the terminal information includes a PID code and/or an IMEI code.
在本实施例中,在跳跃传输请求信息中增加多数据通道传输移动终端的终端信息,以防止跳跃传输中射频信号出现串号,影响数据正常传输。所述终端信息还可以是其他唯一标识移动终端的信息,例如移动终端的MAC地址。在本发明中,向跳跃传输请求信息中增加第一多数据通道传输移动终端的PID码和IMEI码。In this embodiment, the multi-data channel is added to the terminal information of the mobile terminal in the hop transmission request information to prevent the serial number of the radio frequency signal in the hop transmission, which affects the normal transmission of the data. The terminal information may also be other information that uniquely identifies the mobile terminal, such as the MAC address of the mobile terminal. In the present invention, the PID data and the IMEI code of the first multi-data channel transmission mobile terminal are added to the hop transmission request information.
本发明实现了移动终端的多通信单元集成,实现数据在McLTE、LTE、Wi-Fi三种数据流通道的传输。同时通过McLTE通信单元实现数据信息的跳跃式传输,当一台多数据通道传输移动终端无法连接与基站连接时,可以通过发送跳跃传输请求信息给另一台多数据通道传输移动终端,通过另一台多数据通道传输移动终端实现信息跳转传输。The invention realizes the integration of multiple communication units of the mobile terminal, and realizes the transmission of data in three data stream channels of McLTE, LTE and Wi-Fi. At the same time, the data transmission is skipped by the McLTE communication unit. When a multi-data channel transmission mobile terminal cannot connect to the base station, the mobile terminal can be transmitted to another multi-data channel by transmitting the hop transmission request information, through another The multi-data channel transmission mobile terminal realizes information jump transmission.
以上是对本发明的较佳实施进行了具体说明,但本发明创造并不限于所述实施例,熟悉本领域的技术人员在不违背本发明精神的前提下还可做出种种的等同变形或替换,这些等同的变形或替换均包含在本申请权利要求所限定的范围内。The above is a detailed description of the preferred embodiments of the present invention, but the present invention is not limited to the embodiments, and various equivalent modifications or substitutions can be made by those skilled in the art without departing from the spirit of the invention. Such equivalent modifications or alternatives are intended to be included within the scope of the claims.

Claims (10)

  1. 一种多数据通道传输移动终端,其特征在于,所述终端包括Wi-Fi通信单元、LTE主控通信单元和McLTE通信单元,所述LTE主控通信单元分别与Wi-Fi通信单元、McLTE通信单元连接。 A multi-data channel transmission mobile terminal, characterized in that the terminal comprises a Wi-Fi communication unit, an LTE main control communication unit and a McLTE communication unit, and the LTE main control communication unit respectively communicates with a Wi-Fi communication unit and a McLTE communication unit. Unit connection.
  2. 根据权利要求1所述的一种多数据通道传输移动终端,其特征在于,所述LTE主控通信单元包括LTE天线、电源和LTE模块,所述电源的输出端与LTE模块的输入端连接,所述LTE模块与天线连接;The multi-data channel transmission mobile terminal according to claim 1, wherein the LTE main control communication unit comprises an LTE antenna, a power supply, and an LTE module, and an output end of the power supply is connected to an input end of the LTE module. The LTE module is connected to an antenna;
    所述Wi-Fi通信单元包括Wi-Fi模块和Wi-Fi天线,所述Wi-Fi模块与Wi-Fi天线连接;The Wi-Fi communication unit includes a Wi-Fi module and a Wi-Fi antenna, and the Wi-Fi module is connected to a Wi-Fi antenna;
    所述McLTE通信单元包括McLTE模块和McLTE天线,所述McLTE模块与McLTE天线连接;The McLTE communication unit includes a McLTE module and a McLTE antenna, and the McLTE module is connected to a McLTE antenna;
    所述LTE模块分别与Wi-Fi模块、McLTE模块连接。The LTE module is respectively connected to a Wi-Fi module and a McLTE module.
  3. 根据权利要求2所述的一种多数据通道传输移动终端,其特征在于,所述LTE模块包括LTE控制器、LTE信号放大器、LTE射频收发器和LTE滤波器,所述LTE天线的输出端与LTE滤波器的输入端连接,所述LTE滤波器的输出端与LTE射频收发器的输入端连接,所述LTE射频收发器与LTE控制器连接,所述LTE射频收发器的输出端与LTE信号放大器的输入端连接,所述LTE信号放大器的输出端与LTE天线的输入端连接,所述电源的输出端与LTE控制器的输入端连接;The multi-data channel transmission mobile terminal according to claim 2, wherein the LTE module comprises an LTE controller, an LTE signal amplifier, an LTE radio frequency transceiver, and an LTE filter, and an output end of the LTE antenna is The input end of the LTE filter is connected, the output end of the LTE filter is connected to the input end of the LTE radio frequency transceiver, and the LTE radio frequency transceiver is connected to the LTE controller, and the output end of the LTE radio frequency transceiver and the LTE signal An input end of the amplifier is connected, an output end of the LTE signal amplifier is connected to an input end of the LTE antenna, and an output end of the power supply is connected to an input end of the LTE controller;
    所述McLTE模块包括McLTE控制器、McLTE信号放大器、McLTE射频收发器和McLTE滤波器,所述McLTE天线的输出端与McLTE滤波器的输入端连接,所述McLTE滤波器的输出端与McLTE射频收发器的输入端连接,所述McLTE射频收发器与McLTE控制器连接,所述McLTE射频收发器的输出端与McLTE信号放大器的输入端连接,所述McLTE信号放大器的输出端与McLTE天线的输入端连接。The McLTE module includes a McLTE controller, a McLTE signal amplifier, a McLTE radio frequency transceiver, and a McLTE filter, and an output of the McLTE antenna is connected to an input end of a McLTE filter, and an output of the McLTE filter is transmitted and received with a McLTE radio frequency. The input end of the device is connected, the McLTE radio frequency transceiver is connected to the McLTE controller, the output end of the McLTE radio frequency transceiver is connected to the input end of the McLTE signal amplifier, and the output end of the McLTE signal amplifier and the input end of the McLTE antenna connection.
  4. 根据权利要求1至3任一项所述的一种多数据通道传输移动终端,其特征在于,还包括语音处理单元和/或显示单元,所述语音处理单元分别与LTE主控通信单元、McLTE通信单元连接,所述LTE主控通信单元的输出端与显示单元的输入端连接。The multi-data channel transmission mobile terminal according to any one of claims 1 to 3, further comprising a voice processing unit and/or a display unit, wherein the voice processing unit and the LTE master communication unit and the McLTE are respectively The communication unit is connected, and an output end of the LTE master communication unit is connected to an input end of the display unit.
  5. 根据权利要求4所述的一种多数据通道传输移动终端,其特征在于,所述语音处理单元包括模拟开关和电声器件,所述模拟开关与电声器件连接;The multi-data channel transmission mobile terminal according to claim 4, wherein the voice processing unit comprises an analog switch and an electro-acoustic device, and the analog switch is connected to the electro-acoustic device;
    所述电声器件包括耳机、听筒和/或喇叭。The electroacoustic device includes an earphone, an earpiece, and/or a speaker.
  6. 一种多数据通道传输方法,应用于根据权利要求1至5任一项所述的多数据通道传输移动终端,其特征在于,包括以下步骤:A multi-data channel transmission method is applied to the multi-data channel transmission mobile terminal according to any one of claims 1 to 5, characterized in that it comprises the following steps:
    S1、用户向LTE主控通信单元发送数据传输指令提交数据传输申请;S1: The user sends a data transmission instruction to the LTE main control communication unit to submit a data transmission application;
    S2、LTE主控通信单元判断数据传输指令是否为多数据通道传输指令,若是,则启动多数据通道传输,否则进入单一数据通道传输;S2. The LTE main control communication unit determines whether the data transmission instruction is a multi-data channel transmission instruction, and if so, initiates multi-data channel transmission, otherwise enters a single data channel transmission;
    S3、数据通道无法传输数据时利用McLTE通信单元进行跳跃传输;S3. When the data channel cannot transmit data, the data transmission is performed by using the McLTE communication unit;
    所述数据通道包括Wi-Fi数据通道、LTE数据通道和McLTE数据通道。The data channel includes a Wi-Fi data channel, an LTE data channel, and a McLTE data channel.
  7. 根据权利要求6所述的一种多数据通道传输方法,其特征在于,所述步骤S3包括以下步骤:The multi-data channel transmission method according to claim 6, wherein the step S3 comprises the following steps:
    第一多数据通道传输移动终端的LTE主控通信单元在数据通道无法传输数据时发送跳跃传输请求信息至其McLTE通信单元并由其扩散跳跃传输请求信息;The LTE master communication unit of the first multi-data channel transmission mobile terminal transmits the hop transmission request information to its McLTE communication unit and spreads the hop transmission request information by the data channel when the data channel cannot transmit data;
    第二多数据通道传输移动终端的McLTE通信单元接收跳跃传输请求信息,第二多数据通道传输移动终端响应跳跃传输请求,若第二多数据通道传输移动终端与基站服务器的数据通道连通,则跳跃传输请求响应成功,第一多数据通道传输移动终端通过第二多数据通道传输移动终端与基站服务器进行数据传输,否则跳跃传输请求响应失败,由第二多数据通道传输移动终端的McLTE通信单元继续发送跳跃传输请求信息;The second multi-data channel transmission mobile terminal's McLTE communication unit receives the hop transmission request information, and the second multi-data channel transmission mobile terminal responds to the hop transmission request, and if the second multi-data channel transmission mobile terminal communicates with the base station server data channel, the hopping The transmission request response is successful, and the first multi-data channel transmission mobile terminal transmits the mobile terminal to the base station server for data transmission through the second multiple data channel, otherwise the hop transmission request response fails, and the McLTE communication unit that transmits the mobile terminal by the second multi-data channel continues. Sending a hop transfer request message;
    直到跳跃传输请求被成功响应则结束发送跳跃传输请求信息,开始数据跳跃传输。The transmission of the hop transmission request information is ended until the hop transmission request is successfully responded, and the data hopping transmission is started.
  8. 根据权利要求6所述的一种多数据通道传输方法,其特征在于,所述单一数据通道传输包括以下步骤:A multiple data channel transmission method according to claim 6, wherein said single data channel transmission comprises the following steps:
    LTE主控通信单元按照预设的数据通道传输顺序判断数据通道是否连通,若连通,则通过连通的数据通道与基站服务器进行数据传输。The LTE main control communication unit determines whether the data channel is connected according to a preset data channel transmission sequence, and if connected, performs data transmission with the base station server through the connected data channel.
  9. 根据权利要求7或8所述的一种多数据通道传输方法,其特征在于,所述多数据通道传输包括以下步骤:A multi-data channel transmission method according to claim 7 or 8, wherein the multi-data channel transmission comprises the following steps:
    LTE主控通信单元通过Wi-Fi数据通道、LTE数据通道、McLTE数据通道同时与基站服务器进行数据传输。The LTE master communication unit simultaneously performs data transmission with the base station server through the Wi-Fi data channel, the LTE data channel, and the McLTE data channel.
  10. 根据权利要求9所述的一种多数据通道传输方法,其特征在于,所述跳跃传输请求信息包括多数据通道传输移动终端的终端信息,所述终端信息包括PID码和/或IMEI码。The multi-data channel transmission method according to claim 9, wherein the hop transmission request information comprises multi-data channel transmission terminal information of the mobile terminal, and the terminal information comprises a PID code and/or an IMEI code.
PCT/CN2017/095837 2017-08-03 2017-08-03 Mobile terminal capable of multiple data channel transmission and method thereof WO2019024049A1 (en)

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