CN103188005B - A kind of realize the method for terminal communication, system and device - Google Patents

Abstract

The invention discloses and a kind of realize the method for terminal communication, system and device, when receiving downstream signal, peripheral communication module also is able to receive wireless signal, and wireless signal is processed for being sent to terminal after digital baseband signal, the digital baseband signal that the digital baseband signal wireless signal self received process obtained by terminal and peripheral communication module send merges, thus improve the quality of the signal of reception；When sending upward signal, the signal that terminal can send splits, and is sent respectively by the communication module of self and peripheral communication module, thus improve the quality of the signal of transmission, namely improves the communication capacity that terminal is supported。

Description

A kind of realize the method for terminal communication, system and device

Technical field

The present invention relates to communication technical field, particularly relate to and a kind of realize the method for terminal communication, system and device。

Background technology

Along with the fast development of communication technology, communication terminal becomes a kind of electronic equipment that application is very universal at present, and user is also more and more higher to the QoS requirement of terminal。

Fig. 1 illustrates the structural representation of existing terminal, as it is shown in figure 1, this terminal mainly includes communication module 101 and application module 102；Wherein, communication module 101 mainly realizes the communication with communication network, specifically, this communication module 101 is main from communication network reception signal, it is send to application module after the form that is capable of identify that of application module by the signal processing of reception, and is sent to communication network by antenna after the signal format of communication network transmission by the signal processing that application module sends；Application module 102 mainly realizes man-machine interaction, master controller that this application module can include being connected with communication module, input module (such as input through keyboard or/and touch screen input), output module (such as audio frequency output or/and video frequency output), SIM (SubscriberIdentityModule, client identification module)) card module, power module and memory module etc.。In this Fig. 1, communication module 101 realizes the mutual of terminal and network mainly through the antenna arranged, and this communication module 101 is directly related with number of antennas for the support situation of MIMO (Multiple-InputMultiple-Out-put, multiple-input and multiple-output)。

According to 3GPP (The3rdGenerationPartnershipProject, third generation partner program) R10 (version 10) standard agreement, support LTE-A (LongTermEvolutionAdvanced, the follow-up evolution of Long Term Evolution) terminal need support up maximum 4 stream MIMO, the MIMO of descending maximum 4 to 8 streams, but the restriction due to following factor so that current terminal is difficult to meet the 3GPPR10 requirement to the MIMO that terminal is supported:

In order to ensure the MIMO gain of terminal, the dependency between the signal that the different antennae of terminal is received has certain requirement, and this will ensure the isolation between antenna, but is limited to the size of terminal, and the isolation between the antenna that terminal is arranged can not be too big。At present, the communication module of terminal generally arranges two antennas, that is, current terminal can only support the MIMO (i.e. double fluid) of two antennas, as arranged more antenna (such as 4 antennas) in terminal, then can lose the MIMO gain originally pursued owing to isolation between antennas is too little。

In sum, the communication capacity that existing communication terminal is supported is relatively low, the communication standard requirement for communication quality of continuous evolution can not be met, especially at 3G (3rdGeneration, 3 generations)/4G (4rdGeneration, 4 generations) ripe gradually and when the emerging in multitude of intelligent terminal of network, demand and actual volume to data service all increase substantially, the transmittability of terminal support is all had higher requirement by this, therefore, the communication capacity improving terminal support is to ensure that the important directions of communication quality。

Summary of the invention

In view of this, the embodiment of the present invention provides a kind of and realizes the method for terminal communication, system and device, adopts this technical scheme, it is possible to increase the communication capacity that terminal is supported。

The embodiment of the present invention is achieved through the following technical solutions:

An aspect according to embodiments of the present invention, it is provided that a kind of method realizing terminal communication, including:

Peripheral communication module receives wireless signal, the described wireless signal received is carried out process and obtains the first digital baseband signal, and described first digital baseband signal is sent to terminal；

Described terminal receives described first digital baseband signal, processes the second digital baseband signal obtained merge by described first digital baseband signal with to the described wireless signal self received, and is combined the digital baseband signal obtained and processes。

Another aspect according to embodiments of the present invention, additionally provides a kind of method realizing terminal communication, including:

Terminal determines digital baseband signal to be sent, described digital baseband signal is carried out fractionation and obtains the first digital baseband signal and the second digital baseband signal, described first digital baseband signal is sent to peripheral communication module, and sends described second digital baseband signal being processed the wireless signal obtained to network side；

Described peripheral communication module receives the first digital baseband signal that described terminal sends, and sends described first digital baseband signal processes the wireless signal obtained to network side。

Another aspect according to embodiments of the present invention, additionally provides a kind of system realizing terminal communication, including:

Peripheral communication module and terminal；

Described peripheral communication module, is used for receiving wireless signal, the described wireless signal received is carried out process and obtains the first digital baseband signal, and described first digital baseband signal is sent to described terminal；

Described terminal, is used for receiving described first digital baseband signal, processes the second digital baseband signal obtained merge by described first digital baseband signal with to the described wireless signal self received, and is combined the digital baseband signal obtained and processes。

Another aspect according to embodiments of the present invention, additionally provides a kind of device realizing terminal communication, including:

Receive unit, be used for receiving wireless signal；

Signal processing unit, the described wireless signal for described reception unit is received carries out process and obtains the first digital baseband signal；

Transmitting element, is sent to terminal for the first digital baseband signal described signal processing unit processes obtained。

Another aspect according to embodiments of the present invention, additionally provides a kind of device realizing terminal communication, including:

First receives unit, for receiving the first digital baseband signal that peripheral communication module sends；

Signal merges unit, and the described wireless signal for the first digital baseband signal received by described first reception unit with to self reception processes the second digital baseband signal obtained and merges；

Signal processing unit, the digital baseband signal obtained for described signal merges unit merging processes。

Another aspect according to embodiments of the present invention, additionally provides a kind of system realizing terminal communication, including:

Peripheral communication module and terminal；

Described terminal, for determining digital baseband signal to be sent, described digital baseband signal is carried out fractionation and obtains the first digital baseband signal and the second digital baseband signal, described first digital baseband signal is sent to described peripheral communication module, and sends described second digital baseband signal being processed the wireless signal obtained to network side；

Described peripheral communication module, for receiving the first digital baseband signal that described terminal sends, sends described first digital baseband signal processes the wireless signal obtained to network side。

Another aspect according to embodiments of the present invention, additionally provides a kind of device realizing terminal communication, including:

Signal determines unit, for determining digital baseband signal to be sent；

To described signal, signal split cells, for determining that the digital baseband signal that unit is determined carries out fractionation and obtains the first digital baseband signal and the second digital baseband signal；

Signal transmitting unit, is sent to peripheral communication module for described signal split cells splits the first digital baseband signal obtained, and sends described second digital baseband signal processes the wireless signal obtained to network side。

By at least one technical scheme above-mentioned that the embodiment of the present invention provides, when receiving downstream signal, first received wireless signal by peripheral communication module, the wireless signal received is carried out process and obtains the first digital baseband signal, and the first digital baseband signal is sent to terminal；After terminal receives the first digital baseband signal, process the second digital baseband signal obtained merge by the first digital baseband signal with to the wireless signal self received, and be combined the digital baseband signal obtained and process。According to this technical scheme, peripheral communication module also is able to receive wireless signal, and wireless signal is processed for being sent to terminal after digital baseband signal, the digital baseband signal that the digital baseband signal wireless signal self received process obtained by terminal and peripheral communication module send merges, thus improve the quality of the signal of reception, namely improve the communication capacity that terminal is supported。

By at least one technical scheme above-mentioned that the embodiment of the present invention provides, when sending upward signal, after terminal determines digital baseband signal to be sent, this digital baseband signal is carried out fractionation and obtains the first digital baseband signal and the second digital baseband signal, first digital baseband signal is sent to peripheral communication module, and send the second digital baseband signal being processed the wireless signal obtained to network side, after peripheral communication module receives the first digital baseband signal that terminal sends, send the first digital baseband signal being processed the wireless signal obtained to network side。According to this technical scheme, the signal that terminal can send splits, and is sent respectively by the communication module of self and peripheral communication module, thus improve the quality of the signal of transmission, namely improves the communication capacity that terminal is supported。

Other features and advantages of the present invention will be set forth in the following description, and, partly become apparent from description, or understand by implementing the present invention。The purpose of the present invention and other advantages can be realized by structure specifically noted in the description write, claims and accompanying drawing and be obtained。

Accompanying drawing explanation

Accompanying drawing is for providing a further understanding of the present invention, and constitutes a part for description, is used for explaining the present invention, is not intended that limitation of the present invention together with the embodiment of the present invention。In the accompanying drawings:

The structural representation of the existing terminal that Fig. 1 provides for background technology；

The schematic diagram of the communication system that Fig. 2 provides for the embodiment of the present invention one；

Fig. 3 receives the schematic flow sheet of downstream signal when strengthening module for the peripheral communication module that the embodiment of the present invention one provides as signal；

Fig. 4 carries out the schematic flow sheet of signal merging for the terminal that the embodiment of the present invention one provides；

The schematic flow sheet of downstream signal is received when the peripheral communication module that Fig. 5 provides for the embodiment of the present invention one is as trunk module；

Fig. 6 sends the schematic flow sheet of upward signal when strengthening module for the peripheral communication module that the embodiment of the present invention one provides as signal；

The schematic flow sheet of upward signal is sent when the peripheral communication module that Fig. 7 provides for the embodiment of the present invention one is as trunk module；

The schematic diagram of the communication system that Fig. 8 provides for the embodiment of the present invention two；

The scene schematic diagram of the mode of operation two that Fig. 9 provides for the embodiment of the present invention two；

The scene schematic diagram of the mode of operation three that Figure 10 provides for the embodiment of the present invention two；

One structural representation of the device realizing terminal communication that Figure 11 provides for the embodiment of the present invention three；

Another structural representation of the device realizing terminal communication that Figure 12 provides for the embodiment of the present invention three；

Another structural representation of the device realizing terminal communication that Figure 13 provides for the embodiment of the present invention three；

One structural representation of the device realizing terminal communication that Figure 14 provides for the embodiment of the present invention five；

Another structural representation of the device realizing terminal communication that Figure 15 provides for the embodiment of the present invention five。

Detailed description of the invention

In order to provide the implementation improving the communication capacity that terminal is supported, embodiments provide and a kind of realize the method for terminal communication, system and device, below in conjunction with Figure of description, the preferred embodiments of the present invention are illustrated, it is to be understood that, preferred embodiment described herein is merely to illustrate and explains the present invention, is not intended to limit the present invention。And when not conflicting, the embodiment in the application and the feature in embodiment can be mutually combined。

Embodiment one

The embodiment of the present invention one provides a kind of method realizing terminal communication, and the method can be applied in the communication system shown in Fig. 2, as in figure 2 it is shown, this communication system specifically includes that

Peripheral communication module 201 and terminal 202；

Wherein, peripheral communication module 201 can also be called enhancement process card, this peripheral communication module 201 is provided with the antenna setting number, for realizing the communication with wireless network, specifically, the number of antennas this peripheral communication module 201 arranged can be relevant with the communication capacity assisting terminal to realize, generally, the communication capacity that terminal to realize is more high, it is possible to ensureing on the basis of isolation between antennas, arrange more many antennas；Terminal 202 can for do the terminal except technological improvement on common communication terminal basis, this technological improvement includes: terminal can communicate with peripheral communication module, and the signal that peripheral hardware communication module sends can be merged and the signal to send is split。

In communication system shown in Fig. 2, communication can be had between peripheral communication module 201 and terminal 202, specifically, point-to-multipoint delivery mode can be adopted, such as WLAN (WirelessLocalAreaNetworks, WLAN) communication mode between peripheral communication module 201 and terminal 202, under this communication mode, peripheral communication module 201 can corresponding multiple terminals 202, equally, terminal 202 can also corresponding multiple peripheral communication modules 201；Point-to-point communication mode can also be adopted between peripheral communication module 201 and terminal 202, such as USB (UniversalSerialBUS, USB (universal serial bus)) communication mode or Blue-tooth communication method, under this communication mode, the corresponding terminal 202 of peripheral communication module 201, equally, a terminal 202 also corresponding peripheral communication module 201。

Based on the communication system shown in Fig. 2, it is achieved the method for terminal communication mainly includes receiving the process of downstream signal and sending the process of upward signal, individually below each process is described in detail。

One, the process of downstream signal is received

In the present embodiment one, receive in the process of downstream signal, peripheral communication module can strengthen module when terminal is positioned at wireless network coverage area as signal, promote the signal quality that terminal receives, can also terminal be positioned at wireless network coverage area outer time as trunk module, send the signal received to terminal。

1, when peripheral communication module strengthens module as signal, the handling process of downstream signal is received

Fig. 3 illustrates that peripheral communication module receives the schematic flow sheet of downstream signal when strengthening module as signal, as it is shown on figure 3, mainly comprise the steps:

Step 301, peripheral communication module receive wireless signal, the wireless signal received is carried out process and obtains the first digital baseband signal。

In this step 301, the wireless signal received is processed by peripheral communication module, the antenna that can pass through to arrange receives wireless signal, and be demodulated processing by radio-frequency module and baseband processing module, obtain the first digital baseband signal, it is identical that the detailed implementation of this processing procedure receives the processing procedure after wireless signal with existing communication terminal by antenna, is not described in detail herein。

Step 302, peripheral communication module are sent to terminal by processing the first digital baseband signal obtained。

In this step 302, peripheral communication module can detect the communication mode between terminal in advance, the mode of operation that this communication mode can be set by peripheral communication module is determined, such as, when the mode of operation that peripheral hardware communication module is set is commonality schemata, show that this peripheral communication module can connect multiple terminal, now, this peripheral communication module can send public keys checking request with first communication party formula to the terminal connected, and the first digital baseband signal is sent at least one terminal by verifying；When the mode of operation that peripheral hardware communication module is set is privately owned pattern, show that this peripheral communication module can connect a terminal, now, peripheral communication module can send private cipher key checking request with second communication method to the terminal connected, and the first digital baseband signal is sent to a terminal by verifying。Wherein, first communication party formula is point-to-multipoint delivery mode (such as WLAN communication mode), and second communication method is point-to-point communication mode (such as Blue-tooth communication method or usb communication mode)。

Above-mentioned steps 301 to step 302 has been separately constructed peripheral communication module and has received the handling process of downstream signal。

After step 303, terminal receive the first digital baseband signal, the wireless signal by the first digital baseband signal with to self reception processes the second digital baseband signal obtained and merges。

In this step 303, the wireless signal that self receives can be processed by terminal, obtains the second digital baseband signal, and wherein, the time of the wireless signal that terminal receives receives the time synchronized of wireless signal with peripheral communication module。The wireless signal that self receives can be processed by terminal, namely receive wireless signal by the antenna arranged, and be demodulated processing by radio-frequency module and baseband processing module, this process is that the wireless signal that end-on is received carries out processing the existing process obtaining digital baseband signal, repeats no more herein。

Step 304, terminal are combined the digital baseband signal obtained and process。

In this step 304, terminal is combined the digital baseband signal obtained and processes, it is sent to, by digital baseband signal, the application module that terminal includes and carries out subsequent treatment, such as, digital baseband signal is sent to the master controller of application module, being carried out subsequent treatment by this master controller, this processing procedure is the processing procedure of existing terminal, repeats no more herein。

So far, the flow process receiving downstream signal terminates。

In the step 303 that Fig. 3 correspondence flow process includes, the first digital baseband signal and the second digital baseband signal merge by terminal, specifically can be merged by the frame identification that each road signal carries, Fig. 4 illustrates that terminal carries out the schematic flow sheet of signal merging, as shown in Figure 4, this merging process mainly comprises the steps:

Step 401, terminal, according to the frame identification self processing each frame signal correspondence respectively that the second digital baseband signal obtained includes, determine the digital baseband signal of corresponding each frame identification from the first digital baseband signal that peripheral communication module sends。

In this step 401, all signals received can be sent to terminal by peripheral communication module, and therefore, terminal needs to determine that useful signal merges from the signal that peripheral communication module sends。

Step 402, according to frame identification, the signal with same number of frames mark is merged。

So far, the flow process of terminal combined signal terminates。

By above-mentioned flow process, peripheral communication module also is able to receive wireless signal, and wireless signal is processed for being sent to terminal after digital baseband signal, the digital baseband signal that the digital baseband signal wireless signal self received process obtained by terminal and peripheral communication module send merges, thus improve the quality of the signal of reception, namely improve the communication capacity that terminal is supported。

2, when peripheral communication module is as trunk module, the handling process of downstream signal is received

The schematic flow sheet of downstream signal is received, as it is shown in figure 5, mainly comprise the steps: when Fig. 5 illustrates peripheral communication module as trunk module

Step 501, peripheral communication module receive wireless signal, the wireless signal received is carried out process and obtains the first digital baseband signal。

Step 502, peripheral communication module are sent to terminal by processing the first digital baseband signal obtained。

Above-mentioned steps 501, step 502 concrete perform process and above-mentioned steps 301, step 302 concrete to perform process basically identical, repeat no more herein。

Above-mentioned steps 501 to step 502 has been separately constructed peripheral communication module and has received the handling process of downstream signal。

The first digital baseband signal that peripheral hardware communication module is directly sent by step 503, terminal processes。

In this step 503, in the process that the first digital baseband signal is processed by terminal and above-mentioned steps 304, base station is combined the digital baseband signal obtained to carry out processing procedure essentially identical, repeats no more herein。

So far, the flow process receiving downstream signal terminates。

By above-mentioned flow process, peripheral communication module when terminal is not in wireless network coverage, can receive wireless signal, and the wireless signal of reception can be sent to terminal, thus ensureing that terminal is able to receive that signal, improves the communication capacity that terminal is supported。

In practical application, terminal is after receiving the signal that peripheral communication module sends, would be likely to occur uncertain being made directly to process or first merge, namely uncertain peripheral communication module is to strengthen module or as trunk module as signal, in the case, whether the communication module that terminal can be determined by being included by self receives wireless signal, to determine follow-up processing mode。Specifically, if the terminal determine that receive described wireless signal by the communication module self included, then this terminal processes the second digital baseband signal obtained and merges by described first digital baseband signal with to the described wireless signal self received, if the terminal determine that do not receive wireless signal by the communication module self included, then directly the first digital baseband signal received is processed。

In this embodiment one, peripheral communication module may operate under different power consumption states, specifically, the level of power consumption of peripheral communication module work can be determined according to the communication mode that this peripheral communication module is set, such as, when communication mode is point-to-multipoint delivery mode or telecommunication mode, it is possible to arrange higher level of power consumption, namely peripheral communication module can work under power consumption is more than the power consumption setting threshold value；When communication mode is peer-to-peer mode or short-range communication mode, it is possible to arrange relatively low level of power consumption, namely peripheral communication module can work under power consumption is lower than the power consumption setting threshold value。Correspondingly, in step 301 that Fig. 3 correspondence flow process includes and the step 501 that Fig. 5 correspondence flow process includes, when peripheral communication module receives wireless signal, including: peripheral communication module determines the communication mode with terminal, and receives this wireless signal under the power consumption status corresponding with the communication mode determined。

Two, the process of upward signal is sent

In the present embodiment one, send in the process of upward signal, peripheral communication module can strengthen module when terminal is positioned at wireless network coverage area as signal, promote the signal quality that terminal sends, can also terminal be positioned at wireless network coverage area outer time as trunk module, replace terminal to send signal to network side。

1, when peripheral communication module strengthens module as signal, the handling process of upward signal is sent

Fig. 6 illustrates that peripheral communication module sends the schematic flow sheet of upward signal when strengthening module as signal, as shown in Figure 6, mainly comprises the steps:

Step 601, terminal determine digital baseband signal to be sent。

Step 602, terminal log word baseband signal carry out fractionation and obtain the first digital baseband signal and the second digital baseband signal。

In this step 602, multithread digital baseband signal can be split as two parts by terminal, every part includes the digital baseband signal setting fluxion, and generally, the fluxion of the digital baseband signal sent by terminal split out can be corresponding with the antenna number that the communication module of terminal includes。

Step 603, terminal send described second digital baseband signal processes the wireless signal obtained to network side。

First digital baseband signal is sent to peripheral communication module by step 604, terminal。

In this step 604, first digital baseband signal can be sent to peripheral communication module according to the communication mode set by terminal, the communication mode of this setting can be WLAN communication mode, usb communication mode or Blue-tooth communication method, the mode of operation that is specifically set depending on peripheral communication module and determine, such as, when the mode of operation that peripheral hardware communication module is not arranged is commonality schemata, WLAN communication mode can be passed through, when the mode of operation that peripheral hardware communication module is not arranged is privately owned pattern, it is possible to by usb communication mode or Blue-tooth communication method。

Above-mentioned steps 603 and step 604 there is no successively execution sequence, and in practical application, step 603 and step 604 can executed in parallel, it is also possible to performing execution step 603 after step 604。

Above-mentioned steps 601 to step 604 has been separately constructed terminal in the handling process sending upward signal。

First digital baseband signal is processed, after receiving the first digital baseband signal that terminal sends, the wireless signal obtained by step 605, peripheral communication module。

Step 606, peripheral communication module send processing the wireless signal obtained to network side。

Above-mentioned steps 605 to step 606 has been separately constructed peripheral communication module handling process in sending upward signal process。

So far, the flow process sending upward signal terminates。

Before the step 604 that Fig. 6 correspondence flow process includes, before namely the first digital baseband signal is sent to peripheral communication module by terminal, also include:

The key authentication by peripheral communication module of this terminal, wherein, key authentication can be verified for public keys, can also verify for private cipher key, concrete which kind of key authentication of employing, the mode of operation being set by peripheral communication module determines, generally, peripheral communication module is provided with commonality schemata, generally can send public keys checking request to terminal, now terminal needs input public keys, if the public keys of input is consistent with the public keys that peripheral communication module preserves, it is determined that this terminal is verified by the public keys of peripheral communication module；If peripheral communication module is provided with privately owned pattern, generally can send private cipher key checking request to terminal, now terminal needs input private cipher key, if the private cipher key of input is consistent with the private cipher key that peripheral communication module preserves, it is determined that this terminal is verified by the private cipher key of peripheral communication module。

According to the flow process that Fig. 6 is corresponding, the signal that terminal can send splits, and is sent respectively by the communication module of self and peripheral communication module, thus improve the quality of the signal of transmission, namely improves the communication capacity that terminal is supported。

2, when peripheral communication module is as trunk module, the handling process of upward signal is sent

When Fig. 7 illustrates peripheral communication module as trunk module, send the schematic flow sheet of upward signal, as it is shown in fig. 7, mainly comprise the steps:

Step 701, terminal determine digital baseband signal to be sent。

Digital baseband signal to be sent is sent to described peripheral communication module by step 702, terminal。

It is consistent that the concrete execution principle of this step 702 performs principle with the concrete of above-mentioned steps 604, repeats no more herein。

The digital baseband signal received is processed the wireless signal obtained by step 703, peripheral communication module。

Step 704, peripheral communication module send processing the wireless signal obtained to network side。

Above-mentioned steps 703, execution principle and the step 605 of step 704, step 606 execution principle basically identical, repeat no more herein。

So far, the handling process sending upward signal terminates。

According to the flow process that Fig. 7 is corresponding, whether terminal can or not in wireless network coverage time, and the signal that will send sends and sends to peripheral communication module, thus ensureing that terminal can send signal, namely improves the communication capacity that terminal is supported。

In practical application, terminal is after determining digital baseband signal to be sent, would be likely to occur and uncertain be transmitted directly to peripheral communication module or first split, namely uncertain peripheral communication module is to strengthen module or as trunk module as signal, in the case, terminal may determine that currently whether be positioned within wireless network coverage, to determine follow-up processing mode。Specifically, if the terminal determine that determine and be currently located within wireless network coverage, then this terminal carries out fractionation to sent digital baseband signal and obtains the first digital baseband signal and the second digital baseband signal, if the terminal determine that be currently located at outside wireless network coverage, then digital baseband signal to be sent is directly sent to peripheral communication module by terminal。

Embodiment two

The present embodiment two gives the concrete application scenarios of a LTE-A of the technical scheme that above-described embodiment one provides。

Fig. 8 illustrates the schematic diagram of the communication system that this embodiment two provides, and in Fig. 8, the communication system shown in corresponding diagram 2 is properly termed as divide-body mobile phone, and this divide-body mobile phone mainly includes two parts:

A part is intelligent terminal host 801 (terminal 202 that in corresponding embodiment one, communication system shown in Fig. 2 includes), this intelligent terminal host 801 can support processing and basic communication function of user's application aspect, including touch screen, keyboard, battery, application processor etc., application module, baseband processor, the communication module (including antenna, radio frequency and base band etc.) of support 2/3/4G, SIM, WLAN module are or/and bluetooth module, it is limited to size, communication module and antenna and generally supports 2～4 passages。

Another part is LTE-A enhancement process card 802 (the peripheral communication module 201 that in corresponding embodiment one, communication system shown in Fig. 2 includes), this LTE-A enhancement process card 802 can support the communication standard of multiple 2/3/4G and the transmittability of multiple frequency range, support and base station side communication, including WLAN module or/and bluetooth module, the communication module (including base band and radio circuit) of 2/3/4G, antenna etc., when this LTE-A enhancement process card 802 supports that LTE-A multiple antennas strengthens function, intelligent terminal host 801 can additionally support 2～4 set antenna and radio-frequency channels。Module outward appearance is not limit, and may be designed as the form such as electronic watch, cards folder, ties up on wrist, belt, or plug is carried with in wallet。

Divide-body mobile phone shown in Fig. 8 collects, WLAN (suitable in high speed data transfer) and bluetooth (suitable in slow data transmission) is mainly adopted to carry out short-range communication, the voice-and-data of transmission user between intelligent terminal host 801 and LTE-A enhancement process card 802。Additionally also provide for USB interface, for being suitable to the situation of wired connection。

In divide-body mobile phone shown in Fig. 8, LTE-A enhancement process card 802 may operate in following pattern:

1, high power consumption mode or low-power consumption mode:

Preferably, when user carries with two modules, due to they close together, WLAN may be configured as low-power consumption mode, and transmitting power reduces (such as-10dBm or following), to reduce power consumption；

Preferably, when user needs to be used for relaying by LTE-A enhancement process card, owing to they are apart from each other or have barrier to intercept, WLAN may be configured as high power consumption mode, with maximum power transmission。

2, privately owned pattern or commonality schemata:

Preferably, when user only needs the two module point-to-point communication, i.e. normal operating conditions, WLAN may be configured as privately owned pattern (use private cipher key), now other WLAN user extraneous will not access, and interference problem can be automatically selected by channel evades；

Preferably, when user needs LTE-A enhancement process card for public relaying, WLAN may be configured as commonality schemata (use public keys), and now other WLAN user extraneous can by LTE-A enhancement process cartoon letters。

The above-mentioned mode of operation that LTE-A enhancement process card 802 is supported, it is possible to combination obtains following several mode of operation:

Mode of operation one: low-power consumption+privately owned pattern:

Once, intelligent terminal host 801 and LTE-A enhancement process card 802 work in level playing field to mode of operation, and namely two modules have identical configuration, and the common LTE-A of support strengthens multiple antennas function。

At down direction, LTE-A enhancement process card 802 receives the wireless signal that base station is sent, by its antenna, radio frequency, base band demodulation, sending the digital baseband signal that 2～4 flow to WLAN module, this digital signal is passed through the WLAN module in intelligent terminal host 801 by wave point by WLAN module；Intelligent terminal host 801 is also receiving the wireless signal that base station is sent simultaneously, by the antenna of self, radio frequency, base band demodulation, also the digital baseband signal of 2～4 streams is obtained, 2～4 streaming digital baseband signals of the LTE-A enhancement process card sent with WLAN module again merge, and then together send into baseband processor and are further processed。

Here illustratively, the communication mode that this mode of operation one is applicable between intelligent terminal host 801 and LTE-A enhancement process card 802 is the communication mode such as WLAN, USB or bluetooth。

The process of up direction is contrary with the signal flow of down direction, repeats no more herein。

Mode of operation two: high power consumption+privately owned pattern

When user is in the bad area of coverage of indoor, in order to ensure basic communication needs, LTE-A enhancement process card 802 can be placed on the position that the LTE signals such as window are stronger, as shown in Figure 9, transfer by the process of LTE-A enhancement process card 802 and WLAN module, even if intelligent terminal host 801 is in the room not having LTE signal, it is also possible to the WLAN module by both sides communicates, thus realizing accessing the purpose of LTE network。The antenna number that now user can be supported by reduces half, but basic communication is ensured。

Here illustratively, the communication mode that this mode of operation one is applicable between intelligent terminal host 801 and LTE-A enhancement process card 802 is the telecommunication modes such as WLAN。

Mode of operation three: high power consumption+commonality schemata

On the basis of mode of operation two, if now there being other WLAN user to need to be concurrently accessed LTE network, then as shown in Figure 10, LTE-A enhancement process card 802 can be set to commonality schemata, it is allowed to other WLAN user access。Owing to WLAN is standard agreement, other WLAN user access and are absent from obstacle。

Outside divided by upper communication function, the LTE-A divide-body mobile phone scheme that the present embodiment two provides can also support personal data (such as address list etc.) backup and synchronizing function, this function can need to arrange the cycle (unit is week, the moon) of automated back-up in intelligent terminal host 801 according to user, also the backup manually triggered or real-time synchronization are supported。Can back up to LTE-A enhancement process card 802 from intelligent terminal host 801, it is possible to back up to intelligent terminal host 801 from LTE-A enhancement process card 802, so that any appliance is lost or changes, all can avoid the loss of personal data。

In the present embodiment two, also support the USB interface of standard between intelligent terminal host 801 and LTE-A enhancement process card 802, both can intercom mutually, it is possible to mutually charge。

In the present embodiment two, also can support between intelligent terminal host 801 and LTE-A enhancement process card 802 to be combined by buckle, easy to carry。

According to the technical scheme that the present embodiment two provides, user mobile phone is made up of intelligent terminal host and LTE-A enhancement process card two parts, intelligent terminal host can support the communication module of 2/3/4G, and this communication module and antenna could support up 2～4 passages, it may be achieved basic LTE communication function；LTE-A enhancement process card can support the communication module of 2/3/4G, can additionally support 2～4 set antenna and radio-frequency channels, and the two part supports the enhancing multiple antennas ability of LTE-A jointly。

LTE-A enhancement process card possesses high/low power consumption mode and privately owned/commonality schemata, supports that LTE-A is operated under low-power consumption+privately owned pattern when strengthening multiple antennas ability；Support to be operated in during point-to-point relaying work under high power consumption+privately owned pattern；Support to be operated under high power consumption+commonality schemata during the relaying work of point-to-multipoint。

The technical program can support that LTE-A strengthens multiple antennas ability, owing to ensure that the non-correlation between multiple antennas, thus ensure that the performance of MIMO, and LTE-A enhancement process card can as the relaying of intelligent terminal host, thus ensure that basic communication performance covering more weak room area, simultaneously because LTE-A enhancement process card is cover stronger position with LTE, intelligent terminal host is positioned at WLAN and covers stronger position, hence in so that their up transmitting signal all need not be significantly high, lower power consumption。

As required, the WLAN module of LTE-A enhancement process card may also allow for other WLAN user and accesses, thus providing the function of CPE。

Embodiment three

The present embodiment three provides a kind of device realizing terminal communication, and this device can apply to peripheral communication module, for realizing the reception of downstream signal。

Figure 11 illustrates the structural representation of the device realizing terminal communication that the present embodiment three provides, and as shown in figure 11, this device specifically includes that

Receive unit 1101, signal processing unit 1102 and transmitting element 1103；

Wherein:

Receive unit 1101, be used for receiving wireless signal；

Signal processing unit 1102, obtains the first digital baseband signal for the wireless signal receiving unit 1101 reception is carried out process；

Transmitting element 1103, is sent to terminal for signal processing unit 1102 is processed the first digital baseband signal obtained。

In the preferred implementation that the present embodiment three provides, the transmitting element 1103 that Figure 11 shown device includes, specifically for determining the mode of operation being set, when the mode of operation being set is commonality schemata, send public keys checking request with first communication party formula to the terminal connected, and the first digital baseband signal is sent at least one terminal by verifying；When the mode of operation being set is privately owned pattern, sends private cipher key checking request with second communication method to the terminal connected, and the first digital baseband signal is sent to a terminal by verifying。

In the preferred implementation that the present embodiment three provides, the reception unit 1101 that Figure 11 shown device includes, specifically for determining the communication mode with terminal, and under the power consumption status corresponding with communication mode, receive wireless signal。

The present embodiment three additionally provides another kind and realizes the device of terminal communication, and this device can apply to terminal, for realizing the reception of downstream signal。

Figure 12 illustrates the structural representation of the device realizing terminal communication that the present embodiment three provides, and as shown in figure 12, this device specifically includes that

First receives unit 1201, signal merging unit 1202 and signal processing unit 1203；

Wherein:

First receives unit 1201, for receiving the first digital baseband signal that peripheral communication module sends；

Signal merges unit 1202, and the wireless signal for the first digital baseband signal received by the first reception unit 1201 with to self reception processes the second digital baseband signal obtained and merges；

Signal processing unit 1203, the digital baseband signal obtained for signal merges unit 1202 merging processes。

As shown in figure 13, in the preferred implementation that the present embodiment three provides, Figure 12 shown device can further include detecting signal unit 1204 and second and receives unit 1205；

Specifically, second receives unit 1205, is used for receiving wireless signal；

Detecting signal unit 1204, for determining whether the second reception unit 1205 receives the wireless signal corresponding with the first digital baseband signal；

Correspondingly, signal merges unit 1202, specifically for after detecting signal unit 1204 determines that the second reception unit 1205 receives wireless signal, the first digital baseband signal receive the first reception unit 1201 and the wireless signal that the second reception unit 1205 is received process the second digital baseband signal obtained and merge。

In the preferred implementation that the present embodiment three provides, the signal processing unit 1203 that Figure 13 shown device includes, being additionally operable to after detecting signal unit 1204 determines that the second reception unit 1205 does not receive wireless signal, the first digital baseband signal receiving unit 1201 reception to first processes。

Should be appreciated that the unit that the device of implementation above terminal communication includes is only the logical partitioning that the function realized according to this device carries out, in practical application, it is possible to carry out superposition or the fractionation of said units。And the method flow one_to_one corresponding realizing terminal communication that the function that the device realizing terminal communication that this embodiment three provides realizes provides with above-described embodiment one, for the handling process specifically that this device realizes, said method embodiment is described in detail, is not described in detail herein。

Further, the device realizing terminal communication in the present embodiment three also has the functional module being capable of embodiment one and embodiment two scheme, repeats no more herein。

Embodiment four

The present embodiment four provides a kind of system realizing terminal communication, and this system can realize the reception of downstream signal。

This system can as in figure 2 it is shown, include peripheral communication module and terminal；

Wherein:

Peripheral communication module, is used for receiving wireless signal, the wireless signal received is carried out process and obtains the first digital baseband signal, and the first digital baseband signal is sent to terminal；

Terminal, is used for receiving the first digital baseband signal, processes the second digital baseband signal obtained merge by the first digital baseband signal with to the wireless signal self received, and is combined the digital baseband signal obtained and processes。

In this system, peripheral communication module can include the device realizing terminal communication shown in above-described embodiment three Figure 11, and terminal can include the device realizing terminal communication shown in Figure 12 or Figure 13 in above-described embodiment three。

Embodiment five

The present embodiment five provides a kind of device realizing terminal communication, and this device can apply to terminal, for realizing the transmission of upward signal。

Figure 14 illustrates the structural representation of the device realizing terminal communication that the present embodiment five provides, and as shown in figure 14, this device specifically includes that

Signal determines unit 1401, signal split cells 1402 and signal transmitting unit 1403；

Wherein:

Signal determines unit 1401, for determining digital baseband signal to be sent；

To signal, signal split cells 1402, for determining that the digital baseband signal that unit 1401 is determined carries out fractionation and obtains the first digital baseband signal and the second digital baseband signal；

Signal transmitting unit 1403, is sent to peripheral communication module for signal split cells 1402 splits the first digital baseband signal obtained, and sends the second digital baseband signal processes the wireless signal obtained to network side。

In the preferred implementation that the present embodiment five provides, the signal transmitting unit 1403 that Figure 14 shown device includes, specifically for, after the key authentication by peripheral communication module, signal split cells being split the first digital baseband signal obtained and is sent to peripheral communication module。

As shown in figure 15, in the preferred implementation that the present embodiment five provides, Figure 14 shown device can further include the network coverage and determines unit 1404；

Specifically, cover and determine unit 1404, be used for determining and be currently located whether terminal is positioned within wireless network coverage；

Correspondingly, signal split cells 1402, specifically for determining that unit 1404 determines that place terminal is positioned at after within wireless network coverage in the network coverage, digital baseband signal is carried out fractionation and obtains the first digital baseband signal and the second digital baseband signal。

In the preferred implementation that the present embodiment five provides, the signal transmitting unit 1403 that Figure 15 shown device includes, it is additionally operable to, when the network coverage determines that unit 1404 determines that place terminal is positioned at outside wireless network coverage, digital baseband signal to be sent is sent to peripheral communication module。

Should be appreciated that the unit that the device of implementation above terminal communication includes is only the logical partitioning that the function realized according to this device carries out, in practical application, it is possible to carry out superposition or the fractionation of said units。And the method flow one_to_one corresponding realizing terminal communication that the function that the device realizing terminal communication that this embodiment five provides realizes provides with above-described embodiment one, for the handling process specifically that this device realizes, said method embodiment is described in detail, is not described in detail herein。

Further, the device realizing terminal communication in the present embodiment five also has the functional module being capable of embodiment one and embodiment two scheme, repeats no more herein。

Embodiment six

The present embodiment six provides a kind of system realizing terminal communication, and this system can realize the transmission of upward signal。

This system can as in figure 2 it is shown, include peripheral communication module and terminal；

Wherein:

Terminal, for determining digital baseband signal to be sent, digital baseband signal is carried out fractionation and obtains the first digital baseband signal and the second digital baseband signal, first digital baseband signal is sent to peripheral communication module, and sends the second digital baseband signal being processed the wireless signal obtained to network side；

Peripheral communication module, for receiving the first digital baseband signal that terminal sends, sends the first digital baseband signal processes the wireless signal obtained to network side。

In this system, terminal can include the device realizing terminal communication shown in Figure 14 or Figure 15 in above-described embodiment five。

Although having been described for the preferred embodiment of the application, but those skilled in the art are once know basic creative concept, then these embodiments can be made other change and amendment。So, claims are intended to be construed to include preferred embodiment and fall into all changes and the amendment of the application scope。

Obviously, the present invention can be carried out various change and modification without deviating from the spirit and scope of the present invention by those skilled in the art。So, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification。

Claims (20)

1. the method realizing terminal communication, it is characterised in that including:

Peripheral communication module receives wireless signal, the described wireless signal received is carried out process and obtains the first digital baseband signal, and described first digital baseband signal is sent to terminal, described first digital baseband signal is sent to terminal by described peripheral communication module, including: peripheral communication module determines the mode of operation being set；When the mode of operation being set is commonality schemata, sends public keys checking request with first communication party formula to the terminal connected, and described first digital baseband signal is sent at least one terminal by verifying；When the mode of operation being set is privately owned pattern, sends private cipher key checking request with second communication method to the terminal connected, and described first digital baseband signal is sent to a terminal by verifying；Wherein, described first communication party formula includes point-to-multipoint delivery mode, described second communication method includes point-to-point communication mode, and described point-to-multipoint delivery mode includes WLAN communication mode, and described point-to-point communication mode includes general-purpose serial bus USB communication mode or Blue-tooth communication method；

Described terminal receives described first digital baseband signal, processes the second digital baseband signal obtained merge by described first digital baseband signal with to the described wireless signal self received, and is combined the digital baseband signal obtained and processes。

2. the method for claim 1, it is characterised in that peripheral communication module receives wireless signal, including:

Peripheral communication module determines the communication mode with terminal, and receives wireless signal under the power consumption status corresponding with described communication mode。

3. the method for claim 1, it is characterised in that described terminal is by described first digital baseband signal and the described wireless signal self received is processed before the second digital baseband signal obtained merges, and also includes:

Determine that the communication module included by self receives described wireless signal。

4. method as claimed in claim 3, it is characterised in that if it is determined that do not pass through the communication module self included to receive described wireless signal, also include:

Described first digital baseband signal received is processed。

5. the method realizing terminal communication, it is characterised in that including:

Terminal determines digital baseband signal to be sent, described digital baseband signal is carried out fractionation and obtains the first digital baseband signal and the second digital baseband signal, after the key authentication by peripheral communication module, described first digital baseband signal is sent to peripheral communication module, wherein, determine that the key be verified described terminal and described terminal send the mode of described first digital baseband signal according to the mode of operation that described peripheral communication module is set, if the mode of operation that described peripheral communication module is set is commonality schemata, then described peripheral communication module sends public keys checking request to described terminal, described terminal sends described first digital baseband signal with first communication party formula after being verified, if the mode of operation that peripheral communication module is set is privately owned pattern, then described peripheral communication module sends public keys checking request to described terminal, described terminal sends described first digital baseband signal with second communication method after being verified；And send described second digital baseband signal being processed the wireless signal obtained to network side, wherein, described first communication party formula includes point-to-multipoint delivery mode, described second communication method includes point-to-point communication mode, described point-to-multipoint delivery mode includes WLAN communication mode, and described point-to-point communication mode includes general-purpose serial bus USB communication mode or Blue-tooth communication method；

Described peripheral communication module receives the first digital baseband signal that described terminal sends, and sends described first digital baseband signal processes the wireless signal obtained to network side。

6. method as claimed in claim 5, it is characterised in that described terminal also includes before described first digital baseband signal is sent to peripheral communication module:

Described terminal is by the key authentication of described peripheral communication module。

7. method as claimed in claim 5, it is characterised in that described digital baseband signal is carried out before fractionation obtains the first digital baseband signal and the second digital baseband signal, also including by described terminal:

Described terminal is determined and is currently located within wireless network coverage。

8. method as claimed in claim 7, it is characterised in that described terminal is determined when being currently located at outside wireless network coverage, also includes:

Described digital baseband signal to be sent is sent to described peripheral communication module。

9. the system realizing terminal communication, it is characterised in that including:

Peripheral communication module and terminal；

Described peripheral communication module, for receiving wireless signal, the described wireless signal received is carried out process and obtains the first digital baseband signal, and described first digital baseband signal is sent to described terminal, including: peripheral communication module determines the mode of operation being set；When the mode of operation being set is commonality schemata, sends public keys checking request with first communication party formula to the terminal connected, and described first digital baseband signal is sent at least one terminal by verifying；When the mode of operation being set is privately owned pattern, private cipher key checking request is sent to the terminal connected with second communication method, and described first digital baseband signal is sent to a terminal by verifying, wherein, described first communication party formula includes point-to-multipoint delivery mode, described second communication method includes point-to-point communication mode, described point-to-multipoint delivery mode includes WLAN communication mode, and described point-to-point communication mode includes general-purpose serial bus USB communication mode or Blue-tooth communication method；

Described terminal, is used for receiving described first digital baseband signal, processes the second digital baseband signal obtained merge by described first digital baseband signal with to the described wireless signal self received, and is combined the digital baseband signal obtained and processes。

10. the device realizing terminal communication, it is characterised in that including:

Receive unit, be used for receiving wireless signal；

Signal processing unit, the described wireless signal for described reception unit is received carries out process and obtains the first digital baseband signal；

Transmitting element, the first digital baseband signal for described signal processing unit processes being obtained is sent to terminal, specifically for determining the mode of operation being set, when the mode of operation being set is commonality schemata, send public keys checking request with first communication party formula to the terminal connected, and described first digital baseband signal is sent at least one terminal by verifying；When the mode of operation being set is privately owned pattern, sends private cipher key checking request with second communication method to the terminal connected, and described first digital baseband signal is sent to a terminal by verifying；The first communication mode described includes point-to-multipoint delivery mode, described the second communication mode includes point-to-point communication mode, described point-to-multipoint delivery mode includes WLAN communication mode, and described point-to-point communication mode includes general-purpose serial bus USB communication mode or Blue-tooth communication method。

11. device as claimed in claim 10, it is characterised in that described reception unit, specifically for determining the communication mode with terminal, and under the power consumption status corresponding with described communication mode, receive wireless signal。

12. the device realizing terminal communication, it is characterised in that including:

First receives unit, and for receiving the first digital baseband signal that peripheral communication module sends, described first digital baseband signal is that described peripheral communication module sends in such a way: described peripheral communication module determines the mode of operation being set；When the mode of operation being set is commonality schemata, with the checking request of first communication party formula public keys, and after being verified, send described first digital baseband signal；When the mode of operation being set is privately owned pattern, sends private cipher key checking request with second communication method, and after being verified, send described first digital baseband signal；Described first communication party formula includes point-to-multipoint delivery mode, described second communication method includes point-to-point communication mode, described point-to-multipoint delivery mode includes WLAN communication mode, and described point-to-point communication mode includes general-purpose serial bus USB communication mode or Blue-tooth communication method；

Signal merges unit, and the wireless signal for the first digital baseband signal received by described first reception unit with to self reception processes the second digital baseband signal obtained and merges；

Signal processing unit, the digital baseband signal obtained for described signal merges unit merging processes。

13. device as claimed in claim 12, it is characterised in that also include:

Second receives unit, is used for receiving wireless signal；

Detecting signal unit, for determining that described second receives whether unit receives the wireless signal corresponding with described first digital baseband signal；

Described signal merges unit, specifically for after described detecting signal unit determines that described second reception unit receives described wireless signal, the first digital baseband signal receiving unit reception by described first and the described wireless signal receiving unit reception to described second process the second digital baseband signal obtained and merge。

14. device as claimed in claim 13, it is characterized in that, described signal processing unit, is additionally operable to after described detecting signal unit determines that described second reception unit does not receive described wireless signal, and described first digital baseband signal receiving unit reception to described first processes。

15. the system realizing terminal communication, it is characterised in that including:

Peripheral communication module and terminal, described peripheral communication module and described terminal are communicated by first communication party formula point-to-multipoint delivery mode or second communication method point-to-point communication mode, described point-to-multipoint delivery mode includes WLAN communication mode, and described point-to-point communication mode includes general-purpose serial bus USB communication mode or Blue-tooth communication method；

Described terminal, for determining digital baseband signal to be sent, described digital baseband signal is carried out fractionation and obtains the first digital baseband signal and the second digital baseband signal, after the key authentication by peripheral communication module, described first digital baseband signal is sent to described peripheral communication module, wherein, determine that the key be verified described terminal and described terminal send the mode of described first digital baseband signal according to the mode of operation that described peripheral communication module is set, if the mode of operation that described peripheral communication module is set is commonality schemata, then described peripheral communication module sends public keys checking request to described terminal, described terminal sends described first digital baseband signal with first communication party formula after being verified, if the mode of operation that peripheral communication module is set is privately owned pattern, then described peripheral communication module sends public keys checking request to described terminal, described terminal sends described first digital baseband signal with second communication method after being verified；And send described second digital baseband signal being processed the wireless signal obtained to network side；

Described peripheral communication module, for receiving the first digital baseband signal that described terminal sends, sends described first digital baseband signal processes the wireless signal obtained to network side。

16. the device realizing terminal communication, it is characterised in that including:

Signal determines unit, for determining digital baseband signal to be sent；

To described signal, signal split cells, for determining that the digital baseband signal that unit is determined carries out fractionation and obtains the first digital baseband signal and the second digital baseband signal；

Signal transmitting unit, for after the key authentication by peripheral communication module, described signal split cells is split the first digital baseband signal obtained and is sent to peripheral communication module, wherein, determine the key being verified according to the mode of operation that described peripheral communication module is set and send the mode of described first digital baseband signal, if the mode of operation that described peripheral communication module is set is commonality schemata, then described peripheral communication module sends public keys checking request, described first digital baseband signal is sent with first communication party formula after being verified, if the mode of operation that peripheral communication module is set is privately owned pattern, then described peripheral communication module sends public keys checking request, described first digital baseband signal is sent with second communication method after being verified；And send described second digital baseband signal being processed the wireless signal obtained to network side, described first digital baseband signal is for be sent to described peripheral communication module by first communication party formula point-to-multipoint delivery mode or second communication method point-to-point communication mode, described point-to-multipoint delivery mode includes WLAN communication mode, and described point-to-point communication mode includes general-purpose serial bus USB communication mode or Blue-tooth communication method。

17. device as claimed in claim 16, it is characterised in that also include:

Unit is determined in the network coverage, is used for determining and is currently located whether terminal is positioned within wireless network coverage；

Described signal split cells, specifically for determining that unit determines that place terminal is positioned at after within wireless network coverage in the described network coverage, carries out fractionation and obtains the first digital baseband signal and the second digital baseband signal described digital baseband signal。

18. device as claimed in claim 17, it is characterized in that, described signal transmitting unit, is additionally operable to, when the described network coverage determines that unit determines that place terminal is positioned at outside wireless network coverage, described digital baseband signal to be sent is sent to described peripheral communication module。

19. the peripheral communication module of a terminal, it is characterised in that include the device realizing terminal communication described in any one of claim 10 or 11。

20. a terminal, it is characterised in that include the device realizing terminal communication described in claim 12 to 14,16 to 18 any one。