CN103402247A - Terminal data transmission method and terminal - Google Patents

Abstract

The embodiment of the invention provides a terminal data transmission method and a terminal. The method comprises the steps that: a first terminal acquires the transmission powers and the transmission rates of wireless connection ways respectively supported by the first terminal and a second terminal; the first terminal selects the wireless connection ways with the transmission powers and the transmission rates which meet the current data transmission requirements from the wireless connection ways respectively supported by the first terminal and the second terminal; the first terminal determines the wireless connection way which has the lowest power consumption when being used for transmitting the current data from the selected wireless connection ways; the first terminal transmits current data by adopting the determined wireless connection way with the lowest power consumption. According to the terminal data transmission method and the terminal disclosed by the embodiment of the invention, the power consumption of terminal data transmission can be reduced.

Description

A kind of method and terminal of terminal data transmission

Technical field

The present invention relates to electronic technology field, relate in particular to a kind of method and terminal of terminal data transmission.

Background technology

At present, along with the development of intelligent terminal, intelligent terminal all possesses the wireless near field communication linkage functions such as bluetooth (Bluetooth, BT) and/or Wireless Fidelity (wireless fidelity, WIFI) usually.Wherein, the wireless communication distance of bluetooth generally can be within the 10m scope, and the communication context of WIFI generally can be within the 20m scope.

Current, intelligent terminal, when the transmission data, uses single connected mode to connect usually, such as, by Bluetooth transmission or by WIFI, transmit, the power that transmits by bluetooth can be little a lot, but can be poorer than the latter on transmission rate and communication distance.So aspect energy consumption if small data quantity (such as, transmission rate is less than or equal to 1Mbps) transmission, with bluetooth approach, can save a lot of power consumptions than the WIFI transmission, and for the transmission of big data quantity, WIFI can take advantage on the gross energy (product of power and time) that consumes.As can be seen here, present intelligent terminal is when selecting single wireless connections mode to carry out transfer of data, and what give may not be the most effective transmission means of transfer of data.

Summary of the invention

The embodiment of the present invention provides a kind of method and terminal of terminal data transmission, can reduce the power consumption of terminal data transmission.

Concrete, a kind of method of selecting the wireless connections of terminal room that the embodiment of the present invention provides, it can comprise:

First terminal obtains through-put power and the transmission rate of the wireless connections mode of described first terminal and the support of the second terminal;

Described first terminal is from selecting through-put power and transmission rate to meet the wireless connections mode of current data transmission requirement the wireless connections mode of described first terminal and described the second terminal support;

Described first terminal is from determining the described current data of transmission wireless connections mode least in power-consuming the wireless connections mode of described selection;

Described first terminal adopts described definite wireless connections mode least in power-consuming to transmit described current data.

Accordingly, a kind of terminal that the embodiment of the present invention provides, it can comprise:

Acquisition module, be used to obtaining through-put power and the transmission rate of described terminal and the wireless connections mode of another terminal support;

Select module, for through-put power and the transmission rate of obtaining according to described acquisition module, from the wireless connections mode of described terminal and described another terminal support, selecting through-put power and transmission rate, meet the wireless connections mode of current data transmission requirement;

Determination module, determine the described current data of transmission wireless connections mode least in power-consuming for the wireless connections mode of selecting from described selection module;

The connection management module, transmit described current data be used to the wireless connections mode least in power-consuming that adopts described determination module to determine.

The embodiment of the present invention, first terminal are obtained through-put power and the transmission rate of the wireless connections mode of described first terminal and the support of the second terminal; Described first terminal is from selecting through-put power and transmission rate to meet the wireless connections mode of current data transmission requirement the wireless connections mode of described first terminal and described the second terminal support; Described first terminal is from determining the described current data of transmission wireless connections mode least in power-consuming the wireless connections mode of described selection; Described first terminal adopts described definite wireless connections mode least in power-consuming to transmit described current data.Due to embodiment of the present invention first terminal and the second terminal when selecting the wireless connections mode, take the two the defeated power of wireless connections mode and transmission rate as according to going to mate wireless connections mode least in power-consuming under the transmission rate of described current data, the embodiment of the present invention can reduce the power consumption of terminal data transmission thus.

The accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, in below describing embodiment, the accompanying drawing of required use is briefly described, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the schematic flow sheet of an embodiment of the method for setting up the terminal room wireless connections of the present invention;

Fig. 2 is the realization flow schematic diagram of the embodiment of step S112 in Fig. 1;

Fig. 3 is the realization flow schematic diagram of another embodiment of step S112 in Fig. 1;

Fig. 4 is that the structure of an embodiment of terminal of the present invention forms schematic diagram;

Fig. 5 is that the structure of an embodiment of the determination module in Fig. 4 forms schematic diagram;

Fig. 6 is that the structure of another embodiment of the determination module in Fig. 4 forms schematic diagram.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skills, not making under the creative work prerequisite the every other embodiment that obtains, belong to the scope of protection of the invention.

Fig. 1 is the schematic flow sheet of an embodiment of the method for terminal data of the present invention transmission.As shown in Figure 1, it can comprise:

Step S110, first terminal obtain through-put power and the transmission rate of the wireless connections mode of described first terminal and the support of the second terminal.

In specific implementation, the described first terminal of the embodiment of the present invention and described the second terminal can be the mobile terminal device of equity, such as, can be two mobile phones apart from the certain distance scope, PAD equipment.In specific implementation, the described first terminal of the embodiment of the present invention and described the second terminal also can be the fittings equipment of intelligent terminal, such as, described first terminal can be the earphone of smart mobile phone, and described the second terminal can be the card reader of smart mobile phone.In specific implementation, the described first terminal of the embodiment of the present invention and described the second terminal also can be the accessory of intelligent terminal and intelligent terminal, such as, described first terminal can be smart mobile phone, and described the second terminal can be the earphone of smart mobile phone etc.Certainly, above is only to the enumerating of first terminal and the second terminal, and in specific implementation, so long as two possess two terminals supporting the same wireless connected mode simultaneously, can form the first terminal of the embodiment of the present invention and the combination of the second terminal.

In specific implementation, the wireless connections mode that first terminal and the second terminal can possess simultaneously can comprise: WIFI, bluetooth, infrared communication etc.Also namely, first terminal and the second terminal can be set up wireless connections by WIFI, or, by bluetooth, set up wireless connections, or set up wireless connections by infrared.Usually, the transmission range of WIFI generally can be within the 20m scope, and desirable transmission rate can reach 250Mbps, the transmission range of bluetooth generally can be within the 10m scope, desirable transmission rate can reach 25Mbps, and the transmission range of infrared communication is within the 5m scope, and desirable transmission rate can reach 4Mbps.

In specific implementation, the through-put power of the wireless transmission of the wireless connections mode of the embodiment of the present invention and the acquisition methods of transmission rate can include but not limited to following certain situation: such as, for the wireless connections mode of first terminal and the built vertical connection of the second terminal, the test signal that can directly send according to terminal room is obtained through-put power and the transmission rate of described wireless connections mode; For the wireless connections mode that first terminal and the second terminal do not connect, can obtain through-put power and the transmission rate of described first terminal and the current wireless connections mode of having set up of described the second terminal; Then according to through-put power and the transmission rate of the described current wireless connections mode of having set up of obtaining, estimate through-put power and the transmission rate of described first terminal and the current unfounded wireless connections mode of described the second terminal.Such as, between first terminal and the second terminal, set up bluetooth and connected, if roughly extrapolating between the two, the through-put power that the embodiment of the present invention can connect by the bluetooth of having set up and transmission rate set up through-put power and the transmission rate that WIFI connects.

Step S111, described first terminal is from selecting through-put power and transmission rate to meet the wireless connections mode of current data transmission requirement the wireless connections mode of described first terminal and described the second terminal support.

In specific implementation, for each wireless connections mode, if want unimpededly to carry out transfer of data, generally need through-put power and transmission rate within certain scope; Such as, usually, the desirable transmission rate of WIFI can reach 250Mbps, if the transmission speed of the data of the transmission rate of current data is within the transmission rate scope that WIFI allows, just can think that the transmission rate of WIFI meets the transmission requirement of the described current data of transmission.

Step S112, described first terminal is from determining wireless connections mode least in power-consuming under described transmission rate the wireless connections mode of described selection.

In specific implementation, the transmission rate of described current data can be fixed; At this moment, as shown in Figure 2, step S112 can carry out as follows:

Step S11210, described first terminal calculate the described wireless connections mode of selecting and under the transmission rate of described current data, transmit the power consumption of described current data.

With WIFI and bluetooth (BT), give an example, suppose, a is the size of data of transmission, the speed of network environment WIFI was v1 at that time, the speed that spreads out of of BT is v2, and both power consumptions are measured values that writes, be respectively w1 and w2, all power consumptions of using WIFI transmission a to consume are: P1=(a/v1) * w1 (wherein a/v1 is the transmission time), the same energy consumption of using BT transmission a to consume is: P2=(a/v2) * w2, if so P1 > during P2, bluetooth is wireless connections mode least in power-consuming, opposite WIFI is wireless connections mode least in power-consuming.

Step S11211, described first terminal, according to the result of described calculating, find out wireless connections mode least in power-consuming.

In specific implementation, the transmission rate of described current data can not fixed; At this moment, as shown in Figure 3, step S112 can carry out as follows:

Step S11220, described first terminal is obtained first rate according to the transmission rate of described current data, described first rate comprises: in mean value, maximum or the minimum value of the transmission rate of described current data in the certain hour scope any.。

Step S1121, described first terminal calculate the described wireless connections mode of selecting and under described first rate, transmit the power consumption of described current data.In specific implementation, the implementation of this step and step S11210 are similar, and what they were different is to use the transmission rate in first rate replacement step S11210.

Step S1122, described first terminal, according to the result of described calculating, find out wireless connections mode least in power-consuming.

In specific implementation, when the transmission rate of current data is zero (such as, when described first terminal and described the second terminal room do not have transfer of data or either party to be in holding state), at this moment, it is that wireless connections mode least in power-consuming under zero state is as the wireless connections mode of determining in transmission rate that first terminal can directly adopt predetermined, perhaps, this moment, described first terminal cut off the wireless connections mode of described first terminal and described the second terminal room.

In specific implementation, the embodiment of the present invention can be in advance according to principle least in power-consuming, determining is not having wireless connections mode least in power-consuming under transfer of data, perhaps determine first terminal or the second terminal at least the either party be in wireless connections mode least in power-consuming under holding state, such as, when between first terminal and the second terminal, there is no transfer of data, definite wireless connections mode least in power-consuming can be infrared or bluetooth; When the either party was in holding state at least, definite wireless connections mode least in power-consuming can be infrared or bluetooth when first terminal or the second terminal.

Step S113, described first terminal adopt described definite wireless connections mode least in power-consuming to transmit described current data.

In specific implementation, at step S113, may have two kinds of situations, the first situation is that first terminal is current for initially setting up the state that data are connected with the second terminal, the wireless connections mode that, can directly adopt step S112 to determine at step S113 is transmitted described current data.The second situation is, first terminal and the second terminal are before step S110, by the first wireless connections mode, set up wireless connections, and described definite wireless connections mode is different from described the first wireless connections mode, at step S113, when described first terminal and described the second terminal room adopt described definite wireless connections mode least in power-consuming to transmit described current data or afterwards, cut off described the first wireless connections mode.

Therefore, the embodiment of the present invention, first terminal obtains through-put power and the transmission rate of the wireless connections mode of described first terminal and the support of the second terminal; Described first terminal is from selecting through-put power and transmission rate to meet the wireless connections mode of current data transmission requirement the wireless connections mode of described first terminal and described the second terminal support; Described first terminal is from determining the described current data of transmission wireless connections mode least in power-consuming the wireless connections mode of described selection; Described first terminal adopts described definite wireless connections mode least in power-consuming to transmit described current data.Due to embodiment of the present invention first terminal and the second terminal when selecting the wireless connections mode, take the two the defeated power of wireless connections mode and transmission rate as according to going to mate wireless connections mode least in power-consuming under the transmission rate of described current data, the embodiment of the present invention can reduce the power consumption of terminal data transmission thus.

Accordingly, the embodiment of the present invention provides the terminal equipment embodiment that can be used for implementing above-mentioned each embodiment of the method for the present invention.Fig. 4 is that the structure of an embodiment of the terminal (for convenience of describing, follow-up also can be referred to as first terminal) of the embodiment of the present invention forms schematic diagram.As shown in Figure 4, it can comprise: acquisition module 41, selection module 42, determination module 43 and connection management module 44, wherein:

Acquisition module 41, be used to through-put power and the transmission rate of the wireless transmission of the wireless connections mode of obtaining described terminal (for convenience of describing, the follow-up first terminal that is referred to as) and another terminal (for convenience of describing, follow-up second terminal that is referred to as) support;

Select module 42, for described first terminal and the wireless connections mode selection through-put power of described the second terminal support and the wireless connections mode that transmission rate meets the current data transmission requirement of obtaining from described acquisition module 41;

Determination module 43, determine wireless connections mode least in power-consuming under described transmission rate for the wireless connections mode of selecting from described selection module.

Connection management module 44, transmit described current data be used to the wireless connections mode least in power-consuming that adopts described determination module 43 to determine.

In specific implementation, the described first terminal of the embodiment of the present invention and described the second terminal can be the mobile terminal device of equity, such as, can be two mobile phones apart from the certain distance scope, PAD equipment.In specific implementation, the described first terminal of the embodiment of the present invention and described the second terminal also can be the fittings equipment of intelligent terminal, such as, described first terminal can be the earphone of smart mobile phone, and described the second terminal can be the card reader of smart mobile phone.In specific implementation, the described first terminal of the embodiment of the present invention and described the second terminal also can be the accessory of intelligent terminal and intelligent terminal, such as, described first terminal can be smart mobile phone, and described the second terminal can be the earphone of smart mobile phone etc.Certainly, above is only to the enumerating of first terminal and the second terminal, and in specific implementation, so long as two possess two terminals supporting the same wireless connected mode simultaneously, can form the first terminal of the embodiment of the present invention and the combination of the second terminal.

In specific implementation, the wireless connections mode that first terminal and the second terminal can possess simultaneously can comprise: WIFI, bluetooth, infrared communication etc.Also namely, first terminal and the second terminal can be set up wireless connections by WIFI, or, by bluetooth, set up wireless connections, or set up wireless connections by infrared.Usually, the transmission range of WIFI generally can be within the 20m scope, and desirable transmission rate can reach 250Mbps, the transmission range of bluetooth generally can be within the 10m scope, desirable transmission rate can reach 25Mbps, and the transmission range of infrared communication is within the 5m scope, and desirable transmission rate can reach 4Mbps.

In specific implementation, the method for through-put power that the acquisition module 41 of the embodiment of the present invention obtains the wireless transmission of wireless connections mode can include but not limited to following certain situation:

Such as, for the wireless connections mode of first terminal and the built vertical connection of the second terminal, the test signal that can directly send according to terminal room is obtained through-put power and the transmission rate of described wireless connections mode; For the wireless connections mode that first terminal and the second terminal do not connect, can obtain through-put power and the transmission rate of described first terminal and the current wireless connections mode of having set up of described the second terminal; Then according to through-put power and the transmission rate of the described current wireless connections mode of having set up of obtaining, estimate through-put power and the transmission rate of described first terminal and the current unfounded wireless connections mode of described the second terminal.Such as, between first terminal and the second terminal, set up bluetooth and connected, if roughly extrapolating between the two, the through-put power that the embodiment of the present invention can connect by the bluetooth of having set up and transmission rate set up through-put power and the transmission rate that WIFI connects.

In specific implementation, for each wireless connections mode, if want unimpededly to carry out transfer of data, generally need through-put power and transmission rate within certain scope; Such as, usually, the desirable transmission rate of WIFI can reach 250Mbps, if the transmission speed of the data of the transmission rate of current data is within the transmission rate scope that WIFI allows, just can think that the transmission rate of WIFI meets the transmission requirement of the described current data of transmission.

In specific implementation, the transmission rate of described current data can be fixed; At this moment, as shown in Figure 5, described determination module 43 can comprise:

The first computing module 4310, transmit the power consumption of described current data be used to calculating the wireless connections mode that described selection module 42 selects under the transmission rate of described current data.

With WIFI and bluetooth (BT), give an example, suppose, a is the size of data of transmission, the speed of network environment WIFI was v1 at that time, the speed that spreads out of of BT is v2, and both power consumptions are measured values that writes, be respectively w1 and w2, all power consumptions of using WIFI transmission a to consume are: P1=(a/v1) * w1 (wherein a/v1 is the transmission time), the same energy consumption of using BT transmission a to consume is: P2=(a/v2) * w2, if so P1 > during P2, bluetooth is wireless connections mode least in power-consuming, opposite WIFI is wireless connections mode least in power-consuming.First searches the result of module 4311 for the calculating according to described computing module 4310, finds out wireless connections mode least in power-consuming.

In specific implementation, the transmission rate of described current data can not fixed; At this moment, as shown in Figure 6, determination module 43 can comprise

The second computing module 4320, obtain first rate for the transmission rate according to described current data, and described first rate comprises: in mean value, maximum or the minimum value of the transmission rate of described current data in the certain hour scope any.

The 3rd computing module 4321, transmit the power consumption of described current data be used to calculating the wireless connections mode that described selection module 42 selects under described first rate.In specific implementation, the mode that the 3rd computing module 4321 calculates power consumption can be similar with the first computing module 4310, and what they were different is to replace the transmission rate in the first computing module 4310 with first rate.

Second searches module 4320, for the result of calculating according to described the 3rd computing module 4321, finds out wireless connections mode least in power-consuming.

In specific implementation, when the transmission rate of current data is zero (such as, when described first terminal and described the second terminal room do not have transfer of data or either party to be in holding state), at this moment, it is that wireless connections mode least in power-consuming under zero state is as the wireless connections mode of determining in transmission rate that first terminal can directly adopt predetermined, perhaps, this moment, described first terminal cut off the wireless connections mode of described first terminal and described the second terminal room.

In specific implementation, the embodiment of the present invention can be in advance according to principle least in power-consuming, determining is not having wireless connections mode least in power-consuming under transfer of data, perhaps determine first terminal or the second terminal at least the either party be in wireless connections mode least in power-consuming under holding state, such as, when between first terminal and the second terminal, there is no transfer of data, definite wireless connections mode least in power-consuming can be infrared or bluetooth; When the either party was in holding state at least, definite wireless connections mode least in power-consuming can be infrared or bluetooth when first terminal or the second terminal.

In specific implementation, connection management module 44 is when carrying out connection management, may there be two kinds of situations, the first situation is, first terminal is current for initially setting up the state that data are connected with the second terminal,, connection management module 44 can directly adopt determination module 43 definite wireless connections modes to transmit described current data.The second situation is, before first terminal and the second terminal are obtained the through-put power and transmission rate of described terminal and the wireless transmission of the wireless connections mode of another terminal support at acquisition module 41, by the first wireless connections mode, set up wireless connections, and described definite wireless connections mode is different from described the first wireless connections mode, when described connection management module 44 adopts described definite wireless connections mode least in power-consuming to transmit described current data or afterwards, cut off described the first wireless connections mode.

Therefore, the embodiment of the present invention, first terminal obtains through-put power and the transmission rate of the wireless connections mode of described first terminal and the support of the second terminal; Described first terminal is from selecting through-put power and transmission rate to meet the wireless connections mode of current data transmission requirement the wireless connections mode of described first terminal and described the second terminal support; Described first terminal is from determining the described current data of transmission wireless connections mode least in power-consuming the wireless connections mode of described selection; Described first terminal adopts described definite wireless connections mode least in power-consuming to transmit described current data.Due to embodiment of the present invention first terminal and the second terminal when selecting the wireless connections mode, take the two the defeated power of wireless connections mode and transmission rate as according to going to mate wireless connections mode least in power-consuming under the transmission rate of described current data, the embodiment of the present invention can reduce the power consumption of terminal data transmission thus.

The step order of the method for the embodiment of the present invention can be adjusted according to actual needs.The module of the terminal of the embodiment of the present invention can be integrated and Further Division according to actual needs.The terminal of the embodiment of the present invention can be mobile phone, computer, portable set etc.

Step in embodiment of the present invention method can be carried out according to actual needs order and adjusted, merges and delete.

Module in embodiment of the present invention terminal or unit can merge according to actual needs, divide and delete.

The module of the embodiment of the present invention or module, can be with universal integrated circuit (as central processor CPU), or realizes with application-specific integrated circuit (ASIC) (ASIC).One of ordinary skill in the art will appreciate that all or part of step in the whole bag of tricks of above-described embodiment is to come the hardware that instruction is relevant to complete by program, this program can be stored in a computer-readable recording medium, storage medium can comprise: flash disk, read-only memory (Read-Only Memory, ROM), random access device (Random Access Memory, RAM), disk or CD etc.

Above disclosed is only preferred embodiment of the present invention, certainly can not limit with this interest field of the present invention, one of ordinary skill in the art will appreciate that all or part of flow process that realizes above-described embodiment, and, according to the equivalent variations that the claims in the present invention are done, still belong to the scope that invention is contained.

Claims (10)

1. the method for a terminal data transmission, is characterized in that, comprising:

First terminal obtains through-put power and the transmission rate of the wireless connections mode of described first terminal and the support of the second terminal;

Described first terminal is from selecting through-put power and transmission rate to meet the wireless connections mode of current data transmission requirement the wireless connections mode of described first terminal and described the second terminal support;

Described first terminal is from determining the described current data of transmission wireless connections mode least in power-consuming the wireless connections mode of described selection;

Described first terminal adopts described definite wireless connections mode least in power-consuming to transmit described current data.

2. the method for the wireless connections of selection terminal room as claimed in claim 1, is characterized in that, first terminal also comprises before obtaining the through-put power and transmission rate of wireless connections mode of support of described first terminal and the second terminal:

Described first terminal and described the second terminal are set up wireless connections by the first wireless connections mode;

When described definite wireless connections mode and described the first wireless connections mode not simultaneously, described first terminal when adopting described definite described current data of wireless connections mode transmission rate transmission least in power-consuming or afterwards, cuts off described the first wireless connections mode.

3. the method for setting up the terminal room wireless connections as claimed in claim 1 or 2, is characterized in that,

The transmission rate of described current data is fixed;

Described first terminal, from the wireless connections mode of described selection, determining the described current data of transmission wireless connections mode least in power-consuming, comprising:

Described first terminal calculates the described wireless connections mode of selecting and under the transmission rate of described current data, transmits the power consumption of described current data;

Described first terminal, according to the result of described calculating, is found out wireless connections mode least in power-consuming.

4. the method for setting up the terminal room wireless connections as claimed in claim 1 or 2, is characterized in that,

The transmission rate of described current data is unfixing;

Described first terminal, from the wireless connections mode of described selection, determining the described current data of transmission wireless connections mode least in power-consuming, comprising:

Described first terminal is obtained first rate according to the transmission rate of described current data, and described first rate comprises: in mean value, maximum or the minimum value of the transmission rate of described current data in the certain hour scope any;

Described first terminal calculates the described wireless connections mode of selecting and under described first rate, transmits the power consumption of described current data;

Described first terminal, according to the result of described calculating, is found out wireless connections mode least in power-consuming.

5. method as claimed in claim 1 or 2, is characterized in that, through-put power and transmission rate that described first terminal obtains the wireless connections mode of described first terminal and described the second terminal support comprise:

Obtain through-put power and the transmission rate of the wireless transmission of described first terminal and the current wireless connections mode of having set up of described the second terminal;

According to described through-put power and the transmission rate of obtaining the current wireless connections mode of having set up, calculate through-put power and the transmission rate of described first terminal and the current unfounded wireless connections mode of described the second terminal.

6. a terminal, is characterized in that, comprising:

Acquisition module, be used to obtaining through-put power and the transmission rate of described terminal and the wireless connections mode of another terminal support;

Select module, for through-put power and the transmission rate of obtaining according to described acquisition module, from the wireless connections mode of described terminal and described another terminal support, selecting through-put power and transmission rate, meet the wireless connections mode of current data transmission requirement;

Determination module, determine the described current data of transmission wireless connections mode least in power-consuming for the wireless connections mode of selecting from described selection module;

The connection management module, transmit described current data be used to the wireless connections mode least in power-consuming that adopts described determination module to determine.

7. terminal as claimed in claim 6, it is characterized in that, described connection management module is also for before the through-put power and transmission rate of at described acquisition module, obtaining described terminal and the wireless connections mode of another terminal support, and described another terminal is set up wireless connections by the first wireless connections mode;

Work as the definite wireless connections mode of described determination module and described the first wireless connections mode not simultaneously, described connection management module also, for when adopting described definite wireless connections mode least in power-consuming to transmit described current data or afterwards, is cut off described the first wireless connections mode transmission rate.

8. terminal as described as claim 6 or 7, is characterized in that, the transmission rate of described current data is fixed;

Described determination module comprises:

The first computing module, transmit the power consumption of described current data be used to calculating the described wireless connections mode of selecting under the transmission rate of described current data;

First searches module, for the result of calculation according to described computing module, from the described wireless connections mode of selecting, finding out wireless connections mode least in power-consuming.

9. terminal as described as claim 6 or 7, is characterized in that, the transmission rate of described current data is unfixing;

Described determination module comprises:

The second computing module, for according to described transmission rate, obtaining first rate, described first rate comprises: in mean value, maximum or the minimum value of the transmission rate of described current data in the certain hour scope any;

The 3rd computing module, transmit the power consumption of described current data be used to calculating the described wireless connections mode of selecting under described first rate;

Second searches module, for the result of calculation according to described the 3rd computing module, from the wireless connections mode that described selection module is selected, finding out wireless connections mode least in power-consuming.

10. terminal as described as claim 6 or 7, is characterized in that, acquisition module is specifically be used to obtaining through-put power and the transmission rate of described first terminal and the current wireless connections mode of having set up of described another terminal; And, according to through-put power and the transmission rate of the described current wireless connections mode of having set up of obtaining, calculate through-put power and the transmission rate of described first terminal and the current unfounded wireless connections mode of described another terminal.

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