CN105813187A

CN105813187A - Information processing method and electronic device

Info

Publication number: CN105813187A
Application number: CN201410855564.3A
Authority: CN
Inventors: 单文英; 张大伟
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-12-31
Filing date: 2014-12-31
Publication date: 2016-07-27
Anticipated expiration: 2034-12-31
Also published as: CN105813187B

Abstract

The invention discloses an information processing method which is applied to an electronic device. The electronic device can communicates with a wireless access point through a wireless local Area network. The method comprises the steps that when the current transmission power of the electronic device is first transmission power, at least one communication parameter which is used to represent communication quality is acquired; based on at least one communication parameter, whether the current transmission power is adjusted is determined to acquire a first judgment result; and if the first judgment result is yes, the current transmission power is adjusted to selected transmission power different from the first transmission power from the first transmission power. At least one of the first transmission power and the selected transmission power is less than the highest transmission power of the electronic device.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to electronic technology field, particularly to a kind of information processing method and electronic equipment.

Background technology

In current WLAN WLan communication, different modulation systems adopts different transmitting powers, but after generally message transmission rate and modulation system are fixed, transmitting power also just immobilizes.Although system can support the transmitting power adjustment under flank speed, but the adjustment of transmitting power all carries out in base station end.For mobile terminal, fixed transmission power can only be selected, and in order to ensure communication quality, mobile terminal generally carries out signal transmitting with most high emission power.

Present inventor is in realizing the process of technical scheme of the embodiment of the present application, it has been found that prior art at least exists following technical problem:

Owing in prior art, mobile terminal can only select fixed transmission power, so, there is the technical problem that transmitting power is fixing in electronic equipment of the prior art.

Owing to the transmitting power of mobile terminal of the prior art is fixed, and generally carry out signal transmitting with most high emission power, even if communication link quality in the wireless local area network is good, mobile terminal also or adopts maximum transmission power to carry out signal transmitting.So, there is the technical problem that power consumption is high in mobile terminal of the prior art.

Summary of the invention

The embodiment of the present application provides a kind of information processing method and electronic equipment, is used for solving in prior art, the technical problem that mobile terminal power consumption is high, and then realizes reducing the technique effect of mobile terminal.

First aspect according to the application, a kind of information processing method is provided, it is applied in electronic equipment, described electronic equipment can pass through WLAN and WAP communication, described method includes: when the current transmitting power of described electronic equipment is the first transmitting power, it is thus achieved that for characterizing at least one messaging parameter of communication quality；Based at least one messaging parameter described, it may be judged whether need to adjust described current transmitting power, it is thus achieved that the first judged result；When described first judged result is for being, described current transmitting power is adjusted to the selected transmitting power different from described first transmitting power from described first power；Wherein, described first transmitting power and described selected transmitting power has at least the transmitting power most high emission power less than described electronic equipment.

Optionally, it is described when the current transmitting power of described electronic equipment is described first transmitting power, obtain at least one messaging parameter for characterizing communication quality, particularly as follows: when the current transmitting power of described electronic equipment is described first transmitting power, it is thus achieved that the first transfer rate of described WAP and the first carrier-to-noise ratio.

Optionally, described based at least one messaging parameter described, judge whether to need to adjust described current transmitting power, obtain the first judged result, particularly as follows: preset corresponding relation based on described first transfer rate, described first carrier-to-noise ratio and, it is thus achieved that first corresponding with described first transfer rate and described first carrier-to-noise ratio presets transmitting power；Judge that whether the described first default transmitting power is different from described first transmitting power, it is thus achieved that described first judged result.

Optionally, when described electronic equipment has the N number of transmitting power including the first transmitting power, wherein, when i-th transmitting power is more than i+1 transmitting power, N is the natural number be more than or equal to 2, i is the natural number less than or equal to N-1, and described first transmitting power is particularly as follows: described most high emission power；Or based on default transfer rate, the corresponding relation of carrier-to-noise ratio and transmitting power, and the first transfer rate of the described WAP obtained when communicating with described first transmitting power and the first carrier-to-noise ratio, it is thus achieved that first preset transmitting power.

Optionally, when described first transmitting power is described most high emission power, described based at least one messaging parameter described, judge whether to need to adjust described current transmitting power, obtain the first judged result, particularly as follows: taking i successively is 2 to N-1, it is judged that whether the i bit error rate corresponding to i-th transmitting power in described N number of transmitting power is preset lower than one and allowed the bit error rate, it is thus achieved that the second judged result；Judge whether i+1 the bit error rate corresponding to described i+1 transmitting power allows the bit error rate higher than described presetting, it is thus achieved that the 3rd judged result；Based on described second judged result and described 3rd judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described second judged result and described 3rd judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Optionally, it is described when described first judged result is for being, described current transmitting power is adjusted to the selected transmitting power different from described first transmitting power from described first power, particularly as follows: when described first judged result is for being, determine that described i-th transmitting power is described selected transmitting power, and described current transmitting power is adjusted to described selected transmitting power.

Optionally, when described first transmitting power is the described first default transmitting power, and described first preset transmitting power when being jth transmitting power in described N number of transmitting power, wherein, j is the natural number less than or equal to N-1, described based at least one messaging parameter described, judge whether to need to adjust described current transmitting power, obtain the first judged result, particularly as follows: judge whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, it is thus achieved that the 4th judged result；When described 4th judged result is for being, taking k successively is j to N-1, it is judged that whether the k bit error rate corresponding to kth transmitting power in described N number of transmitting power allows the bit error rate lower than described presetting, it is thus achieved that the 5th judged result；Judge whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 6th judged result；Based on described 5th judged result and described 6th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described 5th judged result and described 6th judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Optionally, when described first transmitting power is the described first default transmitting power, and described first preset transmitting power when being jth transmitting power in described N number of transmitting power, wherein, j is the natural number less than or equal to N-1, described based at least one messaging parameter described, judge whether to need to adjust described current transmitting power, obtain the first judged result, specifically include: judge whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, it is thus achieved that the 4th judged result；When described 4th judged result is no, taking k successively is j to 1, it is judged that whether the j bit error rate corresponding to jth transmitting power in described N number of transmitting power allows the bit error rate lower than described presetting, it is thus achieved that the 7th judged result；Judge whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 8th judged result；Based on described 7th judged result and described 8th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described 7th judged result and described 8th judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Optionally, it is described when described first judged result is for being, described current transmitting power is adjusted to the final transmitting power different from described first transmitting power from described first power, particularly as follows: when described first judged result is for being, determine that described kth transmitting power is described selected transmitting power, and described current transmitting power is adjusted to described selected transmitting power.

Another aspect according to the application, a kind of electronic equipment is provided, described electronic equipment can pass through WLAN and WAP communication, specifically include: obtain unit, for when the current transmitting power of described electronic equipment is the first transmitting power, it is thus achieved that for characterizing at least one messaging parameter of communication quality；Judging unit, for based at least one messaging parameter described, it may be judged whether need to adjust described current transmitting power, it is thus achieved that the first judged result；Adjustment unit, for when described first judged result is for being, is adjusted to the selected transmitting power different from described first transmitting power by described current transmitting power from described first power；Wherein, described first transmitting power and described selected transmitting power has at least the transmitting power most high emission power less than described electronic equipment.

Optionally, described acquisition unit, particularly as follows: when the current transmitting power of described electronic equipment is described first transmitting power, it is thus achieved that the first transfer rate of described WAP and the first carrier-to-noise ratio.

Optionally, described judging unit, particularly as follows: obtain module, for presetting corresponding relation based on described first transfer rate, described first carrier-to-noise ratio and, it is thus achieved that first corresponding with described first transfer rate and described first carrier-to-noise ratio presets transmitting power；Judge module, is used for judging that whether the described first default transmitting power is different from described first transmitting power, it is thus achieved that described first judged result.

Optionally, when described electronic equipment has the N number of transmitting power including the first transmitting power, wherein, when i-th transmitting power is more than i+1 transmitting power, N is the natural number be more than or equal to 2, i is the natural number less than or equal to N-1, and described first transmitting power is particularly as follows: described most high emission power；Or

Based on default transfer rate, the corresponding relation of carrier-to-noise ratio and transmitting power, and the first transfer rate of the described WAP obtained when communicating with described first transmitting power and the first carrier-to-noise ratio, it is thus achieved that first preset transmitting power.

Optionally, described judging unit, particularly as follows: the first judge module, for when described first transmitting power is described most high emission power, taking i successively is 2 to N-1, judge that whether the i bit error rate corresponding to the i-th transmitting power in described N number of transmitting power preset lower than one and allow the bit error rate, it is thus achieved that the second judged result；Second judge module, described default allows the bit error rate for judging whether i+1 the bit error rate corresponding to described i+1 transmitting power is higher than, it is thus achieved that the 3rd judged result；3rd judge module, for based on described second judged result and described 3rd judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described second judged result and described 3rd judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Optionally, described adjustment unit, particularly as follows: when described first judged result is for being, it is determined that described i-th transmitting power is described selected transmitting power, and described current transmitting power is adjusted to described selected transmitting power.

Optionally, described judging unit, particularly as follows: the 4th judge module, for when described first transmitting power be described first preset transmitting power, and described first preset transmitting power when being jth transmitting power in described N number of transmitting power, wherein, j is the natural number less than or equal to N-1, judge whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, it is thus achieved that the 4th judged result；5th judge module, for when described 4th judged result is for being, taking k successively is j to N-1, it is judged that whether the k bit error rate corresponding to kth transmitting power in described N number of transmitting power default allow the bit error rate lower than described, it is thus achieved that the 5th judged result；6th judge module, for judging whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 6th judged result；7th judge module, for based on described 5th judged result and described 6th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described 5th judged result and described 6th judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Optionally, described judging unit, specifically include: the 8th judge module, for when described first transmitting power be described first preset transmitting power, and described first preset transmitting power when being jth transmitting power in described N number of transmitting power, wherein, j is the natural number less than or equal to N-1, judge whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, it is thus achieved that the 4th judged result；9th judge module, for the when described 4th judged result is no, taking k successively is j to 1, it is judged that whether the j bit error rate corresponding to jth transmitting power in described N number of transmitting power allows the bit error rate lower than described presetting, it is thus achieved that the 7th judged result；Tenth judge module, for judging whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 8th judged result；11st judge module, based on described 7th judged result and described 8th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described 7th judged result and described 8th judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Optionally, described adjustment unit, particularly as follows: when described first judged result is for being, it is determined that described kth transmitting power is described selected transmitting power, and described current transmitting power is adjusted to described selected transmitting power.

Said one in the embodiment of the present application or multiple technical scheme, at least have one or more technique effects following and advantage:

Due to the technical scheme in the embodiment of the present application, based at least one messaging parameter, needs according to electronic equipment, adjusting transmitting power, compared in prior art, mobile terminal only carries out signal transmitting with most high emission power, can not according to messaging parameter, adjusting the power that electronic equipment needs, the technical scheme causing the power consumption of mobile terminal high can effectively solve the problem that the mobile terminal existed in prior art exists the technical problem that power consumption is high, and then realizes reducing the technique effect of mobile terminal power consumption.

Accompanying drawing explanation

Fig. 1 is the flow chart of a kind of information processing method in the embodiment of the present application；

Fig. 2 be in a kind of information processing method of the embodiment of the present application under the first embodiment step S102 implement flow chart；

Fig. 3 be in a kind of information processing method of the embodiment of the present application under the first embodiment step S102 implement flow chart；

Fig. 4 be in a kind of information processing method of the embodiment of the present application under the third embodiment the first situation of step S102 implement flow chart；

Fig. 5 be in a kind of information processing method of the embodiment of the present application under the third embodiment step S102 the second situation implement flow chart；

Fig. 6 is the structure chart of a kind of electronic equipment in the embodiment of the present application.

Detailed description of the invention

Technical scheme in the embodiment of the present application is solve above-mentioned technical problem, general thought is as follows: a kind of information processing method, it is applied in electronic equipment, described electronic equipment can pass through WLAN and WAP communication, described method includes: when the current transmitting power of described electronic equipment is the first transmitting power, it is thus achieved that for characterizing at least one messaging parameter of communication quality；Based at least one messaging parameter described, it may be judged whether need to adjust described current transmitting power, it is thus achieved that the first judged result；When described first judged result is for being, described current transmitting power is adjusted to the selected transmitting power different from described first transmitting power from described first power；Wherein, described first transmitting power and described selected transmitting power has at least the transmitting power most high emission power less than described electronic equipment.

In above-mentioned technical scheme, due to the technical scheme in the embodiment of the present application, based at least one messaging parameter, needs according to electronic equipment, adjust transmitting power, compared in prior art, mobile terminal only carries out signal transmitting with most high emission power, can not according to messaging parameter, adjust the power that electronic equipment needs, the technical scheme causing the power consumption of mobile terminal high can effectively solve the problem that the mobile terminal existed in prior art exists the technical problem that power consumption is high, and then realizes reducing the technique effect of mobile terminal power consumption.

In order to be better understood from technique scheme, below in conjunction with Figure of description and specific embodiment, the technical scheme in the embodiment of the present application is described in detail.

Embodiment one

In order to allow those skilled in the art can know the technical scheme intactly understanding in the embodiment of the present application, in specific descriptions below, to illustrate for electronic equipment for mobile phone, below in conjunction with example, that introduces method in the embodiment of the present application implements process:

Refer to Fig. 1, embodiments herein one provides the process that implements of a kind of information processing method to be described.The method comprises the steps:

S101: when the current transmitting power of described electronic equipment is the first transmitting power, it is thus achieved that for characterizing at least one messaging parameter of communication quality；

S102: based at least one messaging parameter described, it may be judged whether need to adjust described current transmitting power, it is thus achieved that the first judged result；

S103: when described first judged result is for being, is adjusted to the selected transmitting power different from described first transmitting power by described current transmitting power from described first power；Wherein, described first transmitting power and described selected transmitting power has at least the transmitting power most high emission power less than described electronic equipment.

Further, at least one messaging parameter is particularly as follows: the first transfer rate of WAP and the first carrier-to-noise ratio.

Further, refer to Fig. 2, in the step S102 process implemented, specifically include:

S201: preset corresponding relation based on described first transfer rate, described first carrier-to-noise ratio and, it is thus achieved that first corresponding with described first transfer rate and described first carrier-to-noise ratio presets transmitting power；

S202: judge that whether the described first default transmitting power is different from described first transmitting power, it is thus achieved that described first judged result.

Further, described first transmitting power, particularly as follows: the most high emission power of electronic equipment, or be described first predetermined power.Meanwhile, the parameter characterizing communicating line quality is also not limited only to the transfer rate of carrier-to-noise ratio and signal.

The second embodiment, refer to Fig. 3, when the first transmitting power is described most high emission power, and when the parameter characterizing communicating line quality is the bit error rate, and the specific implementation process of step S102, specifically include:

S501: taking i successively is 2 to N-1, it is judged that whether the i bit error rate corresponding to i-th transmitting power in described N number of transmitting power is preset lower than one and allowed the bit error rate, it is thus achieved that the second judged result；

S502: judge whether i+1 the bit error rate corresponding to described i+1 transmitting power allows the bit error rate higher than described presetting, it is thus achieved that the 3rd judged result；

S503: based on described second judged result and described 3rd judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described second judged result and described 3rd judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Further, under the second embodiment, step S103 is particularly as follows: when described first judged result is for being, it is determined that described i-th transmitting power is described selected transmitting power, and described current transmitting power is adjusted to described selected transmitting power.

The third embodiment, when the first transmitting power is not most high emission power, it may be possible to the empirical value that user rule of thumb obtains, then, step S102 specifically has again two ways, refer to the first kind of way of Fig. 4, step S102, specifically includes:

S701: judge whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, it is thus achieved that the 4th judged result；

S702: when described 4th judged result is for being, taking k successively is j to N-1, it is judged that whether the k bit error rate corresponding to kth transmitting power in described N number of transmitting power allows the bit error rate lower than described presetting, it is thus achieved that the 5th judged result；

S703: judge whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 6th judged result；

S704: based on described 5th judged result and described 6th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described 5th judged result and described 6th judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Further, refer to Fig. 5, the second way of the step S102 in the third embodiment, specifically include:

S801: judge whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, it is thus achieved that the 4th judged result；

S802: when described 4th judged result is no, taking k successively is j to 1, it is judged that whether the jth bit error rate corresponding to jth transmitting power in described N number of transmitting power allows the bit error rate lower than described presetting, it is thus achieved that the 7th judged result；

S803: judge whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 8th judged result；

S804: based on described 7th judged result and described 8th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described 7th judged result and described 8th judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Further, no matter in the process realizing step S102, what adopt is first kind of way, or the second way, after execution of step S102, will perform step S103, now, step S103 is particularly as follows: when described first judged result is for being, it is determined that described kth transmitting power is described selected transmitting power, and described current transmitting power is adjusted to described selected transmitting power.Below by specific example, what describe information processing method in the embodiment of the present application implements process:

User, connects neighbouring wlan signal source by mobile phone, for instance, mobile phone is got involved on a-signal source by the wlan function opening mobile phone, it is assumed that the signal transmission power of mobile phone now is 14dbm.Now mobile phone will perform step S101: when the current transmitting power of described electronic equipment is the first transmitting power, it is thus achieved that for characterizing at least one messaging parameter of communication quality；Specifically, mobile phone is when being connected mobile phone itself with a-signal source by wlan, at least one messaging parameter characterizing this communicating line quality can be obtained, be specifically as follows peak transfer rate and the now carrier-to-noise ratio on communication line of the permission in this a-signal source.Assuming now, the peak transfer rate that a-signal source allows is 54Mbps, and simultaneously now the carrier-to-noise ratio on this communication line is 7dBHz.

After completing step S101, perform step S102: based at least one messaging parameter described, it may be judged whether need to adjust described current transmitting power, it is thus achieved that the first judged result；More specifically, mobile phone will perform step S201: presets corresponding relation based on described first transfer rate, described first carrier-to-noise ratio and, it is thus achieved that first corresponding with described first transfer rate and described first carrier-to-noise ratio presets transmitting power；Continue the example above specifically, it is assumed that carrier-to-noise ratio and the transmitting power of electronic equipment on the transfer rate of electronic equipment, present communications circuit meet default relation such as following table one.

Table one:

It should be noted that corresponding relation in Table 1 is the part in numerous corresponding relation, only describes a kind of information processing method of the application with this, and be not a kind of restriction.Continuing the example above, mobile phone is obtaining the first transfer rate and the first carrier-to-noise ratio, and the first transfer rate as the aforementioned is 54Mbps, and the first carrier-to-noise ratio is 7dBm.So according to the two parameter, and table one, it is possible to obtain the first predetermined power of now mobile phone, be specially 12dBm.

After step S201 completes, perform step S202: judge that whether the described first default transmitting power is different from described first transmitting power, it is thus achieved that described first judged result.Continue the example above, specifically, owing to the signal transmission power of aforesaid mobile phone is arranged for 14dBm, the power so now preset is 12dBm, so the first default transmitting power differs with the first transmitting power, mobile phone just obtains the first judged result, and it is yes for being specially the first judged result, and now mobile phone is accomplished by adjusting transmitting power.

After step S202 completes, perform step S103: when described first judged result is for being, described current transmitting power is adjusted to the selected transmitting power different from described first transmitting power from described first power；Continue the example above specifically, owing to now mobile phone needs to adjust transmitting power, then now, current transmitting power is adjusted to 12dBm by mobile phone.

The second embodiment, carrier-to-noise ratio on communication line and signal transmission rate are not unique standards, can also according to the bit error rate of signal transmission, obtain mobile phone the need of adjusting transmitting power, more concrete, if assuming when now user's mobile phone transmitting power now is the most high emission power that mobile phone is arranged, it is assumed to be 14dBm, the optional of mobile phone signal occurs power as follows simultaneously: 14dBm, 10dBm and 7dBm, so mobile phone is when concrete execution step S102, step S501 will be first carried out: taking i successively is 2 to N-1, judge that whether the i bit error rate corresponding to the i-th transmitting power in described N number of transmitting power preset lower than one and allow the bit error rate, obtain the second judged result；Continue the example above specifically, because now the optional transmitting power of mobile phone signal is 3, namely N is 3, so corresponding i is just 2, certainly, if the numerical value of the optional transmitting power of mobile phone signal is more many, the value of corresponding i is also more many, such as: when the value of N is 4, the value of i is just 2 or 3, and when N is 5, the value of i is just 2 to 4, the like, certainly, the value of N is more many, and controllable concrete transmitting power is also more many, corresponding also more accurate, those skilled in the art can carry out concrete setting according to concrete operational factor.Now, assume that default in the process that signal transmits of mobile phone allows that the bit error rate is 5%, when i is 2, assume now under the 2nd transmitting power, namely the mobile phone bit error rate under 10dBm transmitting power is 3%, so judge under this transmitting power that whether the 2nd the corresponding bit error rate default allow the bit error rate lower than above-mentioned, it is clear that judged result now is yes.Certainly, if i is other values, the mode implemented is similar to said method, here just repeats no more.

After step S501 completes, perform step S502: judge whether i+1 the bit error rate corresponding to described i+1 transmitting power is higher than and described default allow the bit error rate, it is thus achieved that the 3rd judged result；Continue the example above specifically, according to step S501, the value of i is 2, when so now mobile phone performs step S502, will determine that whether the transmitting power of the mobile phone bit error rate under the 3rd transmitting power default allows the bit error rate higher than above-mentioned, assuming that now mobile phone is under the 3rd transmitting power, namely the transmitting power of mobile phone is the mobile phone bit error rate under 7dBm is 7%, it is clear that judged result now is just yes.Certainly, if i is other values, the mode implemented is similar to said method, here just repeats no more.

After completing step S502, perform step S503: based on described second judged result and described 3rd judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described second judged result and described 3rd judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.Continue the example above specifically, after step S501 and step S502 obtain two judged results, because the two judged result is all yes, so mobile phone just obtains a sign mobile phone the need of the judged result adjusted, more specifically, now mobile phone needs to adjust current transmitting power.

After step S503 completes, perform step S103: when described first judged result is for being, it is determined that described i-th transmitting power is described selected transmitting power, and described current transmitting power is adjusted to described selected transmitting power.Continuing the example above specifically, now mobile phone is by the 2nd transmitting power, and namely 10dBm is defined as the transmitting power of current phone signal, and now, mobile phone is adjusted to 10dBm by controlling current transmitting power from 14dBm.

Certainly, if the transmitting power of current mobile phone is not the maximum transmitting power of mobile phone signal, it is probably the preset value that mobile phone is arranged, the transmitting power assuming now mobile phone is 12dBm, and, now the optional transmitting power of mobile phone signal is 5, particularly as follows: 14dBm, 13dBm, 12dBm, 11dBm and 10dBm, simultaneously, now default in data transmission procedure of mobile phone allows that the bit error rate is 5%, so mobile phone will implement the third embodiment, more specifically, mobile phone will perform step S801: judges whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, obtain the 4th judged result；Continue the example above specifically, mobile phone obtains mobile phone under the transmitting power of 12dBm, namely mobile phone is under the 3rd optional transmitting power, the bit error rate of mobile phone is specially 4%, so now judge that current mobile phone is under the 3rd optional transmitting power, whether the bit error rate of mobile phone allows the bit error rate 5% lower than presetting, it is clear that judged result now is yes.

After step S701 completes, perform step S702: when described 4th judged result is for being, taking k successively is j to N-1, it is judged that whether the k bit error rate corresponding to kth transmitting power in described N number of transmitting power allows the bit error rate lower than described presetting, it is thus achieved that the 5th judged result；Continue the example above specifically, owing to the transmitting power of now mobile phone is specially the 3rd transmitting power: 12dBm, so j now is 3, then k just can take 3 and 4.Concrete, when k is 3, it is judged that the now mobile phone bit error rate under the 3rd transmitting power, namely the bit error rate is 4% as the aforementioned, so now less than presetting, the bit error rate under the 3rd transmitting power allows that the bit error rate, concrete judged result are yes.Certainly, when i is 4, specific embodiment is similar to above-mentioned steps, here just repeats no more.

After step S702 completes, perform step S703: judge whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 6th judged result；Continue the example above specifically, when k is 3, mobile phone will determine that the bit error rate under the 4th transmitting power, namely when the transmitting power of mobile phone is specially 11dBm, the bit error rate of mobile phone is specially 4%, so now, judge whether the bit error rate corresponding under the 4th transmitting power allows the bit error rate higher than presetting, obviously, the result of judgement now is no, continue to judge when i is 4, now the mobile phone bit error rate under the transmitting power of 10dBm is 8%, judged result so now is just yes, wherein, when i is 4, specific embodiment is similar to above-mentioned steps, here just repeat no more.

After step S703 completes, perform step S704: based on described 5th judged result and described 6th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described 5th judged result and described 6th judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.Continuing the example above specifically, owing to the judged result of step S702 is yes, the judged result of step S703 is yes, then now the judged result of step S804 is just yes, and namely mobile phone now needs to adjust the transmitting power of mobile phone.

After step S704 completes, mobile phone will perform step S103: when described first judged result is for being, from described first power, described current transmitting power is adjusted to the selected transmitting power different from described first transmitting power；Continuing the example above specifically, now mobile phone has determined that needs to adjust transmitting power now, and afterwards, the transmitting power controlling mobile phone signal is adjusted to 11dBm from current transmitting power 12dBm.

Certainly, if under current transmitting power, namely mobile phone is under the transmitting power of 12dBm, the bit error rate of mobile phone may be above presetting allows the bit error rate, it is specially mobile phone and performs step S801: judge whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, it is thus achieved that the 4th judged result；Continuing the example above specifically, it is assumed that now mobile phone is under the transmitting power of 12dBm, the bit error rate of mobile phone is specially 6%, and namely now the bit error rate of mobile phone allows the bit error rate more than presetting, and namely judged result now is no.

After step S801 completes, perform step S802: when described 4th judged result is no, taking k successively is j to 1, it is judged that whether the j bit error rate corresponding to jth transmitting power in described N number of transmitting power allows the bit error rate lower than described presetting, it is thus achieved that the 7th judged result；Continuing the example above specifically, now the value of k is specially 3,2,1.Concrete, when k is 3, thus now, under the 3rd transmitting power, the bit error rate of mobile phone is 6%, then be unsatisfactory for the 3rd bit error rate lower than presetting the requirement allowing the bit error rate.So, continue executing with this step, when k is 2, namely mobile phone is under the 2nd transmitting power, i.e. the mobile phone bit error rate under the transmitting power of 13dBm, it is assumed that be 3%, so now the bit error rate under the 2nd transmitting power is lower than presetting and allows the bit error rate 5%, it is clear that judged result now is just yes.

After step S802 completes, perform step S803: judge whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 8th judged result；Continue the example above specifically, when k is 2, mobile phone will determine that the bit error rate under+1 transmitting power of kth, the i.e. mobile phone bit error rate under the 3rd transmitting power, because in above-mentioned steps, the bit error rate under the 3rd transmitting power of mobile phone is 6%, that is, the bit error rate of the mobile phone under the 3rd transmitting power is above presetting allows the bit error rate 5%, then obviously, judged result now is just yes.

After step S803 completes, perform step S804: based on described 7th judged result and described 8th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；Wherein, when described 7th judged result and described 8th judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.Continuing the example above specifically, due to the judged result of above-mentioned steps S802 and step S803, then now, the judged result of step S804 is just yes, and namely mobile phone now needs to adjust the transmitting power of mobile phone.

After step S804 completes, mobile phone will perform step S103: when described first judged result is for being, from described first power, described current transmitting power is adjusted to the selected transmitting power different from described first transmitting power；Continuing the example above specifically, now mobile phone has determined that needs to adjust transmitting power now, and afterwards, the transmitting power controlling mobile phone signal is adjusted to 13dBm from current transmitting power 12dBm.

No matter which kind of embodiment above-mentioned, mobile phone according to the quality of the communication line of mobile phone self, can adjust current transmitting power, so under the premise ensureing communication quality, optimizes current transmitting power, reduces unnecessary power consumption.Embodiment two

Refer to Fig. 6, in the embodiment of the present application, also provide for a kind of electronic equipment based on same inventive concept, specifically include:

Obtain unit 10, for when the current transmitting power of described electronic equipment is the first transmitting power, it is thus achieved that for characterizing at least one messaging parameter of communication quality；

Judging unit 20, for based at least one messaging parameter described, it may be judged whether need to adjust described current transmitting power, it is thus achieved that the first judged result；

Adjustment unit 30, for when described first judged result is for being, is adjusted to the selected transmitting power different from described first transmitting power by described current transmitting power from described first power；

Wherein, described first transmitting power and described selected transmitting power has at least the transmitting power most high emission power less than described electronic equipment.

Optionally, it is thus achieved that unit 10, particularly as follows:

When the current transmitting power of described electronic equipment is described first transmitting power, it is thus achieved that the first transfer rate of described WAP and the first carrier-to-noise ratio.

Optionally, it is judged that unit 20, particularly as follows:

Obtain module, for based on default transfer rate, carrier-to-noise ratio and the triangular corresponding relation of transmitting power, it is thus achieved that first corresponding with described first transfer rate and described first carrier-to-noise ratio presets transmitting power；

Judge module, is used for judging that whether the described first default transmitting power is different from described first transmitting power, it is thus achieved that described first judged result.

Optionally, when described electronic equipment has the N number of transmitting power including the first transmitting power, wherein, when i-th transmitting power is more than i+1 transmitting power, N is the natural number be more than or equal to 2, and i is the natural number less than or equal to N-1, described first transmitting power particularly as follows:

Described most high emission power；Or

Optionally, it is judged that unit 20, particularly as follows:

First judge module, for when described first transmitting power is described most high emission power, taking i successively is 2 to N-1, it is judged that whether the i bit error rate corresponding to i-th transmitting power in described N number of transmitting power is preset lower than one and allowed the bit error rate, it is thus achieved that the second judged result；

Second judge module, described default allows the bit error rate for judging whether i+1 the bit error rate corresponding to described i+1 transmitting power is higher than, it is thus achieved that the 3rd judged result；

3rd judge module, for based on described second judged result and described 3rd judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；

Wherein, when described second judged result and described 3rd judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Optionally, adjustment unit 30, particularly as follows:

When described first judged result is for being, it is determined that described i-th transmitting power is described selected transmitting power, and described current transmitting power is adjusted to described selected transmitting power.

Optionally, it is judged that unit 20, particularly as follows:

4th judge module, for when described first transmitting power be described first preset transmitting power, and described first preset transmitting power when being jth transmitting power in described N number of transmitting power, wherein, j is the natural number less than or equal to N-1, judge whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, it is thus achieved that the 4th judged result；

5th judge module, for when described 4th judged result is for being, taking k successively is j to N-1, it is judged that whether the k bit error rate corresponding to kth transmitting power in described N number of transmitting power default allow the bit error rate lower than described, it is thus achieved that the 5th judged result；

6th judge module, for judging whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 6th judged result；

7th judge module, for based on described 5th judged result and described 6th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；

Wherein, when described 5th judged result and described 6th judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Optionally, it is judged that unit 20, specifically include:

8th judge module, for when described first transmitting power be described first preset transmitting power, and described first preset transmitting power when being jth transmitting power in described N number of transmitting power, wherein, j is the natural number less than or equal to N-1, judge whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, it is thus achieved that the 4th judged result；

9th judge module, for the when described 4th judged result is no, taking k successively is j to 1, it is judged that whether the j bit error rate corresponding to jth transmitting power in described N number of transmitting power allows the bit error rate lower than described presetting, it is thus achieved that the 7th judged result；

Tenth judge module, for judging whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 8th judged result；

11st judge module, based on described 7th judged result and described 8th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；

Wherein, when described 7th judged result and described 8th judged result are all for being, described first judged result is yes, namely demonstrates the need for adjusting described current transmitting power.

Optionally, adjustment unit 30, particularly as follows:

When described first judged result is for being, it is determined that described kth transmitting power is described selected transmitting power, and described current transmitting power is adjusted to described selected transmitting power.

Due to above-mentioned electronic equipment and aforesaid a kind of information processing method one_to_one corresponding, so just repeating no more at this.

By the one or more technical schemes in the embodiment of the present application, it is possible to achieve following one or more technique effects:

Those skilled in the art are it should be appreciated that embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, complete software implementation or the embodiment in conjunction with software and hardware aspect.And, the present invention can adopt the form at one or more upper computer programs implemented of computer-usable storage medium (including but not limited to disk memory, CD-ROM, optical memory etc.) wherein including computer usable program code.

The present invention is that flow chart and/or block diagram with reference to method according to embodiments of the present invention, equipment (system) and computer program describe.It should be understood that can by the combination of the flow process in each flow process in computer program instructions flowchart and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can be provided to produce a machine to the processor of general purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device so that the instruction performed by the processor of computer or other programmable data processing device is produced for realizing the device of function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

These computer program instructions may be alternatively stored in and can guide in the computer-readable memory that computer or other programmable data processing device work in a specific way, the instruction making to be stored in this computer-readable memory produces to include the manufacture of command device, and this command device realizes the function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices provides for realizing the step of function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

Specifically, the computer program instructions that a kind of information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions corresponding with a kind of information processing method in storage medium is read by an electronic equipment or be performed, comprise the steps:

When the current transmitting power of described electronic equipment is the first transmitting power, it is thus achieved that for characterizing at least one messaging parameter of communication quality；

Based at least one messaging parameter described, it may be judged whether need to adjust described current transmitting power, it is thus achieved that the first judged result；

When described first judged result is for being, described current transmitting power is adjusted to the selected transmitting power different from described first transmitting power from described first power；

Optionally, in described storage medium storage and step: when the current transmitting power of described electronic equipment is described first transmitting power, obtaining at least one messaging parameter for characterizing communication quality, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Optionally, in described storage medium storage and step: based at least one messaging parameter described, it may be judged whether need adjust described current transmitting power, it is thus achieved that the first judged result, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Corresponding relation is preset, it is thus achieved that first corresponding with described first transfer rate and described first carrier-to-noise ratio presets transmitting power based on described first transfer rate, described first carrier-to-noise ratio and；

Judge that whether the described first default transmitting power is different from described first transmitting power, it is thus achieved that described first judged result.

Optionally, in described storage medium storage and step: when described electronic equipment has the N number of transmitting power including the first transmitting power, wherein, when i-th transmitting power is more than i+1 transmitting power, N is the natural number be more than or equal to 2, i is the natural number less than or equal to N-1, and computer instruction corresponding to described first transmitting power is specifically being performed in process, specifically includes following steps:

Described most high emission power；Or

Optionally, in described storage medium storage and step: when described first transmitting power is described most high emission power, described based at least one messaging parameter described, judge whether to need to adjust described current transmitting power, obtain the first judged result, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Taking i successively is 2 to N-1, it is judged that whether the i bit error rate corresponding to i-th transmitting power in described N number of transmitting power is preset lower than one and allowed the bit error rate, it is thus achieved that the second judged result；

Judge whether i+1 the bit error rate corresponding to described i+1 transmitting power allows the bit error rate higher than described presetting, it is thus achieved that the 3rd judged result；

Based on described second judged result and described 3rd judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；

Optionally, in described storage medium storage and step: when described first judged result is for being, described current transmitting power is adjusted to the selected transmitting power different from described first transmitting power from described first power, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Optionally, in described storage medium storage and step: when described first transmitting power be described first preset transmitting power, and described first preset transmitting power when being jth transmitting power in described N number of transmitting power, wherein, j is the natural number less than or equal to N-1, described based at least one messaging parameter described, judge whether to need to adjust described current transmitting power, obtaining the first judged result, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Judge whether the described first first default bit error rate presetting transmitting power corresponding allows the bit error rate lower than presetting, it is thus achieved that the 4th judged result；

When described 4th judged result is for being, taking k successively is j to N-1, it is judged that whether the k bit error rate corresponding to kth transmitting power in described N number of transmitting power allows the bit error rate lower than described presetting, it is thus achieved that the 5th judged result；

Judge whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 6th judged result；

Based on described 5th judged result and described 6th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；

When described 4th judged result is no, taking k successively is j to 1, it is judged that whether the j bit error rate corresponding to jth transmitting power in described N number of transmitting power allows the bit error rate lower than described presetting, it is thus achieved that the 7th judged result；

Judge whether+1 bit error rate of kth corresponding to+1 transmitting power of described kth allows the bit error rate higher than described presetting, it is thus achieved that the 8th judged result；

Based on described 7th judged result and described 8th judged result, it may be judged whether need to adjust described current transmitting power, it is thus achieved that described first judged result；

Optionally, in described storage medium storage and step: when described first judged result is for being, described current transmitting power is adjusted to the final transmitting power different from described first transmitting power from described first power, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Although preferred embodiments of the present invention have been described, 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 scope of the invention.

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

1. an information processing method, in an electronic equipment, described electronic equipment can pass through WLAN and WAP communication, and described method includes:

2. the method for claim 1, it is characterised in that described when the current transmitting power of described electronic equipment is described first transmitting power, it is thus achieved that for characterizing at least one messaging parameter of communication quality, particularly as follows:

3. method as claimed in claim 2, it is characterised in that described based at least one messaging parameter described, it may be judged whether need to adjust described current transmitting power, it is thus achieved that the first judged result, particularly as follows:

4. the method for claim 1, it is characterized in that, when described electronic equipment has the N number of transmitting power including the first transmitting power, wherein, when i-th transmitting power is more than i+1 transmitting power, N is the natural number be more than or equal to 2, and i is the natural number less than or equal to N-1, described first transmitting power particularly as follows:

Described most high emission power；Or

5. method as claimed in claim 4, it is characterised in that when described first transmitting power is described most high emission power, described based at least one messaging parameter described, judge whether to need to adjust described current transmitting power, it is thus achieved that the first judged result, particularly as follows:

6. method as claimed in claim 5, it is characterised in that described when described first judged result is for being, is adjusted to the selected transmitting power different from described first transmitting power by described current transmitting power from described first power, particularly as follows:

7. method as claimed in claim 4, it is characterized in that, when described first transmitting power is the described first default transmitting power, and described first preset transmitting power when being jth transmitting power in described N number of transmitting power, wherein, j is the natural number less than or equal to N-1, described based at least one messaging parameter described, judge whether to need to adjust described current transmitting power, it is thus achieved that the first judged result, particularly as follows:

8. method as claimed in claim 4, it is characterized in that, when described first transmitting power is the described first default transmitting power, and described first preset transmitting power when being jth transmitting power in described N number of transmitting power, wherein, j is the natural number less than or equal to N-1, described based at least one messaging parameter described, judge whether to need to adjust described current transmitting power, it is thus achieved that the first judged result, specifically include:

9. as claimed in claim 7 or 8 method, it is characterised in that described when described first judged result is for being, is adjusted to the final transmitting power different from described first transmitting power by described current transmitting power from described first power, particularly as follows:

10. an electronic equipment, described electronic equipment can pass through WLAN and WAP communication, and described electronic equipment includes:

Obtain unit, for when the current transmitting power of described electronic equipment is the first transmitting power, it is thus achieved that for characterizing at least one messaging parameter of communication quality；

Judging unit, for based at least one messaging parameter described, it may be judged whether need to adjust described current transmitting power, it is thus achieved that the first judged result；

Adjustment unit, for when described first judged result is for being, is adjusted to the selected transmitting power different from described first transmitting power by described current transmitting power from described first power；

11. electronic equipment as claimed in claim 10, it is characterised in that described acquisition unit, particularly as follows:

12. electronic equipment as claimed in claim 11, it is characterised in that described judging unit, particularly as follows:

Obtain module, for presetting corresponding relation based on described first transfer rate, described first carrier-to-noise ratio and, it is thus achieved that first corresponding with described first transfer rate and described first carrier-to-noise ratio presets transmitting power；

13. electronic equipment as claimed in claim 10, it is characterized in that, when described electronic equipment has the N number of transmitting power including the first transmitting power, wherein, when i-th transmitting power is more than i+1 transmitting power, N is the natural number be more than or equal to 2, and i is the natural number less than or equal to N-1, described first transmitting power particularly as follows:

Described most high emission power；Or

14. electronic equipment as claimed in claim 13, it is characterised in that described judging unit, particularly as follows:

15. electronic equipment as claimed in claim 14, it is characterised in that described adjustment unit, particularly as follows:

16. electronic equipment as claimed in claim 13, it is characterised in that described judging unit, particularly as follows:

17. electronic equipment as claimed in claim 13, it is characterised in that described judging unit, specifically include:

18. the electronic equipment as described in claim 16 or 17, it is characterised in that described adjustment unit, particularly as follows: