CN106330347A - Radio frequency parameter adjusting method and device - Google Patents

Abstract

The invention provides a radio frequency parameter adjusting method and device. The method comprises: hand-held state data that are collected by sensors at hand-held areas at two sides when terminal equipment carries out communication are obtained; according to the hand-held state data, a current hand-held state of the terminal equipment is determined; and a radio frequency parameter of the terminal equipment is adjusted to be a target radio frequency parameter matching the current hand-held state. Therefore, a problem of a poor communication effect caused by same radio frequency parameter utilization in different communication scenes according to a related technology can be solved.

Description

The method of adjustment of radio frequency parameter and device

Technical field

The present invention relates to the communications field, in particular to method of adjustment and the device of a kind of radio frequency parameter.

Background technology

In the communication process of terminal unit, radio-frequency performance is as one of very important performance indications of terminal unit, and it is right The value of the radio frequency parameter answered is different, also the communication efficiency of terminal unit will be produced Different Effects.Wherein, a station terminal Whether the radio frequency parameter of equipment reaches optimum, has the biggest association with environmental factors, and here, environmental factors can be outside logical Letter environment, it is also possible to be the object directly contacted with terminal unit, such as, the operator of handheld terminal.

At present, in currently existing scheme, it is the most all to be used uniformly across a set of radio frequency parameter to be widely used in various terminal unit Communication scenes in, the most non-touching is hands-free, left hand is hand-held, the right hand hand-held when, all use same set of radio frequency to join Number, but, for terminal unit, difference holds appearance will have different impacts to radio-frequency performance.Thus, different communication Under scene, the optimum radio frequency parameter that terminal unit is corresponding is the most different, then still use offer in prior art Scheme, then will necessarily affect terminal unit radio-frequency performance under different communication scene, in turn results in terminal equipment in communication effect The most poor problem.

For problem set forth above, effective solution is the most not yet proposed.

Summary of the invention

The invention provides method of adjustment and the device of a kind of radio frequency parameter, at least to solve different communication field in correlation technique The communication efficiency poor that identical radio frequency parameter is caused is used under scape.

According to an aspect of the invention, it is provided the method for adjustment of a kind of radio frequency parameter, including: obtain terminal unit and exist The hand holding state data that during communication, the sensor acquisition in hand-held region, both sides arrives；According in the judgement of above-mentioned hand holding state data State the hand holding state that terminal unit is presently in；The radio frequency parameter of above-mentioned terminal unit is adjusted to and is presently in above-mentioned The target radio frequency parameter of above-mentioned hand holding state coupling.

Alternatively, hand-held region, above-mentioned both sides includes the first hand-held region and the second hand-held region, wherein, according to above-mentioned hands Hold the hand holding state that status data judges that above-mentioned terminal unit is presently in include: obtain in above-mentioned first hand-held region and gather To the number of the first sensor of the first status data, and above-mentioned second hand-held region collects the second status data The number of the second sensor, wherein, above-mentioned hand holding state data include above-mentioned first shape that above-mentioned first sensor collects Above-mentioned second status data that state data and above-mentioned second sensor acquisition arrive；Number according to above-mentioned first sensor is with upper The number stating the second sensor judges the hand holding state that above-mentioned terminal unit is presently in.

Alternatively, above-mentioned first hand-held region is above-mentioned terminal unit in the case of the screen towards above-mentioned terminal unit The hand-held region of left surface, above-mentioned second hand-held region is that above-mentioned terminal sets in the case of the screen towards above-mentioned terminal unit The hand-held region of standby right flank, wherein, judges with the number of above-mentioned second sensor according to the number of above-mentioned first sensor The hand holding state that above-mentioned terminal unit is presently in includes: if the number of above-mentioned first sensor is more than above-mentioned second sensor Number, then judge that the above-mentioned hand holding state being presently in is right hand hand holding state；If the number of above-mentioned first sensor Less than the number of above-mentioned second sensor, then judge that the above-mentioned hand holding state being presently in is left hand hand holding state.

Alternatively, if the number of above-mentioned first sensor is more than the number of above-mentioned second sensor, then judge above-mentioned The hand holding state being presently in is that right hand hand holding state includes: if the number of above-mentioned first sensor makes a reservation for more than or equal to first Threshold value, then judge that the above-mentioned hand holding state being presently in is right hand hand holding state.

Alternatively, if the number of above-mentioned first sensor is less than the number of above-mentioned second sensor, then judge above-mentioned The hand holding state being presently in is that left hand hand holding state includes: if the number of above-mentioned second sensor makes a reservation for more than or equal to second Threshold value, then judge that the above-mentioned hand holding state being presently in is left hand hand holding state.

Alternatively, above-mentioned judge that above-mentioned terminal sets according to the number of above-mentioned first sensor with the number of above-mentioned second sensor The standby hand holding state being presently in includes: if the number of the number of above-mentioned first sensor and above-mentioned second sensor is respectively less than Equal to the 3rd predetermined threshold, then judge that the above-mentioned hand holding state being presently in is for without holding appearance state.

According to a further aspect in the invention, it is provided that the adjusting apparatus of a kind of radio frequency parameter, including: acquiring unit, use The hand holding state data that sensor acquisition in hand-held region, both sides arrives in time obtaining terminal unit in communication；Judging unit, For judging, according to above-mentioned hand holding state data, the hand holding state that above-mentioned terminal unit is presently in；Adjustment unit, being used for will The radio frequency parameter of above-mentioned terminal unit is adjusted to the target radio frequency parameter mated with the above-mentioned above-mentioned hand holding state being presently in.

Alternatively, hand-held region, above-mentioned both sides includes the first hand-held region and the second hand-held region, wherein, above-mentioned judgement list Unit includes: acquisition module, for obtaining the first sensor collecting the first status data in above-mentioned first hand-held region Number, and above-mentioned second hand-held region collect the number of the second sensor of the second status data, wherein, above-mentioned Hand holding state data include above-mentioned first status data that above-mentioned first sensor collects and above-mentioned second sensor acquisition Above-mentioned second status data arrived；Judge module, for the number according to above-mentioned first sensor and above-mentioned second sensor Number judge the hand holding state that above-mentioned terminal unit is presently in.

Alternatively, above-mentioned first hand-held region is above-mentioned terminal unit in the case of the screen towards above-mentioned terminal unit The hand-held region of left surface, above-mentioned second hand-held region is that above-mentioned terminal sets in the case of the screen towards above-mentioned terminal unit The hand-held region of standby right flank；Wherein, above-mentioned judge module includes: first judges submodule, for passing above-mentioned first When the number of sensor is more than the number of above-mentioned second sensor, it is judged that the above-mentioned hand holding state being presently in is that the right hand is hand-held State；Second judges submodule, during for being less than the number of above-mentioned second sensor in the number of above-mentioned first sensor, Judge that the above-mentioned hand holding state being presently in is left hand hand holding state.

Alternatively, above-mentioned first judges by following steps, submodule judges that the above-mentioned hand holding state being presently in is the right hand Hand holding state: if the number of above-mentioned first sensor more than or equal to the first predetermined threshold, then judges above-mentioned being presently in Hand holding state is right hand hand holding state.

Alternatively, above-mentioned second judges by following steps, submodule judges that the above-mentioned hand holding state being presently in is left hand Hand holding state: if the number of above-mentioned second sensor more than or equal to the second predetermined threshold, then judges above-mentioned being presently in Hand holding state is left hand hand holding state.

Alternatively, above-mentioned judge module includes: the 3rd judges submodule, for above-mentioned first sensor number with State the second sensor number be respectively less than equal to three predetermined thresholds time, it is judged that the above-mentioned hand holding state being presently in is nothing Hold appearance state.

In embodiments of the present invention, by the hand holding state data of the sensor acquisition in two side areas in terminal unit, sentence Disconnected hand-held terminal device is at the hand holding state (i.e. holding appearance) being presently in, according to different hand holding states to terminal unit Radio frequency parameter carry out self-adaptative adjustment, adjust to mate with the hand holding state residing for present terminal equipment target radio frequency ginseng Number, thus realize being adjusted by radio frequency parameter in real time to hold the target radio frequency parameter that appearance adapts, so that radio frequency parameter and end The communication scenes of end equipment adapts, and then reaches to improve the purpose of communication efficiency, overcomes in prior art at different communication The problem that the communication efficiency that uses identical radio frequency parameter to be caused under scene is poor.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the part of the application, the present invention Schematic description and description be used for explaining the present invention, be not intended that inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the flow chart of the method for adjustment of a kind of optional radio frequency parameter according to embodiments of the present invention；

Fig. 2 is the schematic diagram of the method for adjustment of a kind of optional radio frequency parameter according to embodiments of the present invention；

Fig. 3 is the schematic diagram of the method for adjustment of another kind of optional radio frequency parameter according to embodiments of the present invention；

Fig. 4 is the schematic diagram of the method for adjustment of the optional radio frequency parameter of according to embodiments of the present invention another；

Fig. 5 is the flow chart of the method for adjustment of another kind of optional radio frequency parameter according to embodiments of the present invention；

Fig. 6 is the flow chart of the method for adjustment of the optional radio frequency parameter of according to embodiments of the present invention another；And

Fig. 7 is the schematic diagram of the adjusting apparatus of a kind of optional radio frequency parameter according to embodiments of the present invention.

Detailed description of the invention

Below with reference to accompanying drawing and describe the present invention in detail in conjunction with the embodiments.It should be noted that in the feelings do not conflicted Under condition, the embodiment in the application and the feature in embodiment can be mutually combined.

It should be noted that term " first " in description and claims of this specification and above-mentioned accompanying drawing, " second " Etc. being for distinguishing similar object, without being used for describing specific order or precedence.

Embodiment 1

Providing the method for adjustment of a kind of radio frequency parameter in the present embodiment, Fig. 1 is that one according to embodiments of the present invention can The flow chart of the method for adjustment of the radio frequency parameter of choosing, as it is shown in figure 1, this flow process comprises the steps:

S102, obtains the hand holding state data that terminal unit sensor acquisition when communication in hand-held region, both sides arrives；

S104, judges, according to hand holding state data, the hand holding state that terminal unit is presently in；

S106, is adjusted to the target radio frequency parameter mated with the hand holding state being presently in by the radio frequency parameter of terminal unit.

Alternatively, in the present embodiment, above-mentioned radio frequency parameter method of adjustment can be, but not limited to be applied to terminal equipment in communication During, judge that the operator's of hand-held terminal device is hand-held according to the hand holding state data of sensor acquisition in terminal unit State (i.e. holds appearance), according to the different hand holding states self-adaptative adjustment that carries out to the radio frequency parameter of terminal unit, adjusts The target radio frequency parameter mated to the hand holding state being presently in terminal unit, thus realize when communication in real time by radio frequency Parameter adjustment, to the target radio frequency parameter adapted, reaches to improve the purpose of communication efficiency, so overcome in prior art The problem that the communication efficiency that uses identical radio frequency parameter to be caused under different communication scene is poor.Wherein, at the present embodiment In, above-mentioned terminal unit can include but not limited to handheld terminal, such as, mobile phone terminal, intercommunication terminal etc..Above-mentioned only Being a kind of example, the present embodiment does not do any restriction at this.

It should be noted that in the present embodiment, above-mentioned hand holding state can include but not limited at least one of: left Hold appearance, the right hand holds appearance, without holding appearance (as contactless hands-free).Wherein, holding appearance due to above-mentioned difference can be to terminal unit Produce Different Effects, change the communication scenes of terminal unit, further, the radio-frequency performance making terminal unit is become Change.Thus, under the different communication scene of terminal unit, still use the identical radio frequency parameter provided in prior art, Communication efficiency will be inevitably resulted in influenced to different extents, and optimal communication cannot be realized.

For above-mentioned technical problem, by detecting different hand holding states (i.e. holding appearance) in the present embodiment, it is achieved to terminal The self-adaptative adjustment of the radio frequency parameter of equipment.Specifically combine shown in Fig. 2 and illustrate, it is assumed that hold with left hand that appearance mates is Radio frequency parameter A, hold with the right hand that appearance mates for radio frequency parameter B, with without hold that appearance mates for radio frequency parameter C.If detection Going out the hand holding state that terminal unit is presently in is that left hand holds appearance, then correspondence adjusts radio frequency parameter and mates to holding appearance with left hand Target radio frequency parameter, i.e. radio frequency parameter A；If detecting, the hand holding state that terminal unit is presently in is that the right hand holds appearance, Then correspondence is adjusted radio frequency parameter to holding the target radio frequency parameter that appearance is mated, i.e. radio frequency parameter B with the right hand；If detecting end Correspondence for without holding appearance, is then adjusted radio frequency parameter and penetrates to the target mated with without holding appearance by the hand holding state that end equipment is presently in Frequently parameter, i.e. radio frequency parameter C.

Alternatively, in the present embodiment, the sensor can include but not limited at least one of: temperature sensor, Pressure transducer.It is to say, by temperature during detection operator's hand-held terminal device, or, contact pressure judges The hand holding state that terminal unit is presently in.Further, the two side areas of the terminal unit at the place of the sensor is permissible Include but not limited to: both sides frame.Such as, touch-screen mobile phone, can be region X as shown in Figure 3.Above-mentioned is only a kind of Example, this is not done any restriction by the present embodiment.

Alternatively, in the present embodiment, judge that the hand holding state that terminal unit is presently in includes according to hand holding state data: Obtain in the number of the first sensor collecting the first status data in the first hand-held region, and the second hand-held region and adopt Collect the number of the second sensor to the second status data；The number of the number according to first sensor and the second sensor is sentenced The hand holding state that disconnected terminal unit is presently in, such as left hand hand holding state, right hand hand holding state.

It should be noted that in the present embodiment, if two side areas inner sensor does not all collect hand holding state data, then May determine that terminal unit is in the hands-free state without holding appearance according to this testing result.

The embodiment provided by the application, by the hand holding state number of the sensor acquisition in two side areas in terminal unit According to, it is judged that hand-held terminal device is at the hand holding state (i.e. holding appearance) being presently in, according to different hand holding states to terminal The radio frequency parameter of equipment carry out self-adaptative adjustment, adjust to the target mated with the hand holding state residing for present terminal equipment Radio frequency parameter, thus realize being adjusted by radio frequency parameter in real time to hold the target radio frequency parameter that appearance adapts, so that radio frequency ginseng Number adapts with the communication scenes of terminal unit, and then reaches to improve the purpose of communication efficiency, overcomes in prior art not With the problem that the communication efficiency using identical radio frequency parameter to be caused under communication scenes is poor.

As the optional scheme of one, hand-held region, both sides includes the first hand-held region and the second hand-held region, wherein, root Judge that the hand holding state that terminal unit is presently in includes according to hand holding state data:

S1, obtains in the first hand-held region the number of the first sensor collecting the first status data, and second is hand-held Collecting the number of the second sensor of the second status data in region, wherein, hand holding state data include first sensor The second status data that the first status data collected and the second sensor acquisition arrive；

S2, judges, according to the number of first sensor and the number of the second sensor, the hand holding state that terminal unit is presently in.

Alternatively, in the present embodiment, be positioned at the hand-held region of terminal unit first for first sensor, be positioned at terminal and set Standby second hand-held region for the second sensor.Such as, Fig. 4 shows that the first sensor on the left of terminal unit includes: Temperature sensor A-D, the second sensor on the right side of terminal unit includes: temperature sensor E-H.It should be noted that The detection range of said temperature sensor is not limited in region as shown in Figure 4.

Alternatively, in the present embodiment, terminal unit is judged according to the number of first sensor and the number of the second sensor The hand holding state being presently in includes: if the number of first sensor is more than the number of the second sensor, then judge current Residing hand holding state is right hand hand holding state；If the number of first sensor is less than the number of the second sensor, then judge Going out the hand holding state being presently in is left hand hand holding state；If the number of first sensor is the least with the number of the second sensor In equal to predetermined threshold, then judge that the hand holding state being presently in is for without holding appearance state.

It should be noted that during due to hand-held terminal device, the five fingers set fixing this terminal from the both sides of terminal unit respectively Standby, thus, the number laying respectively at the first sensor of terminal unit two side areas and the second sensor is inevitable the most different.Cause According to the number of above-mentioned first sensor and the second sensor, this, judge that terminal unit is different hand-held be presently in State.

The embodiment provided by the application, by obtaining the first biography collecting the first status data in the first hand-held region The number of sensor, and the second hand-held region collect the number of the second sensor of the second status data, further, Number according to first sensor judges, with the number of the second sensor, the hand holding state that terminal unit is presently in, thus real Now utilize temperature sensor to be accurately judged to the hand holding state of terminal unit, and then ensure the accuracy to radio frequency parameter adjustment.

As the optional scheme of one, the first hand-held region is terminal unit in the case of the screen of terminaloriented equipment The hand-held region of left surface, the second hand-held region is the right flank hands of terminal unit in the case of the screen of terminaloriented equipment Hold region, wherein, judge, according to the number of first sensor and the number of the second sensor, the hands that terminal unit is presently in The state of holding includes:

S1, if the number of first sensor is more than the number of the second sensor, then judges that the hand holding state being presently in is Right hand hand holding state；

S2, if the number of first sensor is less than the number of the second sensor, then judges that the hand holding state being presently in is Left hand hand holding state.

Alternatively, in the present embodiment, when communicating due to hand-held terminal device, the five fingers are by respectively from the both sides of terminal unit Fix this terminal unit, therefore, it is possible to by judging that terminal unit both sides collect the first sensor of hand holding state data The hand holding state residing for present terminal equipment is judged with the number of the second sensor.

Such as, when the hand-held region of left surface, to collect the number of the first sensor of the first status data hand-held more than right flank When region collects the number of the second sensor of the second status data, then can be accurately judged to present terminal equipment left Hands is hand-held, and i.e. residing hand holding state is left hand hand holding state.

The most such as, the number of the first sensor of the first status data is collected less than right flank hands when the hand-held region of left surface When holding the number of the second sensor that region collects the second status data, then can be accurately judged to present terminal equipment quilt The right hand is hand-held, and i.e. residing hand holding state is right hand hand holding state.

As the optional scheme of one, if the number of first sensor is more than the number of the second sensor, then judge current Residing hand holding state is that right hand hand holding state includes:

S1, if the number of first sensor is more than or equal to the first predetermined threshold, then judges that the hand holding state being presently in is Right hand hand holding state.

Alternatively, in the present embodiment, above-mentioned first predetermined threshold can include but not limited to: 2,3.

Specifically combine the example below to illustrate, it is assumed that the first predetermined threshold is set to 3, specifically combine and carry out shown in Fig. 2 Illustrating, such as, the quantity of hand-held region, left side first sensor is 3, and the quantity of hand-held region, right side the second sensor is 1, i.e. the quantity of left sensor is equal to 3, it is determined that terminal unit is being currently at right hand hand holding state, further, According to this judged result, the radio frequency parameter of terminal unit can be adjusted to corresponding target radio frequency parameter, i.e. radio frequency parameter B。

The embodiment provided by the application, by according to the hand holding state data detected, specifically, first senses When the number of device is more than or equal to the first predetermined threshold, then can determine that the hand holding state residing for present terminal equipment is that the right hand is hand-held State, further, terminal unit then can be adjusted switched to right according to judged result self-adaptative adjustment radio frequency parameter The target radio frequency parameter of hands hand holding state coupling, to ensure under the communication scenes of right hand hand holding state, radio frequency parameter adjusts Optimal value to this communication scenes, and then realize improving the communication efficiency under this communication scenes.

As the optional scheme of one, if the number of first sensor is less than the number of the second sensor, then judge current Residing hand holding state is that left hand hand holding state includes:

S1, if the number of the second sensor is more than or equal to the second predetermined threshold, then judges that the hand holding state being presently in is Left hand hand holding state.

Alternatively, in the present embodiment, above-mentioned first predetermined threshold can include but not limited to: 2,3.

Specifically combine the example below to illustrate, it is assumed that the first predetermined threshold is set to 3, specifically combine and carry out shown in Fig. 2 Illustrating, such as, the quantity of hand-held region, right side the second sensor is 3, and the quantity of hand-held region, left side first sensor is 1, i.e. the quantity of right sensor is equal to 3, it is determined that terminal unit is being currently at left hand hand holding state, further, According to this judged result, the radio frequency parameter of terminal unit can be adjusted to corresponding target radio frequency parameter, i.e. radio frequency parameter A。

The embodiment provided by the application, by according to the hand holding state data detected, specifically, second senses When the number of device is more than or equal to the second predetermined threshold, then can determine that the hand holding state residing for present terminal equipment is that left hand is hand-held State, further, terminal unit then can be adjusted switched to left according to judged result self-adaptative adjustment radio frequency parameter The target radio frequency parameter of hands hand holding state coupling, to ensure under the communication scenes of left hand hand holding state, radio frequency parameter adjusts Optimal value to this communication scenes, and then realize improving the communication efficiency under this communication scenes.

Specifically may also be combined with step S502-S514 shown in Fig. 4-5 to illustrate, first such as S502, it is judged that left side temperature passes Whether sensor ABCD has 1 target temperature sensor, re-executes S502 if it is not, then return；The most then enter one Step performs S504, it is judged that whether temperature sensor ABCD in left side has at least 3 target temperature sensor；The most then Perform S506, it is judged that whether temperature sensor EFGH in right side has 1 target temperature sensor, if the determination result is YES, That is, it is judged that go out left side temperature sensor ABCD have at least 3 target temperature sensor, right side temperature sensor EFGH There is 1 target temperature sensor, then can perform step S510, it is determined that above-mentioned hand holding state is that the right hand holds appearance.Further, If the judged result of step S506 is no, then returns and re-execute S504.

Further, if the judged result of step S504 is no, then perform step S508, it is judged that right side temperature sensor EFGH Whether there are at least 3 target temperature sensor, if the determination result is YES, i.e. judge left side temperature sensor ABCD 1 target temperature sensor, right side temperature sensor EFGH is had to have at least 3 target temperature sensor, then can perform Step S512, it is determined that above-mentioned hand holding state is that left hand holds appearance.Further, if the judged result of step S508 is no, then Return re-executes S504.

Judge after the hand holding state being presently at terminal unit, then perform step S514, radio frequency parameter is adjusted For the target radio frequency parameter mated with the hand holding state being presently in.

As the optional scheme of one, judge that terminal unit is worked as according to the number of first sensor and the number of the second sensor Hand holding state residing for before includes:

S1, if the number of the number of first sensor and the second sensor is respectively less than equal to the 3rd predetermined threshold, then judges The hand holding state being presently in is for without holding appearance state.

Alternatively, in the present embodiment, can also judge without holding appearance (the most hands-free) state according to hand holding state data, Specifically, if two side areas inner sensor does not all collect hand holding state data, then may determine that according to this testing result Go out terminal unit and be in the hands-free state without holding appearance.

Specifically combine shown in Fig. 6 and illustrate, start to perform step S602, it is judged that whether current hand holding state is left Hold appearance, the most then perform step S606, adjust and use radio frequency parameter A；If it is not, then perform step 604, it is judged that Whether current hand holding state is that the right hand holds appearance, the most then perform step S608, adjust and use radio frequency parameter B；If it is not, Then may determine that current hand holding state is the hands-free state without holding appearance, perform step S610 further, adjust and use Radio frequency parameter C.

It should be noted that in this example, the judgement flow process shown in above-mentioned Fig. 6 is only a kind of example, three kinds of hand-held shapes The judgement order of state can mutually be exchanged, and this is not done any restriction by the present embodiment.

The embodiment provided by the application, the number at number and second sensor of first sensor is respectively less than equal to the During three predetermined thresholds, then may determine that terminal unit, the most hand-held, represents that this terminal unit is in hands-free State communicates, and will show that terminal unit is in the hand-free call state without holding appearance by above-mentioned judgement, and then by radio frequency Parameter adjustment is to the target radio frequency parameter matched with this hand holding state, to overcome in prior art only with identical radio frequency The problem of the communication efficiency difference that parameter is caused.

Through the above description of the embodiments, those skilled in the art is it can be understood that arrive according to above-described embodiment Method can add the mode of required general hardware platform by software and realize, naturally it is also possible to by hardware, but a lot In the case of the former is more preferably embodiment.Based on such understanding, technical scheme is the most in other words to existing The part having technology to contribute can embody with the form of software product, and this computer software product is stored in one In storage medium (such as ROM/RAM, magnetic disc, CD), including some instructions with so that a station terminal equipment (can To be mobile phone, computer, server, or the network equipment etc.) perform the method described in each embodiment of the present invention.

Embodiment 2

Additionally providing the adjusting apparatus of a kind of radio frequency parameter in the present embodiment, this device is used for realizing above-described embodiment and excellent Select embodiment, carry out repeating no more of explanation.As used below, term " module " can realize pre- Determine the software of function and/or the combination of hardware.Although the device described by following example preferably realizes with software, But hardware, or the realization of the combination of software and hardware also may and be contemplated.

Providing the method for adjustment of a kind of radio frequency parameter in the present embodiment, shown in Fig. 7, this device includes:

1) acquiring unit 702, for obtaining the hands that terminal unit sensor acquisition when communication in hand-held region, both sides arrives Hold status data；

2) judging unit 704, for judging, according to hand holding state data, the hand holding state that terminal unit is presently in；

3) adjustment unit 706, mate with the hand holding state being presently in for being adjusted to by the radio frequency parameter of terminal unit Target radio frequency parameter.

Alternatively, in the present embodiment, above-mentioned radio frequency parameter adjusting apparatus can be, but not limited to be applied to terminal equipment in communication During, judge that the operator's of hand-held terminal device is hand-held according to the hand holding state data of sensor acquisition in terminal unit State (i.e. holds appearance), according to the different hand holding states self-adaptative adjustment that carries out to the radio frequency parameter of terminal unit, adjusts The target radio frequency parameter mated to the hand holding state being presently in terminal unit, thus realize when communication in real time by radio frequency Parameter adjustment, to the target radio frequency parameter adapted, reaches to improve the purpose of communication efficiency, so overcome in prior art The problem that the communication efficiency that uses identical radio frequency parameter to be caused under different communication scene is poor.Wherein, at the present embodiment In, above-mentioned terminal unit can include but not limited to handheld terminal, such as, mobile phone terminal, intercommunication terminal etc..Above-mentioned only Being a kind of example, the present embodiment does not do any restriction at this.

It should be noted that in the present embodiment, above-mentioned hand holding state can include but not limited at least one of: left Hold appearance, the right hand holds appearance, without holding appearance (as contactless hands-free).Wherein, holding appearance due to above-mentioned difference can be to terminal unit Produce Different Effects, change the communication scenes of terminal unit, further, the radio-frequency performance making terminal unit is become Change.Thus, under the different communication scene of terminal unit, still use the identical radio frequency parameter provided in prior art, Communication efficiency will be inevitably resulted in influenced to different extents, and optimal communication cannot be realized.

For above-mentioned technical problem, by detecting different hand holding states (i.e. holding appearance) in the present embodiment, it is achieved to terminal The self-adaptative adjustment of the radio frequency parameter of equipment.Specifically combine shown in Fig. 2 and illustrate, it is assumed that hold with left hand that appearance mates is Radio frequency parameter A, hold with the right hand that appearance mates for radio frequency parameter B, with without hold that appearance mates for radio frequency parameter C.If detection Going out the hand holding state that terminal unit is presently in is that left hand holds appearance, then correspondence adjusts radio frequency parameter and mates to holding appearance with left hand Target radio frequency parameter, i.e. radio frequency parameter A；If detecting, the hand holding state that terminal unit is presently in is that the right hand holds appearance, Then correspondence is adjusted radio frequency parameter to holding the target radio frequency parameter that appearance is mated, i.e. radio frequency parameter B with the right hand；If detecting end Correspondence for without holding appearance, is then adjusted radio frequency parameter and penetrates to the target mated with without holding appearance by the hand holding state that end equipment is presently in Frequently parameter, i.e. radio frequency parameter C.

Alternatively, in the present embodiment, the sensor can include but not limited at least one of: temperature sensor, Pressure transducer.It is to say, by temperature during detection operator's hand-held terminal device, or, contact pressure judges The hand holding state that terminal unit is presently in.Further, the two side areas of the terminal unit at the place of the sensor is permissible Include but not limited to: both sides frame.Such as, touch-screen mobile phone, can be region X as shown in Figure 3.Above-mentioned is only a kind of Example, this is not done any restriction by the present embodiment.

Alternatively, in the present embodiment, judge that the hand holding state that terminal unit is presently in includes according to hand holding state data: Obtain in the number of the first sensor collecting the first status data in the first hand-held region, and the second hand-held region and adopt Collect the number of the second sensor to the second status data；The number of the number according to first sensor and the second sensor is sentenced The hand holding state that disconnected terminal unit is presently in, such as left hand hand holding state, right hand hand holding state.

It should be noted that in the present embodiment, if two side areas inner sensor does not all collect hand holding state data, then May determine that terminal unit is in the hands-free state without holding appearance according to this testing result.

The embodiment provided by the application, by the hand holding state number of the sensor acquisition in two side areas in terminal unit According to, it is judged that hand-held terminal device is at the hand holding state (i.e. holding appearance) being presently in, according to different hand holding states to terminal The radio frequency parameter of equipment carry out self-adaptative adjustment, adjust to the target mated with the hand holding state residing for present terminal equipment Radio frequency parameter, thus realize being adjusted by radio frequency parameter in real time to hold the target radio frequency parameter that appearance adapts, so that radio frequency ginseng Number adapts with the communication scenes of terminal unit, and then reaches to improve the purpose of communication efficiency, overcomes in prior art not With the problem that the communication efficiency using identical radio frequency parameter to be caused under communication scenes is poor.

As the optional scheme of one, hand-held region, both sides includes the first hand-held region and the second hand-held region, wherein, sentences Disconnected unit 704 includes:

1) acquisition module, for obtaining the number of the first sensor collecting the first status data in the first hand-held region, And second number of the second sensor collecting the second status data in hand-held region, wherein, hand holding state packet Include the first status data that first sensor collects and the second status data that the second sensor acquisition arrives；

2) with the number of the second sensor, judge module, for judging that terminal unit is current according to the number of first sensor Residing hand holding state.

Alternatively, in the present embodiment, be positioned at the hand-held region of terminal unit first for first sensor, be positioned at terminal and set Standby second hand-held region for the second sensor.Such as, Fig. 4 shows that the first sensor on the left of terminal unit includes: Temperature sensor A-D, the second sensor on the right side of terminal unit includes: temperature sensor E-H.It should be noted that The detection range of said temperature sensor is not limited in region as shown in Figure 4.

Alternatively, in the present embodiment, terminal unit is judged according to the number of first sensor and the number of the second sensor The hand holding state being presently in includes: if the number of first sensor is more than the number of the second sensor, then judge current Residing hand holding state is right hand hand holding state；If the number of first sensor is less than the number of the second sensor, then judge Going out the hand holding state being presently in is left hand hand holding state；If the number of first sensor is the least with the number of the second sensor In equal to predetermined threshold, then judge that the hand holding state being presently in is for without holding appearance state.

It should be noted that during due to hand-held terminal device, the five fingers set fixing this terminal from the both sides of terminal unit respectively Standby, thus, the number laying respectively at the first sensor of terminal unit two side areas and the second sensor is inevitable the most different.Cause According to the number of above-mentioned first sensor and the second sensor, this, judge that terminal unit is different hand-held be presently in State.

The embodiment provided by the application, by obtaining the first biography collecting the first status data in the first hand-held region The number of sensor, and the second hand-held region collect the number of the second sensor of the second status data, further, Number according to first sensor judges, with the number of the second sensor, the hand holding state that terminal unit is presently in, thus real Now utilize temperature sensor to be accurately judged to the hand holding state of terminal unit, and then ensure the accuracy to radio frequency parameter adjustment.

As the optional scheme of one, the first hand-held region is terminal unit in the case of the screen of terminaloriented equipment The hand-held region of left surface, the second hand-held region is the right flank hands of terminal unit in the case of the screen of terminaloriented equipment Hold region；Wherein, it is judged that module includes:

1) first judges submodule, during for being more than the number of the second sensor in the number of first sensor, it is judged that The hand holding state being presently in is right hand hand holding state；

2) second judges submodule, during for being less than the number of the second sensor in the number of first sensor, it is judged that The hand holding state being presently in is left hand hand holding state.

Alternatively, in the present embodiment, when communicating due to hand-held terminal device, the five fingers are by respectively from the both sides of terminal unit Fix this terminal unit, therefore, it is possible to by judging that terminal unit both sides collect the first sensor of hand holding state data The hand holding state residing for present terminal equipment is judged with the number of the second sensor.

Such as, when the hand-held region of left surface, to collect the number of the first sensor of the first status data hand-held more than right flank When region collects the number of the second sensor of the second status data, then can be accurately judged to present terminal equipment left Hands is hand-held, and i.e. residing hand holding state is left hand hand holding state.

The most such as, the number of the first sensor of the first status data is collected less than right flank hands when the hand-held region of left surface When holding the number of the second sensor that region collects the second status data, then can be accurately judged to present terminal equipment quilt The right hand is hand-held, and i.e. residing hand holding state is right hand hand holding state.

As the optional scheme of one, first judges by following steps, submodule judges that the hand holding state being presently in is Right hand hand holding state:

1) if the number of first sensor is more than or equal to the first predetermined threshold, then judge that the hand holding state being presently in is Right hand hand holding state.

Alternatively, in the present embodiment, above-mentioned first predetermined threshold can include but not limited to: 2,3.

Specifically combine the example below to illustrate, it is assumed that the first predetermined threshold is set to 3, specifically combine and carry out shown in Fig. 2 Illustrating, such as, the quantity of hand-held region, left side first sensor is 3, and the quantity of hand-held region, right side the second sensor is 1, i.e. the quantity of left sensor is equal to 3, it is determined that terminal unit is being currently at right hand hand holding state, further, According to this judged result, the radio frequency parameter of terminal unit can be adjusted to corresponding target radio frequency parameter, i.e. radio frequency parameter B。

The embodiment provided by the application, by according to the hand holding state data detected, specifically, first senses When the number of device is more than or equal to the first predetermined threshold, then can determine that the hand holding state residing for present terminal equipment is that the right hand is hand-held State, further, terminal unit then can be adjusted switched to right according to judged result self-adaptative adjustment radio frequency parameter The target radio frequency parameter of hands hand holding state coupling, to ensure under the communication scenes of right hand hand holding state, radio frequency parameter adjusts Optimal value to this communication scenes, and then realize improving the communication efficiency under this communication scenes.

As the optional scheme of one, second judges by following steps, submodule judges that the hand holding state being presently in is Left hand hand holding state:

1) if the number of the second sensor is more than or equal to the second predetermined threshold, then judge that the hand holding state being presently in is Left hand hand holding state.

Alternatively, in the present embodiment, above-mentioned first predetermined threshold can include but not limited to: 2,3.

Specifically combine the example below to illustrate, it is assumed that the first predetermined threshold is set to 3, specifically combine and carry out shown in Fig. 2 Illustrating, such as, the quantity of hand-held region, right side the second sensor is 3, and the quantity of hand-held region, left side first sensor is 1, i.e. the quantity of right sensor is equal to 3, it is determined that terminal unit is being currently at left hand hand holding state, further, According to this judged result, the radio frequency parameter of terminal unit can be adjusted to corresponding target radio frequency parameter, i.e. radio frequency parameter A。

The embodiment provided by the application, by according to the hand holding state data detected, specifically, second senses When the number of device is more than or equal to the second predetermined threshold, then can determine that the hand holding state residing for present terminal equipment is that left hand is hand-held State, further, terminal unit then can be adjusted switched to left according to judged result self-adaptative adjustment radio frequency parameter The target radio frequency parameter of hands hand holding state coupling, to ensure under the communication scenes of left hand hand holding state, radio frequency parameter adjusts Optimal value to this communication scenes, and then realize improving the communication efficiency under this communication scenes.

As the optional scheme of one, it is judged that module includes:

1) the 3rd judges submodule, and the number for number and the second sensor at first sensor is respectively less than equal to the During three predetermined thresholds, it is judged that the hand holding state being presently in is for without holding appearance state.

Alternatively, in the present embodiment, can also judge without holding appearance (the most hands-free) state according to hand holding state data, Specifically, if two side areas inner sensor does not all collect hand holding state data, then may determine that according to this testing result Go out terminal unit and be in the hands-free state without holding appearance.

The embodiment provided by the application, the number at number and second sensor of first sensor is respectively less than equal to the During three predetermined thresholds, then may determine that terminal unit, the most hand-held, represents that this terminal unit is in hands-free State communicates, and will show that terminal unit is in the hand-free call state without holding appearance by above-mentioned judgement, and then by radio frequency Parameter adjustment is to the target radio frequency parameter matched with this hand holding state, to overcome in prior art only with identical radio frequency The problem of the communication efficiency difference that parameter is caused.

Obviously, those skilled in the art should be understood that each module of the above-mentioned present invention or each step can be with general Calculating device to realize, they can concentrate on single calculating device, or be distributed in multiple calculating device and formed Network on, alternatively, they can realize, it is thus possible to by them with calculating the executable program code of device Storage is performed by calculating device in the storage device, and in some cases, can hold with the order being different from herein Step shown or described by row, or they are fabricated to respectively each integrated circuit modules, or by many in them Individual module or step are fabricated to single integrated circuit module and realize.So, the present invention is not restricted to any specific hardware Combine with software.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for the technology of this area For personnel, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, that is made is any Amendment, equivalent, improvement etc., should be included within the scope of the present invention.

Claims (12)

1. the method for adjustment of a radio frequency parameter, it is characterised in that including:

Obtain the hand holding state data that terminal unit sensor acquisition when communication in hand-held region, both sides arrives；

The hand holding state that described terminal unit is presently in is judged according to described hand holding state data；

The radio frequency parameter of described terminal unit is adjusted to the mesh mated with the described described hand holding state being presently in Mark radio frequency parameter.

Method the most according to claim 1, it is characterised in that hand-held region, described both sides include the first hand-held region and Second hand-held region, wherein, judges, according to described hand holding state data, the hand-held shape that described terminal unit is presently in State includes:

Obtain the number of the first sensor collecting the first status data in described first hand-held region, and described Second hand-held region collects the number of the second sensor of the second status data, wherein, described hand holding state number According to including described first status data that described first sensor collects and the institute that described second sensor acquisition arrives State the second status data；

With the number of described second sensor, number according to described first sensor judges that described terminal unit is current Residing hand holding state.

Method the most according to claim 2, it is characterised in that described first hand-held region is for set towards described terminal The hand-held region of the left surface of described terminal unit in the case of standby screen, described second hand-held region is for towards institute The hand-held region of the right flank of described terminal unit in the case of stating the screen of terminal unit, wherein, according to described first The number of sensor judges, with the number of described second sensor, the hand holding state bag that described terminal unit is presently in Include:

If the number of described first sensor is more than the number of described second sensor, then judge described in be presently in Hand holding state be right hand hand holding state；

If the number of described first sensor is less than the number of described second sensor, then judge described in be presently in Hand holding state be left hand hand holding state.

Method the most according to claim 3, it is characterised in that if the number of described first sensor is more than described The number of the second sensor, then judge described in the hand holding state that is presently in be that right hand hand holding state includes:

If the number of described first sensor more than or equal to the first predetermined threshold, then judge described in the hands that is presently in The state of holding is right hand hand holding state.

Method the most according to claim 3, it is characterised in that if the number of described first sensor is less than described The number of the second sensor, then judge described in the hand holding state that is presently in be that left hand hand holding state includes:

If the number of described second sensor more than or equal to the second predetermined threshold, then judge described in the hands that is presently in The state of holding is left hand hand holding state.

Method the most according to claim 2, it is characterised in that the described number according to described first sensor is with described The number of the second sensor judges that the hand holding state that described terminal unit is presently in includes:

If the number of described first sensor is respectively less than equal to the 3rd predetermined threshold with the number of described second sensor, The hand holding state being presently in described in then judging is for without holding appearance state.

7. the adjusting apparatus of a radio frequency parameter, it is characterised in that including:

Acquiring unit, for obtain terminal unit communication time hand-held region, both sides in sensor acquisition arrive hand-held Status data；

Judging unit, for judging, according to described hand holding state data, the hand holding state that described terminal unit is presently in；

Adjustment unit, for the radio frequency parameter of described terminal unit is adjusted to described be presently in described hand-held The target radio frequency parameter of state coupling.

Device the most according to claim 7, it is characterised in that hand-held region, described both sides include the first hand-held region and Second hand-held region, wherein, described judging unit includes:

Acquisition module, for obtaining the first sensor collecting the first status data in described first hand-held region Number, and described second hand-held region collect the number of the second sensor of the second status data, wherein, Described hand holding state data include that described first status data and described second that described first sensor collects passes Described second status data that sensor collects；

Judge module, judges described for the number according to described first sensor with the number of described second sensor The hand holding state that terminal unit is presently in.

Device the most according to claim 8, it is characterised in that described first hand-held region is for set towards described terminal The hand-held region of the left surface of described terminal unit in the case of standby screen, described second hand-held region is for towards institute The hand-held region of the right flank of described terminal unit in the case of stating the screen of terminal unit；Wherein, described judge module Including:

First judges submodule, during for being more than the number of described second sensor in the number of described first sensor, The hand holding state being presently in described in judging is right hand hand holding state；

Second judges submodule, during for being less than the number of described second sensor in the number of described first sensor, The hand holding state being presently in described in judging is left hand hand holding state.

Device the most according to claim 9, it is characterised in that described first judges that submodule is judged by following steps The hand holding state being presently in described in going out is right hand hand holding state:

If the number of described first sensor more than or equal to the first predetermined threshold, then judge described in the hands that is presently in The state of holding is right hand hand holding state.

11. devices according to claim 9, it is characterised in that described second judges that submodule is judged by following steps The hand holding state being presently in described in going out is left hand hand holding state:

If the number of described second sensor more than or equal to the second predetermined threshold, then judge described in the hands that is presently in The state of holding is left hand hand holding state.

12. devices according to claim 8, it is characterised in that described judge module includes:

3rd judges submodule, the least with the number of described second sensor for the number at described first sensor When equal to three predetermined thresholds, it is judged that described in the hand holding state that is presently in for without holding appearance state.