CN106034175A - Information processing method and electronic device - Google Patents
Information processing method and electronic device Download PDFInfo
- Publication number
- CN106034175A CN106034175A CN201510114368.5A CN201510114368A CN106034175A CN 106034175 A CN106034175 A CN 106034175A CN 201510114368 A CN201510114368 A CN 201510114368A CN 106034175 A CN106034175 A CN 106034175A
- Authority
- CN
- China
- Prior art keywords
- infrared light
- electronic equipment
- module
- mode
- receiver module
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Optical Communication System (AREA)
- Telephone Function (AREA)
Abstract
The invention discloses an information processing method and an electronic device. The information processing method is applied to a first electronic device. The information processing method comprises steps of detecting whether a current working mode of a first function module in the first electronic device is in a first working mode to obtain a detection result, controlling an approaching sensing module in the first electronic device to be in a switch-on state when the detection result shows that the current working mode is in the first working mode, wherein the approaching sensing module comprises a first emission module and a first reception module and the approaching sensing module is positioned in a second position which is different from a first position where the first function module is positioned; and controlling the first reception module to be in the switch-on state and the first emission module to be in a switch-off state when the detection result shows that the working mode is in a second working mode different from the first working mode.
Description
Technical field
The present invention relates to electronic technology field, particularly to a kind of information processing method and electronic equipment.
Background technology
Along with the development of electronic technology, touch-screen mobile phone is increasingly favored by people.When user is with touching
Touching during screen mobile phone takes phone, inevitably encounter touch display screen, such as, face is not intended to
In clicked on-hook key or Hands-free key, this brings inconvenience to user.
In order to avoid the maloperation in communication process, existing touch-screen mobile phone is often built-in with proximity transducer,
By actively sending infrared light, when have object near time, the light of infrared light emission can be reflected by the object,
The infrared receiving module being approached in sensor receives, and without object, would not reflect.Ratio
As, user answers the call when, the proximity transducer in mobile phone when user's ear being detected near mobile phone,
Proximity transducer is used to cut out the backlight of display screen, and disables touch function.
Present inventor during technical scheme, finds above-mentioned existing skill in invention the embodiment of the present application
At least there is following technical problem in art:
In prior art, the electronic equipment such as proximity transducer in mobile phone is either utilized to carry out close to inspection
Survey, or the detection to infrared light special in environment, it is required for receiver module and transmitter module is simultaneously in work
Both detection functions are realized as state, so, prior art exists and needs to use two modules simultaneously
The technical problem that just can detect accordingly.
Summary of the invention
The embodiment of the present application provides a kind of information processing method and electronic equipment, is used for solving to deposit in prior art
Needing the technical problem that simultaneously uses two modules just can detect accordingly, it is achieved that joint effective to resource
Technique effect about.
A kind of information processing method, is applied to the first electronic equipment, comprises the following steps:
Whether the current operation mode detecting the first functional module in described first electronic equipment is in first
Mode of operation a, it is thus achieved that testing result;
When described testing result shows that described current operation mode is in described first mode of operation, control
Described first electronic equipment is in open mode close to induction module, wherein, described close to sensing mould
Block includes the first transmitter module and the first receiver module, described is positioned at and described first merit close to induction module
The second position that energy module place primary importance is different;
Show that described current operation mode is in described testing result different from described first mode of operation
During the second mode of operation, control described first receiver module and be in described open mode and described first transmitting
Module is closed.
Alternatively, described show that described current operation mode is in described first Working mould in described testing result
During formula, control in described first electronic equipment be in open mode close to induction module after, described method
Also include:
The first infrared light and second that described first transmitter module sends is received by described first receiver module
The mixing infrared light that the second infrared light that the second transmitter module in electronic equipment sends is constituted;
By mixing described the in infrared light described in the first filters filter in described first electronic equipment
One infrared light, it is thus achieved that and export described second infrared light;
By mixing described the in infrared light described in the second filters filter in described first electronic equipment
Two infrared lights, it is thus achieved that and export described first infrared light.
Alternatively, described show that described current operation mode is in described first Working mould in described testing result
Formula, control in described first electronic equipment be in open mode close to induction module after, described method is also
Including:
Described first receiver module receives, at the first time slot, the first infrared light that described first transmitter module sends;
Described first receiver module receives the second electronic equipment at the second time slot different from described first time slot
In second transmitter module send the second infrared light;
Wherein, described first time slot and described second time slot constitute described first receiver module reception described first
Infrared light and the sampling period of described second infrared light.
Alternatively, described described testing result show described current operation mode be in and described first work
During different the second mode of operation of pattern, control described first receiver module and be in described open mode and institute
Stating after the first transmitter module is closed, described method also includes:
Judge whether described first electronic equipment is in mute state, it is thus achieved that the first judged result;
When described first judged result shows that described first electronic equipment is not in described mute state, pass through
Described first receiver module receives the 3rd infrared light sent by the 3rd transmitter module in silencing equipment;
Based on described 3rd infrared light, control described first electronic equipment and be in described mute state.
Alternatively, described described testing result show described current operation mode be in and described first work
The second mode of operation that pattern is different, controls described first receiver module and is in described open mode and described
After first transmitter module is closed, described method also includes:
The by the 4th transmitter module transmission in pushing equipment the 4th is received red by described first receiver module
Outer light;
Based on described 4th infrared light, it is thus achieved that the information content that described pushing equipment sends;
Described information content is shown on the display screen on described first electronic equipment.
On the other hand, the embodiment of the present application additionally provides a kind of electronic equipment, including:
First detector unit, for detecting the current work of the first functional module in described first electronic equipment
Whether operation mode is in the first mode of operation, it is thus achieved that a testing result;
In described testing result, first control unit, shows that described current operation mode is in described first work
During operation mode, described first electronic equipment is in open mode close to induction module for controlling, its
In, described include the first transmitter module and the first receiver module close to induction module, described close to sensing mould
Block is positioned at the second position different from described first functional module place primary importance;
In described testing result, second control unit, shows that described current operation mode is in and described first
During different the second mode of operation of mode of operation, be used for controlling described first receiver module be in described in open
State and described first transmitter module are closed.
Alternatively, described first receiver module is for receiving the first infrared light that described first transmitter module sends
Mixing infrared light with the second infrared light composition that the second transmitter module in the second electronic equipment sends;
Described first electronic equipment also includes the first wave filter and the second wave filter, wherein, described first filtering
Device is for filtering described first infrared light in described mixing infrared light, it is thus achieved that and export described second infrared
Light, described second wave filter is for filtering described second infrared light in described mixing infrared light, it is thus achieved that and defeated
Go out described first infrared light.
Alternatively, described first receiver module is additionally operable to:
The first infrared light that described first transmitter module sends is received at the first time slot;
The second transmitter module in the second electronic equipment is received at the second time slot different from described first time slot
The second infrared light sent;
Wherein, described first time slot and described second time slot constitute described first receiver module reception described first
Infrared light and the sampling period of described second infrared light.
Alternatively, described electronic equipment also includes:
First judging unit, is used for judging whether described first electronic equipment is in mute state, it is thus achieved that first
Judged result;
When described first judged result shows that described first electronic equipment is not in described mute state, described
First receiver module is additionally operable to receive the 3rd infrared light sent by the 3rd transmitter module in silencing equipment;
3rd control unit, based on described 3rd infrared light, controls described first electronic equipment and is in described quiet
Sound-like state.
Alternatively, described electronic equipment also includes:
Described first receiver module is additionally operable to receive the 4th sent by the 4th transmitter module in pushing equipment
Infrared light;
First obtains unit, based on described 4th infrared light, it is thus achieved that the information content that described pushing equipment sends;
First display unit, for showing the display screen on described first electronic equipment by described information content
On.
Said one in the embodiment of the present application or multiple technical scheme, at least have one or more skills following
Art effect:
In the technical scheme of the application, owing to using by detecting the first merit in described first electronic equipment
Whether the current operation mode of energy module is in the first mode of operation, it is thus achieved that a testing result;In described detection
Result shows when described current operation mode is in described first mode of operation, controls described first electronics and sets
It is in open mode close to induction module in Bei, shows at described current operation mode in described testing result
When the second mode of operation, control described first receiver module and be in described open mode and described first transmitting
The technological means that module is closed, thus efficiently solve existence in prior art and need to use simultaneously
The technical problem that two modules just can detect accordingly, it is achieved the detection of special infrared light in environment
Only need the technique effect that the first receiver module is in running order, it is, in this application,
Sometimes, it is only necessary to a module just can realize detecting function accordingly, so, furthermore achieved that
The technique effect effectively save to resource.
Further, owing to have employed the technical scheme of the embodiment of the present application, first on an electronic device connects
Receive module and be in open mode and time the first transmitter module is closed, it is achieved to special infrared in environment
When the detection of light, the first receiver module on an electronic device and the first transmitter module are all in open mode,
Achieve electronic equipment to object near time proximity test, and ensure that two kinds detection between mutually do not do
Disturb, so, it is achieved that electronic equipment can be in non-interfering situation according to the on off state of proximity transducer
The lower corresponding Function detection of realization.
Further, owing to have employed the technical scheme of the embodiment of the present application, even if connecing in electronic equipment
Receive module receive transmitter module thereon send infrared light and environment in other electronic equipment send come
Infrared light, the mixing infrared light that also can will receive, by using high-pass and low-pass filter, or timesharing is multiple
With etc. mode each infrared light is distinguished, and then response corresponding operating, so, it is achieved that electronic equipment can
The technique effect of the infrared light detected by correct response.
Accompanying drawing explanation
Fig. 1 is the flow chart of a kind of information processing method in the embodiment of the present application one;
Fig. 2 is the first kind of way in the embodiment of the present application one after a kind of information processing method step S102
Flow chart;
Fig. 3 is the second way in the embodiment of the present application one after a kind of information processing method step S102
Flow chart;
Fig. 4 is the first realization in the embodiment of the present application one after a kind of information processing method step S103
Mode flow chart;
Fig. 5 is the second realization in the embodiment of the present application one after a kind of information processing method step S103
Mode flow chart;
The block diagram of a kind of electronic equipment that Fig. 6 provides for the embodiment of the present application two.
Detailed description of the invention
The embodiment of the present application provides a kind of information processing method and electronic equipment, is used for solving to deposit in prior art
Needing the technical problem that simultaneously uses two modules just can detect accordingly, it is achieved that joint effective to resource
Technique effect about.
Technical scheme in the embodiment of the present application is to solve above-mentioned technical problem, and general thought is as follows:
A kind of information processing method, is applied to the first electronic equipment, and described method includes:
Whether the current operation mode detecting the first functional module in described first electronic equipment is in first
Mode of operation a, it is thus achieved that testing result;
When described testing result shows that described current operation mode is in described first mode of operation, control
Described first electronic equipment is in open mode close to induction module, wherein, described close to sensing mould
Block includes the first transmitter module and the first receiver module, described is positioned at and described first merit close to induction module
The second position that energy module place primary importance is different;
Show that described current operation mode is in described testing result different from described first mode of operation
During the second mode of operation, control described first receiver module and be in described open mode and described first transmitting
Module is closed.
In the technical scheme of the application, owing to using by detecting the first merit in described first electronic equipment
Whether the current operation mode of energy module is in the first mode of operation, it is thus achieved that a testing result;In described detection
Result shows when described current operation mode is in described first mode of operation, controls described first electronics and sets
It is in open mode close to induction module in Bei, shows at described current operation mode in described testing result
When the second mode of operation, control described first receiver module and be in described open mode and described first transmitting
The technological means that module is closed, thus efficiently solve existence in prior art and need to use simultaneously
The technical problem that two modules just can detect accordingly, it is achieved the detection of special infrared light in environment
Only need the technique effect that the first receiver module is in running order, it is, in this application,
Sometimes, it is only necessary to a module just can realize detecting function accordingly, so, furthermore achieved that
The technique effect effectively save to resource.
In order to be more fully understood that technique scheme, below by accompanying drawing and specific embodiment to skill of the present invention
Art scheme is described in detail, it should be appreciated that the specific features in the embodiment of the present application and embodiment is to this
The detailed description of inventive technique scheme rather than the restriction to inventive technique scheme, in situation about not conflicting
Under, the technical characteristic in the embodiment of the present application and embodiment can be combined with each other.
In the embodiment of the present application, specifically described first electronic equipment, can be panel computer, also may be used
Think notebook computer, it is also possible to for digital camera, etc., just differing at this one schematically illustrates.Following
Technical scheme in the embodiment of the present application will be described in detail as a example by smart mobile phone by embodiment.
Embodiment one
Refer to Fig. 1, a kind of information processing method that the embodiment of the present application one provides, it is applied to the first electronics
Equipment, described method includes:
S101: whether the current operation mode detecting the first functional module in described first electronic equipment is in
First mode of operation a, it is thus achieved that testing result;
S102: when described testing result shows that described current operation mode is in described first mode of operation,
Control described first electronic equipment is in open mode close to induction module, wherein, described close to sense
Answer module to include the first transmitter module and the first receiver module, described be positioned at and described close to induction module
The second position that one functional module place primary importance is different;
S103: show that described current operation mode is in described first mode of operation not in described testing result
With the second mode of operation time, control described first receiver module and be in described open mode and described first
Transmitter module is closed.
Wherein, in the embodiment of the present application, the priority that there is no execution between step S102 and step S103 is suitable
Sequence.Concrete execution process, according to the difference of testing result, correspondingly performs the step corresponding with testing result
Suddenly.
In the embodiment of the present application, step S101 to step S103 to implement process as follows:
During implementing, in order to by described first electronic equipment close to induction module based on
Concrete scene is adjusted correspondingly, and on the one hand meets various scene needs, on the other hand avoids described
The interference of the infrared light that the transmitter module on the first electronic equipment is launched.First, by detection described first
Whether the current operation mode of the first functional module in electronic equipment is in the first mode of operation, it is thus achieved that one
Testing result, and then determine the operative scenario that described first electronic equipment is presently in.Lift a concrete example
For son, in order to determine user A when using mobile phone and user B to communicate, now, at mobile phone
Duty in telephone communication.Wherein, by judge mobile phone whether already at on-state, and then really
Make whether the operative scenario that mobile phone is presently in is call scene.Can pass through for concrete detection process
Whether the current operation mode of the first functional module in detection mobile phone is in the first mode of operation, it is thus achieved that an inspection
Survey result.Here the microphone module in the first functional module such as mobile phone, earpiece module, etc..Here
To illustrate as a example by microphone module.Due in most of the cases, when the microphone module in mobile phone is in
During open mode, often show that user A and user B has been successfully established communication connection by this mobile phone.
Additionally, in the embodiment of the present application, determining the most whether mobile phone is in the communications status of closing of the circuit
Time, when receiving incoming call or calling, it is also possible to detect mobile phone by the distance-sensor on mobile phone
And whether the distance between adjacent object less than the first predeterminable range threshold value, with judge mobile phone whether from pocket or
Suitcase is taken out.After determining that mobile phone is taken out, detect mobile phone by the angular velocity sensor in mobile phone
Angular velocity, and judge whether obtained angular velocity reaches predetermined angle threshold speed, make a reservation for when angular velocity reaches this
During angular velocity threshold value and final close to zero, show that this mobile phone is in the state of being picked up, say, that full
Predetermined the answering of foot lifts action.Judge that current object apart from the distance of mobile phone is by distance tactility apparatus the most again
No it is less than the second predeterminable range threshold value, shows that user A is currently in use mobile phone and carries out telephone communication with user B,
Telephone communication now can be that user A phones user B, it is also possible to is user A listening user B
The phone made.
The most in the embodiment of the present application, it is also possible to judgment mode or detection mode by other are determined
The scene that mobile phone is presently in is the state of closing of the circuit communication, and those of ordinary skill in the art can basis
Concrete needs design accordingly.
When the current operation mode of described first functional module is in described first mode of operation, hands will be controlled
Proximity transducer on machine is started working, say, that determining that mobile phone is in the shape of closing of the circuit communication
After state, control mobile phone is in open mode close to induction module, wherein, include close to induction module red
Emission module and infrared receiving module.Specifically, the infrared transmission module on mobile phone is by actively launching
Infrared light, light is reflected back infrared receiving module again from object, is namely absorbed by infrared receiving module, enter
And recognised that object is near mobile phone.For giving a concrete illustration, when mobile phone is near the ear of user A
Piece time, be used to the backlight of closing hand phone display screen close to induction module, and disable touch function, thus anti-
Only any part on user's A cheek is unexpectedly hung up the telephone.Effective close to induction module by mobile phone
Decrease the power consumption of equipment, and extend the life-span of battery.
When described testing result, to show that described current operation mode is in different from described first mode of operation
During the second mode of operation, control described first receiver module and be in described open mode and described first transmitting mould
Block is closed.It is to say, when the sign mobile phones such as the microphone in mobile phone is closed are not in
During the state that closing of the circuit communicates, control infrared receiving module and be in open mode, and thereon first launches
Module is closed.At this point it is possible to received from the second electricity in environment by this infrared receiving module
The infrared light that infrared transmission module in subset sends, so that mobile phone can be held based on the infrared light received
The corresponding operation of row.
In the embodiment of the present application, after step s 102, i.e. determining that described first electronic equipment is in
During the communications status of closing of the circuit, control the first transmitter module in described first electronic equipment and first and receive
Module is in open mode, at this moment, when in the second electronic equipment different from described first electronic equipment
When two transmitter modules are in open mode, the first receiver module will receive the infrared of the first transmitter module transmission
The infrared light that light and the second transmitter module send, say, that, it is thus achieved that mixing infrared light.To receiving
Mixing infrared light can with use following two mode by mixing infrared light in two kinds of infrared lights distinguish,
But it is not limited only to following two mode, repeat the most one by one at this.
First kind of way
The infrared light of the different frequency received is distinguished by first kind of way by high-pass and low-pass filter,
In a kind of mode, refer to shown in Fig. 2, execution following steps:
S201: by described first receiver module receive described first transmitter module send the first infrared light and
The mixing infrared light that the second infrared light that the second transmitter module in second electronic equipment sends is constituted;
S202: by mixing the institute in infrared light described in the first filters filter in described first electronic equipment
State the first infrared light, it is thus achieved that and export described second infrared light;
S203: by mixing the institute in infrared light described in the second filters filter in described first electronic equipment
State the second infrared light, it is thus achieved that and export described first infrared light.
In the embodiment of the present application, step S201 to step S203 to implement process as follows:
By what the infrared receiving module reception infrared transmission module thereon in mobile phone sent, there is the first frequency
First infrared light of section, now, if the infrared transmission module in the second electronic equipment in environment is sending
There is the second infrared light of the second frequency range, then, it is infrared that the infrared receiving module in mobile phone will receive first
The mixing infrared light that light and the second infrared light are constituted.At this moment can be by the high pass filter arranged in mobile phone
With low pass filter, mixing infrared light is filtered.Wherein, by high pass filter, mixing infrared light is filtered
The infrared light for high frequency in mixing infrared light is will filter out, it is thus achieved that low frequency infrared light after ripple.In like manner, pass through
Low pass filter will filter out the infrared light in mixing infrared light for low frequency after filtering mixing infrared light, it is thus achieved that
High frequency-infrared light.For giving a concrete illustration, the first infrared light that the infrared transmission module in mobile phone sends
Frequency be 10HZ, and the infrared transmission module in the second electronic equipment of the most quiet lamp in environment is sent out
The frequency of the second infrared light sent here is 100KHZ, at this point it is possible to red by first by high-pass and low-pass filter
Outer light and the second infrared light distinguish.
When environment has multiple second electronic equipment, technology identical in first kind of way can be used
Means, and then the mixing infrared light formed by multiple infrared light distinguishes one by one, illustrates the most one by one at this.
The second way
The mixing infrared light received is distinguished, at the second by the way of time-sharing multiplex by the second way
In mode, refer to shown in Fig. 3, execution following steps:
S301: described first receiver module the first time slot receive that described first transmitter module sends first red
Outer light;
S302: described first receiver module receives the second electronics at the second time slot different from described first time slot
The second infrared light that the second transmitter module in equipment sends;
Wherein, described first time slot and described second time slot constitute described first receiver module reception described first
Infrared light and the sampling period of described second infrared light.
In the embodiment of the present application, step S301 to step S302 to implement process as follows:
Infrared receiving module in mobile phone will receive that infrared transmission module thereon sends at the first time slot the
One infrared light, meanwhile, infrared receiving module will receive such as at the second time slot different from described first time slot
The second infrared light that infrared transmission module in second equipment of quiet lamp sends.Wherein, described first time slot
Constitute infrared receiving module with described second time slot and receive described first infrared light and described second infrared light
Sampling period.For giving a concrete illustration, what quiet lamp mid-infrared transmitter module sent has specific coding
Infrared light time interval be 10ms once, mobile phone mid-infrared transmitter module send infrared light time interval
For 100ms once, then the mixing infrared light constituted for the two infrared light, by time interval it is
The first time slot that 10ms is constituted, and the second time slot that time interval is 100ms composition, red in order to constitute
Outer receiver module receives the sampling period of mixing infrared light, say, that the sampling period in this example is
110ms, the front 10ms in the sampling period are as the first time slot, and the rear 100ms in the sampling period is as
Two time slots, so, infrared receiving module just will be respectively received the first infrared light and the second infrared light.
When environment has multiple second electronic equipment, the identical skill in the second way can be used
Art means, and then the mixing infrared light formed by multiple infrared light distinguishes one by one, illustrates the most one by one at this
?.
In the embodiment of the present application, refer to shown in Fig. 4, after step S103, execution step:
S401: judge whether described first electronic equipment is in mute state, it is thus achieved that the first judged result;
S402: show that described first electronic equipment is not in described mute state in described first judged result
Time, receive the by the 3rd transmitter module transmission in silencing equipment the 3rd by described first receiver module infrared
Light;
S403: based on described 3rd infrared light, controls described first electronic equipment and is in described mute state.
In the embodiment of the present application, step S401 to step S403 to implement process as follows:
When the mobile phone determining user A is not in the naturalness that telephone communication is connected, described by controlling
First receiver module is in described open mode and described first transmitter module is closed, namely
Say, set the infrared receiving module clock on the first electronic equipment in running order, and then utilize this infrared
Receiver module receives the infrared light of the particular frequency bands that other electronic equipment sends, specific in receiving environment
During the infrared light encoded, control electronic equipment and be in the state adapted with scene.As incited somebody to action under conference model
User mobile phone is adjusted to not RINGING state by RINGING state.Specifically, the infrared receiving module in mobile phone will connect
Receive and sent, by the infrared transmission module in silencing equipment, the 3rd infrared light of coming, based on described 3rd infrared light,
Generate a control signal, control mobile phone and be in mute state.For giving a concrete illustration, in meeting room
Installing a quiet lamp, the infrared transmission module on this quiet lamp is in open mode, say, that to ring around
Border sends the 3rd infrared light, when the infrared receiving module on the mobile phone in meeting room receives three infrared lights
Control mobile phone is in mute state, now, ensure that the effect of the incoming call non-disturbance of meeting room largely
Really, thus avoid the cell phone incoming call interference to meeting.Even if user in session during forgotten will be with
Time the mobile phone furnishing mute state carried, it is also possible to the 3rd infrared light obtained by detection is by quiet for mobile phone furnishing
Sound-like state.Further, it is also possible to by judging whether mobile phone is in mute state, it is thus achieved that the first judged result,
When described first judged result shows that described first electronic equipment is not in described mute state, receive the 3rd
Infrared light, controls described first electronic equipment based on the 3rd infrared light and is in described mute state.
For the scene that part mobile phone cannot receive the infrared light that silencing equipment is sent, such as:
The mobile phone of user A is in pocket, at this moment, receives an incoming call, now by jingle bell, when user A should
When mobile phone takes out from pocket, the 3rd infrared light immediately detected, based on the 3rd infrared light received, i.e.
Just, on the premise of user's A access failure phone, mobile phone also will be in mute state.
In the embodiment of the present application, refer to shown in Fig. 5, after step S103, execution step:
S501: receive the sent by the 4th transmitter module in pushing equipment by described first receiver module
Four infrared lights;
S502: based on described 4th infrared light, it is thus achieved that the information content that described pushing equipment sends;
S503: described information content is shown on the display screen on described first electronic equipment.
In the embodiment of the present application, step S501 to S503 to implement process as follows:
When the mobile phone determining user A is not in the naturalness that telephone communication is connected, described by controlling
First receiver module is in described open mode and described first transmitter module is closed, namely
Say, set the infrared receiving module clock on the first electronic equipment in running order, and then utilize this infrared
Receiver module receives the infrared light of the particular frequency bands that other electronic equipment sends, specific in receiving environment
During the infrared light encoded, control electronic equipment and be in the state adapted with scene.Specifically, user A
Mobile phone receive, by infrared receiving module thereon, the sent by the infrared transmission module in pushing equipment
Four infrared lights, based on the 4th infrared light received, it is thus achieved that the information content that described pushing equipment sends, and
Described information content is shown on a display of the handset.For giving a concrete illustration, in available mobile phone
Infrared receiving module receive the infrared light of the specific coding in environment, based on the infrared light received, real
Having showed the propelling movement to information, the content pushed here can be the preferential action message of merchant store, or scenic spot
Travel information, or wireless cipher information, or the various contents such as conferencing information.Such as, user A is "
One big restaurant " prepare when having dinner, now, the infrared receiving module on user's A mobile phone receives and sets inside businessman
The 4th infrared light that the infrared launcher put is sent, based on the 4th infrared light, by various for this businessman of acquisition
The pushed information such as the preferential action message of vegetable and dish information, now user A just can be based on the letter obtained
Breath directly carries out selecting dish, it is to avoid the problem lost time by inquiry service man.For another example, at user A
When entering this businessman, directly internal for this businessman wifi password arranged is pushed to user by a pushing equipment
A, the most more user provide convenience.For the use of other application scenarios, at this most one by one
Illustrate.Certainly those of ordinary skill in the art can be designed as required.
Based on the inventive concept as information processing method a kind of in the embodiment of the present application one, as shown in Figure 6,
A kind of electronic equipment provided for the embodiment of the present application, including:
First detector unit 10, for detecting the current of the first functional module in described first electronic equipment
Whether mode of operation is in the first mode of operation, it is thus achieved that a testing result;
In described testing result, first control unit 20, shows that described current operation mode is in described first
During mode of operation, described first electronic equipment is in open mode close to induction module for controlling,
Wherein, described include the first transmitter module and the first receiver module close to induction module, described close to sensing
Module is positioned at the second position different from described first functional module place primary importance;
In described testing result, second control unit 30, shows that described current operation mode is in and described
During different the second mode of operation of one mode of operation, it is used for controlling described first receiver module and is in described beating
Open state and described first transmitter module are closed.
In the embodiment of the present application, in order to the current operation mode of described first functional module being in described
During one mode of operation, infrared light each of in the described first mixing infrared light received is differentiated one by one
Coming, described first electronic equipment also has following two form, and the first form is based on high-pass and low-pass filter,
The second form is based on time-sharing multiplex.But it is not limited only to following two form.
The first form
The first infrared light and second that described first transmitter module sends is received by described first receiver module
The mixing infrared light that the second infrared light that the second transmitter module in electronic equipment sends is constituted;
By mixing described the in infrared light described in the first filters filter in described first electronic equipment
One infrared light, it is thus achieved that and export described second infrared light;
By mixing described the in infrared light described in the second filters filter in described first electronic equipment
Two infrared lights, it is thus achieved that and export described first infrared light.
The second form
Described first receiver module receives, at the first time slot, the first infrared light that described first transmitter module sends;
Described first receiver module receives the second electronic equipment at the second time slot different from described first time slot
In second transmitter module send the second infrared light;
Wherein, described first time slot and described second time slot constitute described first receiver module reception described first
Infrared light and the sampling period of described second infrared light.
In the embodiment of the present application, the described present mode in described first functional module is in the second Working mould
During formula, described first receiver module is based on the 3rd infrared optical response phase from the second electronic equipment received
The operation answered.Described electronic equipment also includes following two situation, but is not limited only to following two situation.
The first situation
Described first electronic equipment also includes the first judging unit, is used for whether judging described first electronic equipment
It is in mute state, it is thus achieved that the first judged result;
When described first judged result shows that described first electronic equipment is not in described mute state, described
First receiver module is additionally operable to receive the 3rd infrared light sent by the 3rd transmitter module in silencing equipment;
3rd control unit, based on described 3rd infrared light, controls described first electronic equipment and is in described quiet
Sound-like state.
The second situation
Described electronic equipment also includes that described first receiver module is additionally operable to receive by the 4th in pushing equipment
The 4th infrared light that transmitter module sends;
First obtains unit, based on described 4th infrared light, it is thus achieved that the information content that described pushing equipment sends;
First display unit, for showing the display screen on described first electronic equipment by described information content
On.
By the one or more technical schemes in the embodiment of the present application, it is possible to achieve following one or more skills
Art effect:
In the technical scheme of the application, owing to using by detecting the first merit in described first electronic equipment
Whether the current operation mode of energy module is in the first mode of operation, it is thus achieved that a testing result;In described detection
Result shows when described current operation mode is in described first mode of operation, controls described first electronics and sets
It is in open mode close to induction module in Bei, shows at described current operation mode in described testing result
When the second mode of operation, control described first receiver module and be in described open mode and described first transmitting
The technological means that module is closed, thus efficiently solve existence in prior art and need to use simultaneously
The technical problem that two modules just can detect accordingly, it is achieved the detection of special infrared light in environment
Only need the technique effect that the first receiver module is in running order, it is, in this application,
Sometimes, it is only necessary to a module just can realize detecting function accordingly, so, furthermore achieved that
The technique effect effectively save to resource.
Further, owing to have employed the technical scheme of the embodiment of the present application, first on an electronic device connects
Receive module and be in open mode and time the first transmitter module is closed, it is achieved to special infrared in environment
When the detection of light, the first receiver module on an electronic device and the first transmitter module are all in open mode,
Achieve electronic equipment to object near time proximity test, and ensure that two kinds detection between mutually do not do
Disturb, so, it is achieved that electronic equipment can be in non-interfering situation according to the on off state of proximity transducer
The lower corresponding Function detection of realization.
Further, owing to have employed the technical scheme of the embodiment of the present application, even if connecing in electronic equipment
Receive module receive transmitter module thereon send infrared light and environment in other electronic equipment send come
Infrared light, the mixing infrared light that also can will receive, by using high-pass and low-pass filter, or timesharing is multiple
With etc. mode each infrared light is distinguished, and then response corresponding operating, so, it is achieved that electronic equipment can
The technique effect of the infrared light detected by correct response.
Those skilled in the art are it should be appreciated that embodiments of the invention can be provided as method, system or meter
Calculation machine program product.Therefore, the present invention can use complete hardware embodiment, complete software implementation or knot
The form of the embodiment in terms of conjunction software and hardware.And, the present invention can use and wherein wrap one or more
Computer-usable storage medium containing computer usable program code (include but not limited to disk memory,
CD-ROM, optical memory etc.) form of the upper computer program implemented.
The present invention is with reference to method, equipment (system) and computer program product according to embodiments of the present invention
The flow chart of product and/or block diagram describe.It should be understood that can by computer program instructions flowchart and
/ or block diagram in each flow process and/or flow process in square frame and flow chart and/or block diagram and/
Or the combination of square frame.These computer program instructions can be provided to general purpose computer, special-purpose computer, embedding
The processor of formula datatron or other programmable data processing device is to produce a machine so that by calculating
The instruction that the processor of machine or other programmable data processing device performs produces for realizing at flow chart one
The device of the function specified in individual flow process 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 computer or the process of other programmable datas can be guided to set
In the standby computer-readable memory worked in a specific way so that be stored in this computer-readable memory
Instruction produce and include the manufacture of command device, this command device realizes in one flow process or multiple of flow chart
The function specified in 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, makes
Sequence of operations step must be performed to produce computer implemented place on computer or other programmable devices
Reason, thus the instruction performed on computer or other programmable devices provides for realizing flow chart one
The step of the function specified in flow process or multiple flow process and/or one square frame of block diagram or multiple square frame.
Specifically, the computer program instructions that the information processing method in the embodiment of the present application is corresponding can be by
It is stored in CD, hard disk, on the storage medium such as USB flash disk, corresponding with information processing method when in storage medium
Computer program instructions read or when being performed by the first electronic equipment, comprise the steps:
Whether the current operation mode detecting the first functional module in described first electronic equipment is in first
Mode of operation a, it is thus achieved that testing result;
When described testing result shows that described current operation mode is in described first mode of operation, control
Described first electronic equipment is in open mode close to induction module, wherein, described close to sensing mould
Block includes the first transmitter module and the first receiver module, described is positioned at and described first merit close to induction module
The second position that energy module place primary importance is different;
Show that described current operation mode is in described testing result different from described first mode of operation
During the second mode of operation, control described first receiver module and be in described open mode and described first transmitting
Module is closed.
Alternatively, in described storage medium storage and step, described show described working as in described testing result
When front mode of operation is in described first mode of operation, control the close sensing in described first electronic equipment
After module is in open mode, when executed, described method also includes corresponding computer program instructions:
The first infrared light and second that described first transmitter module sends is received by described first receiver module
The mixing infrared light that the second infrared light that the second transmitter module in electronic equipment sends is constituted;
By mixing described the in infrared light described in the first filters filter in described first electronic equipment
One infrared light, it is thus achieved that and export described second infrared light;
By mixing described the in infrared light described in the second filters filter in described first electronic equipment
Two infrared lights, it is thus achieved that and export described first infrared light.
Alternatively, in described storage medium storage and step, described show described working as in described testing result
Front mode of operation is in described first mode of operation, controls the close sensing mould in described first electronic equipment
After block is in open mode, when executed, described method also includes corresponding computer program instructions:
Described first receiver module receives, at the first time slot, the first infrared light that described first transmitter module sends;
Described first receiver module receives the second electronic equipment at the second time slot different from described first time slot
In second transmitter module send the second infrared light;
Wherein, described first time slot and described second time slot constitute described first receiver module reception described first
Infrared light and the sampling period of described second infrared light.
Alternatively, in described storage medium storage and step, described show described working as in described testing result
When front mode of operation is in second mode of operation different from described first mode of operation, control described first
After receiver module is in described open mode and described first transmitter module is closed, corresponding meter
When executed, described method also includes calculation machine programmed instruction:
Judge whether described first electronic equipment is in mute state, it is thus achieved that the first judged result;
When described first judged result shows that described first electronic equipment is not in described mute state, pass through
Described first receiver module receives the 3rd infrared light sent by the 3rd transmitter module in silencing equipment;
Based on described 3rd infrared light, control described first electronic equipment and be in described mute state.
Alternatively, in described storage medium storage and step, described show described working as in described testing result
Front mode of operation is in second mode of operation different from described first mode of operation, controls described first and connects
Receive module and be in described open mode and after described first transmitter module is closed, corresponding calculating
When executed, described method also includes machine programmed instruction:
The by the 4th transmitter module transmission in pushing equipment the 4th is received red by described first receiver module
Outer light;
Based on described 4th infrared light, it is thus achieved that the information content that described pushing equipment sends;
Described information content is shown on the display screen on described first electronic equipment.
Although preferred embodiments of the present invention have been described, but those skilled in the art once know base
This creativeness concept, then can make other change and amendment to these embodiments.So, appended right is wanted
Ask and be intended to be construed to include preferred embodiment and fall into all changes and the amendment of the scope of the invention.
Obviously, those skilled in the art can carry out various change and modification without deviating from this to the present invention
Bright spirit and scope.So, if the present invention these amendment and modification belong to the claims in the present invention and
Within the scope of its equivalent technologies, then the present invention is also intended to comprise these change and modification.
Claims (10)
1. an information processing method, is applied to the first electronic equipment, and described method includes:
Whether the current operation mode detecting the first functional module in described first electronic equipment is in first
Mode of operation a, it is thus achieved that testing result;
When described testing result shows that described current operation mode is in described first mode of operation, control
Described first electronic equipment is in open mode close to induction module, wherein, described close to sensing mould
Block includes the first transmitter module and the first receiver module, described is positioned at and described first merit close to induction module
The second position that energy module place primary importance is different;
Show that described current operation mode is in described testing result different from described first mode of operation
During the second mode of operation, control described first receiver module and be in described open mode and described first transmitting
Module is closed.
2. the method for claim 1, it is characterised in that described show institute in described testing result
Stating current operation mode when being in described first mode of operation, control in described first electronic equipment is close
After induction module is in open mode, described method also includes:
The first infrared light and second that described first transmitter module sends is received by described first receiver module
The mixing infrared light that the second infrared light that the second transmitter module in electronic equipment sends is constituted;
By mixing described the in infrared light described in the first filters filter in described first electronic equipment
One infrared light, it is thus achieved that and export described second infrared light;
By mixing described the in infrared light described in the second filters filter in described first electronic equipment
Two infrared lights, it is thus achieved that and export described first infrared light.
3. the method for claim 1, it is characterised in that described show institute in described testing result
State current operation mode and be in described first mode of operation, control the close sense in described first electronic equipment
After answering module to be in open mode, described method also includes:
Described first receiver module receives, at the first time slot, the first infrared light that described first transmitter module sends;
Described first receiver module receives the second electronic equipment at the second time slot different from described first time slot
In second transmitter module send the second infrared light;
Wherein, described first time slot and described second time slot constitute described first receiver module reception described first
Infrared light and the sampling period of described second infrared light.
4. the method as described in claim as arbitrary in claim 1-3, it is characterised in that described in described detection
Result shows that described current operation mode is in second mode of operation different from described first mode of operation
Time, control described first receiver module and be in described open mode and described first transmitter module is in closedown
After state, described method also includes:
Judge whether described first electronic equipment is in mute state, it is thus achieved that the first judged result;
When described first judged result shows that described first electronic equipment is not in described mute state, pass through
Described first receiver module receives the 3rd infrared light sent by the 3rd transmitter module in silencing equipment;
Based on described 3rd infrared light, control described first electronic equipment and be in described mute state.
5. the method as described in claim as arbitrary in claim 1-3, it is characterised in that described in described detection
Result shows that described current operation mode is in second mode of operation different from described first mode of operation,
Control described first receiver module and be in described open mode and described first transmitter module is closed
Afterwards, described method also includes:
The by the 4th transmitter module transmission in pushing equipment the 4th is received red by described first receiver module
Outer light;
Based on described 4th infrared light, it is thus achieved that the information content that described pushing equipment sends;
Described information content is shown on the display screen on described first electronic equipment.
6. an electronic equipment, including:
First detector unit, for detecting the current work of the first functional module in described first electronic equipment
Whether operation mode is in the first mode of operation, it is thus achieved that a testing result;
In described testing result, first control unit, shows that described current operation mode is in described first work
During operation mode, described first electronic equipment is in open mode close to induction module for controlling, its
In, described include the first transmitter module and the first receiver module close to induction module, described close to sensing mould
Block is positioned at the second position different from described first functional module place primary importance;
In described testing result, second control unit, shows that described current operation mode is in and described first
During different the second mode of operation of mode of operation, be used for controlling described first receiver module be in described in open
State and described first transmitter module are closed.
7. electronic equipment as claimed in claim 6, it is characterised in that described first receiver module is used for
Receive described first transmitter module send the first infrared light and the second electronic equipment in the second transmitter module
The mixing infrared light that the second infrared light sent is constituted;
Described first electronic equipment also includes the first wave filter and the second wave filter, wherein, described first filtering
Device is for filtering described first infrared light in described mixing infrared light, it is thus achieved that and export described second infrared
Light, described second wave filter is for filtering described second infrared light in described mixing infrared light, it is thus achieved that and defeated
Go out described first infrared light.
8. electronic equipment as claimed in claim 6, it is characterised in that described first receiver module is also used
In:
The first infrared light that described first transmitter module sends is received at the first time slot;
The second transmitter module in the second electronic equipment is received at the second time slot different from described first time slot
The second infrared light sent;
Wherein, described first time slot and described second time slot constitute described first receiver module reception described first
Infrared light and the sampling period of described second infrared light.
9. the electronic equipment as described in claim as arbitrary in claim 6-8, it is characterised in that described electronics sets
For also including:
First judging unit, is used for judging whether described first electronic equipment is in mute state, it is thus achieved that first
Judged result;
When described first judged result shows that described first electronic equipment is not in described mute state, described
First receiver module is additionally operable to receive the 3rd infrared light sent by the 3rd transmitter module in silencing equipment;
3rd control unit, based on described 3rd infrared light, controls described first electronic equipment and is in described quiet
Sound-like state.
10. the electronic equipment as described in claim as arbitrary in claim 6-8, it is characterised in that described electronics sets
For also including:
Described first receiver module is additionally operable to receive the 4th sent by the 4th transmitter module in pushing equipment
Infrared light;
First obtains unit, based on described 4th infrared light, it is thus achieved that the information content that described pushing equipment sends;
First display unit, for showing the display screen on described first electronic equipment by described information content
On.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510114368.5A CN106034175B (en) | 2015-03-16 | 2015-03-16 | A kind of information processing method and electronic equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510114368.5A CN106034175B (en) | 2015-03-16 | 2015-03-16 | A kind of information processing method and electronic equipment |
Publications (2)
Publication Number | Publication Date |
---|---|
CN106034175A true CN106034175A (en) | 2016-10-19 |
CN106034175B CN106034175B (en) | 2019-11-26 |
Family
ID=57150848
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201510114368.5A Active CN106034175B (en) | 2015-03-16 | 2015-03-16 | A kind of information processing method and electronic equipment |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106034175B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107333010A (en) * | 2017-08-30 | 2017-11-07 | 无锡北斗星通信息科技有限公司 | mobile phone scene adaptive analysis platform |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2315420A1 (en) * | 2009-10-26 | 2011-04-27 | LG Electronics | Motion detecting input device for a mobile terminal |
CN103024197A (en) * | 2012-12-28 | 2013-04-03 | 广东欧珀移动通信有限公司 | Touch screen cellphone capable of preventing misoperations during calls and using method for touch screen cellphone |
CN103369145A (en) * | 2013-07-11 | 2013-10-23 | 广东欧珀移动通信有限公司 | Method for processing misoperation in mobile phone communication process through gyroscope |
CN103369144A (en) * | 2013-07-11 | 2013-10-23 | 广东欧珀移动通信有限公司 | Method for processing misoperation in mobile phone communication process through acceleration sensor |
CN103369142A (en) * | 2013-07-09 | 2013-10-23 | 广东欧珀移动通信有限公司 | Method and system for avoiding call-up malfunction |
-
2015
- 2015-03-16 CN CN201510114368.5A patent/CN106034175B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2315420A1 (en) * | 2009-10-26 | 2011-04-27 | LG Electronics | Motion detecting input device for a mobile terminal |
CN103024197A (en) * | 2012-12-28 | 2013-04-03 | 广东欧珀移动通信有限公司 | Touch screen cellphone capable of preventing misoperations during calls and using method for touch screen cellphone |
CN103369142A (en) * | 2013-07-09 | 2013-10-23 | 广东欧珀移动通信有限公司 | Method and system for avoiding call-up malfunction |
CN103369145A (en) * | 2013-07-11 | 2013-10-23 | 广东欧珀移动通信有限公司 | Method for processing misoperation in mobile phone communication process through gyroscope |
CN103369144A (en) * | 2013-07-11 | 2013-10-23 | 广东欧珀移动通信有限公司 | Method for processing misoperation in mobile phone communication process through acceleration sensor |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107333010A (en) * | 2017-08-30 | 2017-11-07 | 无锡北斗星通信息科技有限公司 | mobile phone scene adaptive analysis platform |
CN107333010B (en) * | 2017-08-30 | 2018-06-29 | 李培枝 | mobile phone scene adaptive analysis platform |
Also Published As
Publication number | Publication date |
---|---|
CN106034175B (en) | 2019-11-26 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP3429174B1 (en) | Automatic routing of call audio at incoming call | |
US8131322B2 (en) | Enabling speaker phone mode of a portable voice communications device having a built-in camera | |
WO2017197650A1 (en) | Method and device for interaction in call | |
CN103428368B (en) | Method and device for realizing silent incoming call of intelligent terminal | |
EP3028403B1 (en) | Home appliance and control method thereof | |
CN102254385B (en) | Control method and system of doorbell response | |
EP2433380A2 (en) | Terminal and method for executing function using human body communication | |
CN104581665B (en) | A kind of method and device of call transfer | |
CN204069102U (en) | Interactive bluetooth earphone and mobile terminal | |
CN105656523A (en) | Bluetooth master device, incoming call processing method and device of the same | |
CN105391621B (en) | Information communicating method and device | |
CN106940997B (en) | Method and device for sending voice signal to voice recognition system | |
CN105100484B (en) | A kind of methods, devices and systems for terminating voice call | |
CN115190197B (en) | Bluetooth headset-based communication method and device and storage medium | |
CN104935729B (en) | Audio-frequency inputting method and device | |
CN104601787A (en) | Information processing method and apparatus | |
CN109710142A (en) | A kind of method and terminal for controlling terminal screen light on and off | |
CN105204713B (en) | Incoming call response method and device | |
CN107592407A (en) | The method and device of adjustment call relevant information in communication process | |
CN104065794A (en) | Incoming call processing method and device | |
CN106161758A (en) | Incoming call sound method and device | |
CN105227775A (en) | A kind of voice incoming call processing method and device | |
CN105827823B (en) | A kind of call control method and mobile terminal | |
CN108566221B (en) | Call control method and related equipment | |
CN102970442A (en) | Method for handling incoming calls on smart touch screen mobile phone |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |