CN105825855A - Information processing method and main terminal equipment - Google Patents

Abstract

The invention provides an information processing method and main terminal equipment, and is used for solving the technical problem that a response effect of terminal equipment in a voice interaction process is relatively poor. The method includes the following steps: at least one piece of audio information is obtained through main terminal equipment in a voice processing system, wherein the at least one audio information includes audio information received by the main terminal equipment through a communication interface and collected by at least one piece of sub terminal equipment connected with the main terminal equipment; the main terminal equipment determines first audio information that satisfies preset conditions among the at least one piece of audio information; and the main terminal equipment sends the first audio information to a server in the voice processing system, so as to obtain a processing result for the first audio information which is fed back by the server.

Description

A kind of information processing method and MTU

Technical field

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

Background technology

Along with developing rapidly of science and technology, the life of people the most gradually enters into the intelligence epoch.Being not only computer, mobile phone, PAD etc., the every aspect of the clothing, food, lodging and transportion--basic necessities of life of people all starts to be applied to intellectual technology, and such as intelligent television, intelligent navigation, Smart Home etc., intellectual technology is that daily life provides and conveniently services.

Wherein, interactive voice technology has provided the user a kind of new interactive mode based on artificial speech input, and user only needs just to control related terminal device by speaking and performs corresponding operation.At present, in user uses interactive voice technical process, in order to ensure the effectiveness to voice, typically require user to be in certain limit with the terminal unit being intended to control, as user needs the distance between control equipment, less than in the range of 1m, equipment is carried out Voice command, accordingly, it may be desirable to user carries with equipment or moves to the position that distance equipment is the nearest.But, in actual application, user is when by voice control device, and it is distant that it may and need between the terminal unit controlled, thus causes equipment to cannot respond to the phonetic order of user, therefore the response effect that terminal unit is during interactive voice is poor.

Summary of the invention

The application provides a kind of information processing method and MTU, for solving the technical problem that terminal unit response effect during interactive voice is poor.

On the one hand, the application provides a kind of information processing method, including:

Obtaining at least one audio-frequency information by the MTU in speech processing system, at least one audio-frequency information described includes the audio-frequency information gathered from least one the sub-terminal unit being connected with described MTU that described MTU is received by communication interface；

Described MTU determines at least one audio-frequency information described and meets the first pre-conditioned audio-frequency information；

Described first audio-frequency information is sent to the server in described speech processing system by described MTU, to obtain the result for described first audio-frequency information of described server feedback.

Optionally, obtain at least one audio-frequency information by the MTU in speech processing system, including:

The audio-frequency information that described MTU is presently in environment is gathered by the audio collection unit of described MTU；And

From at least one the sub-terminal unit being connected with described MTU, audio-frequency information is obtained by first communication party formula；

Wherein, described first communication party formula is different from the second communication method between described MTU and server.

Optionally, described MTU determines at least one audio-frequency information described and meets the first pre-conditioned audio-frequency information, including:

Described MTU obtains the audio frequency parameter for showing audio quality of each audio-frequency information at least one audio-frequency information described；

Audio frequency parameter corresponding at least one audio-frequency information described is met pre-conditioned audio-frequency information and is defined as described first audio-frequency information.

Optionally, described MTU determines at least one audio-frequency information described and meets the first pre-conditioned audio-frequency information, including:

Described MTU determine at least one sub-terminal unit described with user-dependent first sub-terminal unit；

It is defined as audio-frequency information corresponding for described first sub-terminal unit meeting described pre-conditioned described first audio-frequency information.

Optionally, described method also includes:

Described MTU receives first control instruction corresponding with described first audio-frequency information sent from described server；

Determine and described first control instruction corresponding target terminal equipment；

Described first control instruction is sent to described target terminal equipment by described first communication party formula, to perform described first control instruction by described target terminal equipment.

Optionally, determine and described first control instruction corresponding target terminal equipment, including:

The first sub-terminal unit corresponding to described device identification, based on the described first corresponding device identification of audio-frequency information, is defined as the target terminal equipment relevant with described first control instruction by described MTU；Or

Described MTU determines that at least one the controlled terminal equipment being connected with described MTU is the target terminal equipment corresponding with described first control instruction.

Optionally, after the sub-terminal unit corresponding to described device identification is defined as the target terminal equipment relevant with described first control instruction, described method also includes:

Determine at least one controlled terminal equipment corresponding with described first control instruction in the controlled terminal equipment being connected with described first sub-terminal unit；

Described MTU controls described first sub-terminal unit and described first control instruction is sent at least one controlled terminal equipment described, completes the operation corresponding with described first control instruction with control at least one controlled terminal equipment described.

Optionally, however, it is determined that be described MTU with described first control instruction corresponding target terminal equipment, determining that described method also includes with after described first control instruction corresponding target terminal equipment:

Described MTU responds described first control instruction.

Second aspect, the application provides a kind of MTU, including:

First communication interface, for receiving the audio-frequency information gathered from least one the sub-terminal unit being connected with described MTU, described MTU includes at least one audio-frequency information；

Processor, meets the first pre-conditioned audio-frequency information for determining at least one audio-frequency information described；

Second communication interface, for described first audio-frequency information is sent to the server in described speech processing system, and obtains the result for described first audio-frequency information of described server feedback.

Optionally, the communication mode that described first communication interface uses is first communication party formula, and the second communication method that described first communication party formula is used from described second communication interface is different.

Optionally, when the result in described server feedback is first control instruction corresponding with described first audio-frequency information, described first communication interface is additionally operable to:

By described first communication party formula, described first control instruction is sent to target terminal equipment corresponding with described first control instruction at least one sub-control terminal equipment described；Or

By described first communication party formula, described first control instruction is sent to target control terminal corresponding with described first control instruction at least one the controlled terminal equipment being connected with described MTU.

The third aspect, the application provides a kind of MTU, including:

Acquisition module, is used for obtaining at least one audio-frequency information, and at least one audio-frequency information described includes the audio-frequency information gathered from least one the sub-terminal unit being connected with described MTU that described MTU is received by communication interface；

Determine module, meet the first pre-conditioned audio-frequency information for determining at least one audio-frequency information described；

Processing module, for the server being sent in speech processing system by described first audio-frequency information, to obtain the result for described first audio-frequency information of described server feedback.

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

In the application, owing to the MTU in speech processing system includes at least one audio-frequency information, at least one audio-frequency information includes the audio-frequency information that at least one the sub-terminal unit being connected with MTU received by communication interface is gathered, and then be may determine that by MTU at least one audio-frequency information meets the first pre-conditioned audio-frequency information, and the server that the first audio-frequency information is sent in speech processing system, to obtain the result based on the first audio-frequency information of server feedback.nullTherefore，During carrying out interactive voice，MTU can obtain at least one audio-frequency information by least one coupled sub-terminal unit，Therefore without user and need distance between device to be controlled to keep the nearest，And then MTU can filter out from least one audio-frequency information and meet the first pre-conditioned audio-frequency information，And the server that the first audio-frequency information is sent in speech processing system is processed，To obtain corresponding result，Therefore during gathering audio-frequency information，No matter the position between user and controlled device，Main control terminal equipment is by obtaining the audio-frequency information that many sub-terminal units gather，I.e. can determine that the first audio-frequency information，Thus by the process of speech processing system，It is capable of the process to the first audio-frequency information and response，Thus improve the terminal unit response effect to phonetic order during interactive voice.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present application or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only the embodiment of the present application, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to the accompanying drawing provided.

Fig. 1 is the structural representation of speech processing system in the embodiment of the present invention；

Fig. 2 is the broad flow diagram of information processing method in the embodiment of the present invention；

Fig. 3 is the structure chart of MTU in the embodiment of the present invention；

Fig. 4 is the module diagram of MTU in the embodiment of the present invention.

Detailed description of the invention

For making the purpose of the embodiment of the present invention, technical scheme and advantage clearer, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

In the embodiment of the present invention, speech processing system could be for the system processing audio signal, and it may be used for carrying out voice coding, phonetic synthesis, speech recognition and speech enhan-cement etc..Speech processing system in the embodiment of the present invention at least can be used for carrying out speech recognition, to realize the interactive voice between user and terminal.The structure of speech processing system in the embodiment of the present invention will be introduced below.

As it is shown in figure 1, speech processing system can include MTU, sub-terminal unit and server, wherein, MTU is connected with sub-terminal unit and server respectively.

In the embodiment of the present invention, speech processing system can support to carry out the demand of interactive voice in multiple environment.Sub-terminal unit can be distributed in identical or different environment, the information (such as acoustic information) gathered can be uploaded to MTU by sub-terminal unit, can be sent in server process by corresponding acoustic information by MTU, thus obtain corresponding result, so that MTU can control sub-terminal unit based on result carries out response etc., to realize interactive voice process.

Certainly, this speech processing system can also be applied to other application scenarios, is based primarily upon it and is introduced the processing procedure of audio-frequency information in the embodiment of the present invention.

It addition, the terms "and/or", a kind of incidence relation describing affiliated partner, can there are three kinds of relations, such as, A and/or B, can represent in expression: individualism A, there is A and B, individualism B these three situation simultaneously.It addition, character "/" herein, typically represent forward-backward correlation to as if the relation of a kind of "or".

Below in conjunction with the accompanying drawings the preferred embodiment of the present invention is described in detail.

As in figure 2 it is shown, the embodiment of the present invention provides a kind of information processing method, the method is described as follows.

S11: obtain at least one audio-frequency information by the MTU in speech processing system, at least one audio-frequency information includes the audio-frequency information gathered from the sub-terminal unit of at least one being connected with MTU that MTU is received by communication interface；

S12: MTU determines and meets the first pre-conditioned audio-frequency information at least one audio-frequency information；

The server that first audio-frequency information is sent in speech processing system by S13: MTU, to obtain the result for the first audio-frequency information of server feedback.

nullSpecifically，After MTU in speech processing system obtains at least one audio-frequency information gathered by sub-terminal unit，MTU can determine that and meets the first pre-conditioned audio-frequency information at least one audio-frequency information，And then the first audio-frequency information determined is sent to coupled server by MTU，By speech processing system server, the first audio-frequency information can be processed，To obtain the corresponding result of server feedback，Therefore the acquisition of the audio-frequency information gathered by MTU antithetical phrase terminal unit、Process and transmission，The result to audio-frequency information of server feedback can be obtained，Therefore just can realize the audio-frequency information from each sub-terminal unit collection is processed by the MTU being connected with sub-terminal and the server that is connected with MTU，Make speech processing system stronger to the disposal ability of audio-frequency information.

Audio-frequency information in the embodiment of the present invention can be voice messaging, music information or the effect sound information etc. including being gathered by audio collection unit.

Optionally, can be provided with corresponding input block in sub-terminal unit, input block can include audio collection unit, such as mike (or microphone array) etc..Sub-terminal unit can gather corresponding audio-frequency information by input block.Such as, sub-terminal unit gathers the acoustic information being presently in environment as audio-frequency information by the audio collection unit (such as microphone array) of self.And then, acoustic information can be sent to MTU by sub-terminal unit, and MTU can receive, by communication interface, the audio-frequency information that sub-terminal unit is sent.

Optionally, when in the embodiment of the present invention, the communication interface of MTU receives the audio-frequency information that sub-terminal unit sends, first communication party formula can be used between MTU and sub-terminal unit to be attached, wherein, first communication party formula is different from the second communication method between MTU and server.Specifically, the maximum communication distance of first communication party formula can be less than the maximum communication distance of second communication method.

Such as, first communication party formula between MTU and sub-terminal unit can be the connected mode realized by short-range communication technique, as used bluetooth, then the maximum communication distance of its correspondence can be 30m, if the second communication method used between sub-terminal unit and server is WLAN (WirelessLocalAreaNetworks, WLAN), the maximum communication distance of its correspondence can be 500m, therefore the communication distance of second communication method is more than the communication distance of first communication party formula.

In an alternative embodiment of the invention, MTU can also be provided with input block (such as audio collection unit), when then in S11, MTU obtains at least one audio-frequency information, can also is that and gather, by the audio collection unit of MTU, the audio-frequency information that MTU is presently in environment, i.e. at least one audio-frequency information in speech processing system can include the audio-frequency information gathered voluntarily by MTU.

Such as, when MTU is in home environment, then MTU can gather audio-frequency information present in current environment by the microphone array of self, such as the sound etc. of speaking of user in bedroom.

Optionally, after S11, at least one audio-frequency information obtained can also be processed by MTU accordingly, and then can carry out S12 and meet the first pre-conditioned audio-frequency information to determine.

Wherein, MTU can be to process for the primary sound audio-frequency information at least one audio-frequency information for the process of audio-frequency information.This primary sound audio-frequency information can be that MTU oneself gathers, or, it can also be the audio-frequency information from sub-terminal unit that MTU receives, noise suppressed can be by process when audio-frequency information is processed, even echo cancellation process, etc., thus reduce and even eliminate interference factor present in audio-frequency information, such as noise, echo etc..

Certainly, in actual applications, the audio-frequency information that MTU receives can be the audio-frequency information processed by sub-terminal unit, the most sub-terminal unit is after collecting audio-frequency information, it can carry out preliminary treatment to audio-frequency information, as audio-frequency information carries out noise suppressed process, echo cancellation process etc., and then the audio-frequency information after be able to being processed by first communication party formula is sent to MTU, thus reduces the work load that can process audio-frequency information with MTU.

In S12, MTU determines when meeting the first pre-conditioned audio-frequency information, can be not limited only to following two mode to use.

Mode one: MTU can obtain the audio frequency parameter for showing audio quality of each audio-frequency information at least one audio-frequency information, meets pre-conditioned audio-frequency information by audio frequency parameter corresponding at least one audio-frequency information and is defined as the first audio-frequency information.

Wherein, audio frequency parameter can include signal to noise ratio and/or sound signal intensity, etc., MTU can be by can determine the audio quality of audio-frequency information to the analysis of the audio frequency parameter of each audio-frequency information.As a rule, signal to noise ratio is the highest, or sound signal intensity is the biggest, shows that the audio quality of audio-frequency information is the best.MTU can obtain the corresponding audio frequency parameter of audio signal when receiving or gather audio-frequency information.

In this mode, pre-conditioned can be to determine at least one audio-frequency information sound intermediate frequency quality audio signal higher than preset audio quality based on audio frequency parameter, or can also be that at least one audio-frequency information is arranged from high to low according to audio quality, and determine the audio-frequency information before being in arrangement sequence number, as being in the audio-frequency information of the most forward (i.e. serial number 1) in arrangement sequence number, it is at least one top-quality audio-frequency information of audio-frequency information sound intermediate frequency.

In an alternative embodiment of the invention, before employing mode one determines the first audio-frequency information, by sub-terminal unit, the audio-frequency information of height collection can also be carried out preliminary process and screening, to improve MTU work efficiency during determining the first audio-frequency information.I.e. after sub-terminal unit gathers audio signal, audio signal can be carried out preliminary treatment, and then, sub-terminal unit is also based on the audio frequency parameter of audio signal and carries out preliminary screening.

Wherein, when carrying out preliminary screening, signal to noise ratio in the audio-frequency information of collection can be uploaded to MTU more than or equal to the audio-frequency information presetting signal to noise ratio by sub-terminal unit.As a rule, more than or equal to the audio-frequency information presetting signal to noise ratio, signal to noise ratio can be defined as audio quality more, default signal to noise ratio can be according to the parameter set by user's actual need or equipment configuration.

Such as, if presetting signal to noise ratio can be 80dB, when sub-terminal unit collects an audio-frequency information, during if it is determined that the signal to noise ratio of this audio-frequency information is more than or equal to 80dB, then show that the definition of this audio-frequency information is higher, it is probably the phonetic order information that user sends, now, this audio-frequency information can be uploaded to MTU by sub-terminal unit, certainly, if it is determined that the signal to noise ratio of the audio-frequency information gathered is less than 80dB, the most sub-terminal unit can not transmit this audio-frequency information to MTU, even can also give up this audio-frequency information.

Or, when audio-frequency information being carried out preliminary screening by sub-terminal, it is also possible to be that signal intensity in audio-frequency information is uploaded to MTU more than the audio-frequency information of preset signal strength by sub-terminal unit.Even, it is also possible to be only sub-terminal unit determine the signal to noise ratio of audio signal of collection and signal intensity meet respectively condition is set time, just audio signal is sent to MTU, thus reduces the work load of MTU.In actual applications, the condition that arranges screened audio-frequency information by sub-terminal can be configured according to practical situation, and this is not specifically limited by the present invention.

Mode two: MTU determine at least one sub-terminal unit with user-dependent first sub-terminal unit, be defined as meeting the first pre-conditioned audio-frequency information by audio-frequency information corresponding for the first sub-terminal unit.

In the embodiment of the present invention, the first sub-terminal unit can be in same environment with user, and and user between closest terminal unit.

Wherein, MTU is when determining with user-dependent first sub-terminal unit, by the electronic equipment that user wears, the current location of user can be positioned, and then according to each sub-terminal unit location region, determine and user-dependent first sub-terminal unit, and then the audio-frequency information gathered by the first sub-terminal unit determined is as the first audio-frequency information.

nullSuch as，If user and sub-terminal unit A、Sub-terminal unit B and sub-terminal unit C is in the same family environment，The intelligent watch wherein worn by user determines that the position of user is in room 1，Simultaneously，Determine that sub-terminal unit A and sub-terminal unit B is in room 1，Sub-terminal unit C is in room 2，Wherein，Sub-terminal unit A、Distance between sub-terminal unit B and sub-terminal unit C and the position of user is respectively D1、D2、D3，And D2 > D1 > D3，Although D3 is minimum，But sub-terminal unit C is in different rooms from user，Between the most sub-terminal unit C and user may only one wall every，And sub-terminal unit A and sub-terminal unit B and user are in the same area (room 1)，And D1 is shorter compared to D2，So time，Then master terminal sets the audio-frequency information needing to select to be in same environment with user and gathered apart near sub-terminal unit A as the first audio-frequency information.

As a rule, it is in the terminal unit in same environment with user, the audio quality of the audio-frequency information that the nearest terminal unit of distance users is gathered is the best, therefore it is determined by the audio-frequency information corresponding with user-dependent sub-terminal unit as the first audio-frequency information, it is possible to increase the system recognition effect to the first audio-frequency information.

In an alternative embodiment of the invention, when determining with user-dependent first sub-terminal unit, it is also possible to be detection functional realiey based on sub-terminal unit.Such as, sub-terminal unit can carry out image acquisition by photographic head to being presently in environment, then determine collect the image including user images time, i.e. can determine that in current environment and there is user, therefore can using this sub-terminal unit as with user-dependent first sub-terminal unit, and then can be using the audio-frequency information that gathered by this sub-terminal unit as the first audio-frequency information.

In addition, if the photographic head in sub-terminal unit is depth camera, then it is also based on the depth information of the user images gathered, determine the relative distance between sub-terminal unit and user, and then can be using audio-frequency information that is the shortest for relative distance or that gather less than or equal to the sub-terminal unit presetting relative distance as the first audio-frequency information.

Therefore, in actual applications, if sub-terminal unit can be by detecting the relative distance between device (as first-class in shooting) detection and user accordingly, then when the audio-frequency information of collection is sent to MTU by first communication party formula by sub-terminal unit, only the audio-frequency information that sub-terminal unit user being detected is gathered can be sent to MTU, thus reduce the amount of the audio-frequency information that sub-terminal unit sends to MTU, save transmission bandwidth.

In S13, first audio-frequency information can be sent to server by second communication method (such as WLAN) by MTU, so that the first audio-frequency information can be processed by server, and result is fed back to MTU so that MTU can carry out corresponding measure according to server to the result of the first audio-frequency information.

Specifically, server can carry out voice recognition processing to the first audio-frequency information, and determines whether data base exists its corresponding control instruction based on recognition result.

On the one hand, if existing, this control instruction can be called as first control instruction corresponding with the first audio-frequency information, and the first control instruction is sent to MTU.

Such as, if the first audio-frequency information is " controlling water heater heating ", existence first control instruction corresponding with this audio-frequency information is determined by the identification of server, then the first control instruction could be for controlling the instruction that water heater carries out heating, and then this control instruction can be sent to MTU, as the result processing the first audio-frequency information by server.

Certainly, in actual applications, after server determines first control instruction corresponding with the first audio-frequency information and controlled terminal equipment corresponding to the first control instruction, also can directly the first control instruction be sent to the controlled terminal equipment being correlated with, the first control instruction being used for controlling water heater heating can be transmitted directly to water heater by such as server, thus controlling water heater heating, control mode is relatively simple.

On the other hand, however, it is determined that in the data base of server, there is not first control instruction corresponding with the first audio-frequency information, then the result feeding back to MTU can be " None-identified " or " not inquiring matching instruction " etc..

Specifically, when MTU receives corresponding with the first audio-frequency information the first control instruction sent from server, may determine that and the first control instruction corresponding target terminal equipment, and the first control instruction is sent to target terminal equipment by first communication party formula, to perform the first control instruction by target terminal equipment.

Wherein it is determined that the process of target terminal equipment can include but are not limited to following two method.

Method one: the first sub-terminal unit corresponding to device identification, based on the first corresponding device identification of audio-frequency information, is defined as the target terminal equipment relevant with the first control instruction by MTU.

Wherein, device identification can be speech processing system be the mark for uniquely tagged terminal unit that the terminal unit that is in system is arranged.When sub-terminal unit uploads audio-frequency information, audio-frequency information can carry the device identification gathering this sub-terminal unit, thus be sent to MTU, therefore according to the first corresponding device identification of audio-frequency information, i.e. can determine that the sub-terminal unit of first relevant to the first control instruction.Now, the first sub-terminal unit gathers the equipment of the first audio-frequency information in being at least one sub-terminal unit.

Such as, if the first audio-frequency information is " quick air draught pattern ", the sub-terminal unit that the device identification of its correspondence is corresponding is the intelligent fume exhauster being arranged in kitchen, now, intelligent fume exhauster is and the first control instruction corresponding target terminal equipment, and the first control instruction is control smoke exhaust ventilator and present mode is adjusted to the instruction of " quick air draught pattern ".

In actual applications, function achieved by the terminal in speech processing system is limited, therefore, main control terminal equipment and/or sub-terminal unit can also connect corresponding controlled terminal equipment, and controlled terminal equipment can be by coupled sub-terminal unit or the control of MTU and management.Wherein, controlled terminal equipment can be intelligent home device, and such as intelligent curtain, intelligent sound, humidifier etc., the present invention is not specifically limited.

Then in another embodiment of the present invention, after the first control instruction is sent to the first sub-terminal unit by MTU, the first sub-terminal unit can also determine and the first control instruction corresponding target terminal equipment in connected controlled terminal.Now, this target terminal equipment can be in the controlled terminal equipment being connected with the first sub-terminal unit, there is the terminal of function corresponding to the first control instruction, and then, first control instruction can be transmitted directly to the controlled terminal equipment (i.e. target terminal equipment) determined by the first sub-terminal unit, completes the operation corresponding with the first control instruction controlling this controlled terminal equipment.

Such as, the sub-terminal unit gathering the first audio-frequency information can be sub-terminal unit A, and the controlled terminal equipment being connected with sub-terminal unit A has water heater, depurator and intelligent sound.If the first audio-frequency information is " controlling water heater heating ", determine that sub-terminal unit A is corresponding sub-terminal unit based on its device identification carried, then receive after MTU sends the first control instruction that the first audio-frequency information is corresponding at sub-terminal unit A, may determine that the first control instruction is the instruction that the water heater controlled in controlled terminal equipment carries out heating, now, first control instruction can be sent to water heater by sub-terminal unit A, the mode of operation heated water to control water heater to enter.

Method two: MTU determines that at least one the controlled terminal equipment being connected with MTU is the target terminal equipment corresponding with the first control instruction.

Specifically, when determining target terminal equipment in the method, following several situation can be included but are not limited to.

Situation one: when master terminal is directly connected with at least one controlled terminal equipment, the controlled terminal equipment at least one controlled terminal with the function corresponding with the first control instruction is defined as target terminal equipment.

Such as, if the controlled terminal equipment being directly connected to MTU includes water heater, humidifier and air purifier, first audio-frequency information is " purifying the air of a room ", target terminal equipment corresponding to the first control instruction of determining can be the air purifier in controlled terminal equipment, both there is the controlled terminal equipment of execution " purification air " function, now, first control instruction can be sent to air purifier by MTU, to be performed the control instruction for purifying air by air purifier.

Situation two: at least one controlled terminal equipment, sub-terminal unit and MTU are in the same family network, corresponding with the first control instruction controlled in equipment can be determined by sub-terminal unit, and then, the controlled terminal equipment that the first control instruction can be sent directly to determine by MTU performs.

In actual applications, can be the sub-terminal unit uploading the first audio-frequency information for determining the sub-terminal unit of the first control instruction, or, it is also possible to being to be able to carry out and the sub-terminal unit of the first control instruction corresponding function, the present invention is not specifically limited.And the controlled terminal determined by sub-terminal unit can be controlled by MTU

Such as, in certain home environment, if it is " turning off the light " that the sub-terminal unit A being positioned in room 1 collects the acoustic information of user, by the identifying processing of MTU, determine that the control instruction corresponding with acoustic information is the instruction for closing intelligent lamp, now, if the controlled terminal that sub-terminal unit A determines is the intelligent lamp a in room 1, then this control instruction directly can be sent to intelligent lamp a by MTU, extinguishes controlling intelligent lamp a.

Or, if the controlled terminal that sub-terminal unit A determines can also is that the intelligent lamp being in illuminating state in other regions in this home environment in addition to room 1.Such as, the controlled terminal equipment determined can include the intelligent lamp b in room 2 and intelligent lamp c, and the intelligent lamp d in corridor, etc., then MTU can be controlled these intelligent lamps respectively extinguished by the first control instruction.

Or, the controlled terminal that sub-terminal unit A determines can also be intelligent lamp whole in home environment, then " turning off the light " sound that MTU will be said based on user, carries out the lamp being completely in illuminating state closing and extinguishes.

In the embodiment of the present invention, if it is determined that be MTU with the first control instruction corresponding target terminal equipment, such as first audio-frequency information is probably what MTU self was gathered, or MTU has the situations such as the function corresponding with the first control instruction, then after the first control instruction that master terminal sets by receiving server feedback, the first control instruction can be responded.

As it is shown on figure 3, the embodiment of the present invention is also disclosed a kind of MTU, this terminal unit mainly can include the first communication interface 10, processor 20 and the second communication interface 30.

In the embodiment of the present invention, the first communication interface 10 may be used for receiving the audio-frequency information gathered from the sub-terminal unit of at least one being connected with MTU, and MTU includes at least one audio-frequency information.

Wherein, audio-frequency information can be voice messaging, music information or effect sound information etc., can include that corresponding audio collection unit is for gathering the audio-frequency information in a sub-local environment in sub-terminal unit.Wherein, audio collection unit can be mike or microphone array etc., and the present invention is not specifically limited.

In actual applications, audio-frequency information can be sent to MTU after sub-terminal unit collects audio-frequency information by audio collection unit.Or, sub-terminal unit can carry out preliminary process to audio-frequency information, as sub-terminal unit can to gather audio-frequency information carry out noise suppressed and echo cancellor etc. process, then will process after audio-frequency information be sent to MTU.Even, the audio frequency gathered can also be judged by sub-terminal unit, and when the audio frequency parameter determining audio-frequency information meets corresponding conditions, the signal to noise ratio of such as audio-frequency information is more than or equal to presetting signal to noise ratio, and/or, the signal intensity of audio-frequency information is more than or equal to preset signal strength, etc., send it to MTU again, process the workload of audio-frequency information reducing processor 20 in MTU.

Optionally, MTU can also include audio collection unit, and audio collection unit can be as the input block of MTU, thus MTU can be presently in the audio-frequency information of environment by audio collection unit collection.Therefore, in at least one audio-frequency information that MTU obtains, in addition to the audio-frequency information from least one sub-terminal unit that MTU is received by the first communication interface 10, it is also possible to include the audio-frequency information that the audio collection unit of self by MTU is gathered.

Additionally, can also include output unit in MTU, this output unit can include speaker, status indicator lamp etc., and those skilled in the art can be configured according to the actual requirements, and the embodiment of the present invention is not specifically limited.Wherein, status indicator lamp can serve to indicate that the duty of MTU, it is possible to shows different colors or brightness etc. according to different operating state.

Optionally, processor 20 meets the first pre-conditioned audio-frequency information in being determined at least one audio-frequency information.

First audio-frequency information can be at least one audio-frequency information preferable audio-frequency information of sound intermediate frequency quality, and processor 20, when determining the first audio-frequency information, at least can determine to use following two mode.

Mode one: by obtaining the audio frequency parameter for showing audio quality of each audio-frequency information at least one audio-frequency information, meets pre-conditioned audio-frequency information by audio frequency parameter corresponding at least one audio-frequency information and is defined as the first audio-frequency information.

Wherein, audio frequency parameter can include signal to noise ratio and/or sound signal intensity, etc., MTU can be by can determine the audio quality of audio-frequency information to the analysis of the audio frequency parameter of each audio-frequency information.As a rule, signal to noise ratio is the highest, or sound signal intensity is the biggest, shows that the audio quality of audio-frequency information is the best.MTU can obtain the corresponding audio frequency parameter of audio signal when receiving or gather audio-frequency information.

In this mode, pre-conditioned can be to determine at least one audio-frequency information sound intermediate frequency quality audio signal higher than preset audio quality based on audio frequency parameter, or can also be that at least one audio-frequency information is arranged from high to low according to audio quality, and determine the audio-frequency information before being in arrangement sequence number, as being in the audio-frequency information of the most forward (i.e. serial number 1) in arrangement sequence number, it is at least one top-quality audio-frequency information of audio-frequency information sound intermediate frequency.

Mode two: be determined by least one sub-terminal unit and user-dependent first sub-terminal unit, be defined as meeting the first pre-conditioned audio-frequency information by audio-frequency information corresponding for the first sub-terminal unit.

Wherein, the first sub-terminal unit can be in same environment with user, and and user between closest terminal unit.In actual applications, if the terminal in speech processing system has the function that can automatically detect user, such as terminal and can pass through sensor (such as infrared sensor or range sensor etc.) and detect.By the detection to respective local environment of each the sub-terminal unit, it is possible to obtain corresponding testing result, as whether local environment exists the relative distance between user, and user, etc..

If detection determines there is user, this testing result can be sent to processor 20 by the most sub-terminal unit, processor 20 testing result based on each the sub-terminal unit received, i.e. can determine that and be in same environment and the nearest terminal of distance users with user, thus the audio-frequency information this terminal gathered is as the first audio-frequency information.

Optionally, the second communication interface 30 may be used for the server that the first audio-frequency information is sent in speech processing system by MTU, and obtains the result for the first audio-frequency information of server feedback.

In actual applications, server may be used for the first audio-frequency information is carried out speech processes, such as speech recognition etc..The result of server feedback can be first control instruction corresponding with the first audio-frequency information, or, it is also possible to it is the result of None-identified audio-frequency information, etc..If server feedback is the result of audio-frequency information None-identified, then after MTU receives, can show, or based on this feedback result, user be pointed out, such as display lamp prompting or voice message etc., the embodiment of the present invention is not specifically limited.

In the embodiment of the present invention, the communication mode that first communication interface 10 uses can be first communication party formula, the communication mode that second communication interface 30 uses can be second communication method, first communication party formula is different from second communication method, and the maximum communication distance of first communication party formula can be less than the maximum communication distance of second communication method.

Such as, first communication party formula can be to be short haul connection mode, its maximum communication distance is typically not greater than 100m, short haul connection mode can be to include Blue-tooth communication method, ZigBee communication mode, WiFi (WIreless-Fidelity, WiMAX) etc., then first communication party formula can be therein any one.And second communication method can apply to the communication mode of distance, such as the communication mode such as fiber optic communication or WLAN, its ultimate range is the biggest, such as, when using WLAN to communicate, its communication distance is up to 2000m.

In actual applications, when processor 20 obtains the result of server feedback by the second communication interface 30, if the result of server feedback is first control instruction corresponding with the first audio-frequency information, then processor 20 can be also used for determining the target terminal equipment corresponding with the first control instruction, and the first control instruction is sent to target terminal equipment, to perform the first control instruction by target terminal equipment by the first communication interface 10.

Optionally, determine and the process of the first control instruction corresponding target terminal equipment at processor 20, may include that based on the first corresponding device identification of audio-frequency information, the first sub-terminal unit corresponding to device identification is defined as the target terminal equipment relevant with the first control instruction；Or, determine that at least one the controlled terminal equipment being connected with MTU is the target terminal equipment corresponding with the first control instruction.

Wherein, device identification can be speech processing system be the mark for uniquely tagged terminal unit that the terminal unit that is in system is arranged.When sub-terminal unit uploads audio-frequency information, audio-frequency information can carry the device identification gathering this sub-terminal unit, thus be sent to MTU, therefore according to the first corresponding device identification of audio-frequency information, i.e. can determine that the sub-terminal unit of first relevant to the first control instruction.

Such as, if the first audio-frequency information is " broadcasting music ", the sub-terminal unit that the device identification of its correspondence is corresponding is intelligent sound, now, intelligent sound is and the first control instruction corresponding target terminal equipment, and the first control instruction is the instruction controlling intelligent sound broadcasting music.

And when determining that at least one the controlled terminal equipment being connected with MTU is the target terminal equipment corresponding with the first control instruction, following two situation at least can be included:

Situation one: when master terminal is directly connected with at least one controlled terminal equipment, the controlled terminal equipment at least one controlled terminal with the function corresponding with the first control instruction is defined as target terminal equipment.From the controlled terminal equipment being connected with MTU, i.e. select that to have the controlled terminal equipment of function corresponding to the first control instruction be target terminal equipment, as having the intelligent sound of speaker effect.

Situation two: at least one controlled terminal equipment, sub-terminal unit and MTU are in the same family network, corresponding with the first control instruction controlled in equipment can be determined by sub-terminal unit, and then, the controlled terminal equipment that the first control instruction can be sent directly to determine by MTU performs.

The related application scene of situation one and situation two refer to described previously, and here is omitted.

In the embodiment of the present invention, after the sub-terminal unit corresponding to device identification is defined as the target terminal equipment relevant with described first control instruction, processor 20 can be also used for comprising determining that at least one controlled terminal equipment corresponding with the first control instruction in the controlled terminal equipment being connected with the first sub-terminal unit；MTU controls the first sub-terminal unit and the first control instruction is sent at least one controlled terminal equipment, completes the operation corresponding with the first control instruction controlling at least one controlled terminal equipment.

I.e., if sub-terminal unit is connected with at least one controlled terminal equipment, then after the first control instruction is sent to the first sub-terminal unit by processor 20, the first sub-terminal unit can also determine and the first control instruction corresponding target terminal equipment in connected controlled terminal.Now, this target terminal equipment can be in the controlled terminal equipment being connected with the first sub-terminal unit, there is the terminal of function corresponding to the first control instruction, and then, first control instruction can be transmitted directly to the controlled terminal equipment (i.e. target terminal equipment) determined by the first sub-terminal unit, completes the operation corresponding with the first control instruction controlling this controlled terminal equipment.

Optionally, if it is determined that be MTU with the first control instruction corresponding target terminal equipment, then determining that processor 20 can be also used for controlling MTU and responds the first control instruction, and performs corresponding operation with after the first control instruction corresponding target terminal equipment.

As shown in Figure 4, the embodiment of the present invention is also disclosed a kind of MTU, including acquisition module 301, first determines module 302 and processing module 303.

Acquisition module 301 may be used for obtaining at least one audio-frequency information, and at least one audio-frequency information described includes the audio-frequency information gathered from least one the sub-terminal unit being connected with described MTU that described MTU is received by communication interface；

First determines module 302 to be determined at least one audio-frequency information described meets the first pre-conditioned audio-frequency information；

Processing module 303 may be used for the server being sent in speech processing system by described first audio-frequency information, to obtain the result for described first audio-frequency information of described server feedback.

Optionally, acquisition module 301 may be used for gathering, by the audio collection unit of described MTU, the audio-frequency information that described MTU is presently in environment；And, from least one the sub-terminal unit being connected with described MTU, obtain audio-frequency information by first communication party formula；Wherein, described first communication party formula is different from the second communication method between described MTU and server.

Optionally, first determines that module 302 may be used for: obtain the audio frequency parameter for showing audio quality of each audio-frequency information at least one audio-frequency information described, and audio frequency parameter corresponding at least one audio-frequency information described is met pre-conditioned audio-frequency information is defined as described first audio-frequency information.

Optionally, first determines that module 302 may be used for: with user-dependent first sub-terminal unit at least one sub-terminal unit described in determining, and be defined as audio-frequency information corresponding for described first sub-terminal unit meeting described pre-conditioned described first audio-frequency information.

Optionally, described electronic equipment also includes receiver module, for receiving first control instruction corresponding with described first audio-frequency information sent from described server；

Second determines module, is used for determining and described first control instruction corresponding target terminal equipment；

Sending module, for being sent to described target terminal equipment by described first control instruction by described first communication party formula, to perform described first control instruction by described target terminal equipment.

Optionally, second determines that module may be used for: based on the described first corresponding device identification of audio-frequency information, the first sub-terminal unit corresponding to described device identification is defined as the target terminal equipment relevant with described first control instruction；Or, determine that at least one the controlled terminal equipment being connected with described MTU is the target terminal equipment corresponding with described first control instruction.

Optionally, second determines that module can be also used for: after the sub-terminal unit corresponding to described device identification is defined as the target terminal equipment relevant with described first control instruction, determine at least one controlled terminal equipment corresponding with described first control instruction in the controlled terminal equipment being connected with described first sub-terminal unit, control described first sub-terminal unit and described first control instruction is sent at least one controlled terminal equipment described, complete the operation corresponding with described first control instruction with control at least one controlled terminal equipment described.

Optionally, if it is determined that be described MTU with described first control instruction corresponding target terminal equipment, processing module 303 also with may be used for determine with after described first control instruction corresponding target terminal equipment, control described MTU respond described first control instruction.

Information processing method in earlier figures 1-Fig. 2 embodiment and instantiation are equally applicable to the MTU of the present embodiment, by the aforementioned detailed description to information processing method, those skilled in the art are it is clear that the implementation of MTU in the present embodiment, so succinct for description, it is not described in detail in this.

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

Obtaining at least one audio-frequency information by the MTU in speech processing system, at least one audio-frequency information described includes the audio-frequency information gathered from least one the sub-terminal unit being connected with described MTU that described MTU is received by communication interface；

Described MTU determines at least one audio-frequency information described and meets the first pre-conditioned audio-frequency information；

Described first audio-frequency information is sent to the server in described speech processing system by described MTU, to obtain the result for described first audio-frequency information of described server feedback.

Optionally, store in described storage medium and step: obtain at least one audio-frequency information by the MTU in speech processing system, corresponding computer instruction, during being specifically performed, comprises the steps:

The audio-frequency information that described MTU is presently in environment is gathered by the audio collection unit of described MTU；And

From at least one the sub-terminal unit being connected with described MTU, audio-frequency information is obtained by first communication party formula；

Wherein, described first communication party formula is different from the second communication method between described MTU and server.

Optionally, in described storage medium storage and step: described MTU determines at least one audio-frequency information described and meets the first pre-conditioned audio-frequency information, corresponding computer instruction, during being specifically performed, comprises the steps: that described MTU obtains the audio frequency parameter for showing audio quality of each audio-frequency information at least one audio-frequency information described；

Audio frequency parameter corresponding at least one audio-frequency information described is met pre-conditioned audio-frequency information and is defined as described first audio-frequency information.

Optionally, in described storage medium storage and step: described MTU determines and meets the first pre-conditioned audio-frequency information at least one audio-frequency information described, and corresponding computer instruction, during being specifically performed, comprises the steps:

Described MTU determine at least one sub-terminal unit described with user-dependent first sub-terminal unit；

It is defined as audio-frequency information corresponding for described first sub-terminal unit meeting described pre-conditioned described first audio-frequency information.

Optionally, in described storage medium, also storage has other computer instruction, these computer instructions are with step: described first audio-frequency information is sent to the server in described speech processing system by described MTU, corresponding computer instruction is performed after performing, and comprises the steps: when executed

Described MTU receives first control instruction corresponding with described first audio-frequency information sent from described server；

Determine and described first control instruction corresponding target terminal equipment；

Described first control instruction is sent to described target terminal equipment by described first communication party formula, to perform described first control instruction by described target terminal equipment.

Optionally, in described storage medium storage with step: determining and described first control instruction corresponding target terminal equipment, corresponding computer instruction, during being specifically performed, comprises the steps:

The first sub-terminal unit corresponding to described device identification, based on the described first corresponding device identification of audio-frequency information, is defined as the target terminal equipment relevant with described first control instruction by described MTU；Or

Described MTU determines that at least one the controlled terminal equipment being connected with described MTU is the target terminal equipment corresponding with described first control instruction.

Optionally, in described storage medium, also storage has other computer instruction, these computer instructions are to step: the sub-terminal unit corresponding with described device identification is defined as the target terminal equipment relevant with described first control instruction, corresponding computer instruction is performed after performing, and comprises the steps: when executed

Determine at least one controlled terminal equipment corresponding with described first control instruction in the controlled terminal equipment being connected with described first sub-terminal unit；

Described MTU controls described first sub-terminal unit and described first control instruction is sent at least one controlled terminal equipment described, completes the operation corresponding with described first control instruction with control at least one controlled terminal equipment described.

Optionally, if it is determined that be described MTU with described first control instruction corresponding target terminal equipment, in described storage medium, also storage has other computer instruction, these computer instructions are with step: determine and described first control instruction corresponding target terminal equipment, corresponding computer instruction is performed after performing, and comprises the steps: when executed

Described MTU responds described first control instruction.

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

Claims (12)

1. an information processing method, including:

Obtaining at least one audio-frequency information by the MTU in speech processing system, at least one audio-frequency information described includes the audio-frequency information gathered from least one the sub-terminal unit being connected with described MTU that described MTU is received by communication interface；

Described MTU determines at least one audio-frequency information described and meets the first pre-conditioned audio-frequency information；

Described first audio-frequency information is sent to the server in described speech processing system by described MTU, to obtain the result for described first audio-frequency information of described server feedback.

2. the method for claim 1, it is characterised in that obtain at least one audio-frequency information by the MTU in speech processing system, including:

The audio-frequency information that described MTU is presently in environment is gathered by the audio collection unit of described MTU；And

From at least one the sub-terminal unit being connected with described MTU, audio-frequency information is obtained by first communication party formula；

Wherein, described first communication party formula is different from the second communication method between described MTU and server.

3. method as claimed in claim 2, it is characterised in that described MTU determines at least one audio-frequency information described and meets the first pre-conditioned audio-frequency information, including:

Described MTU obtains the audio frequency parameter for showing audio quality of each audio-frequency information at least one audio-frequency information described；

Audio frequency parameter corresponding at least one audio-frequency information described is met pre-conditioned audio-frequency information and is defined as described first audio-frequency information.

4. method as claimed in claim 2, it is characterised in that described MTU determines at least one audio-frequency information described and meets the first pre-conditioned audio-frequency information, including:

Described MTU determine at least one sub-terminal unit described with user-dependent first sub-terminal unit；

It is defined as audio-frequency information corresponding for described first sub-terminal unit meeting described pre-conditioned described first audio-frequency information.

5. the method as described in claim 3 or 4, it is characterised in that described method also includes:

Described MTU receives first control instruction corresponding with described first audio-frequency information sent from described server；

Determine and described first control instruction corresponding target terminal equipment；

Described first control instruction is sent to described target terminal equipment by described first communication party formula, to perform described first control instruction by described target terminal equipment.

6. method as claimed in claim 5, it is characterised in that determine and described first control instruction corresponding target terminal equipment, including:

The first sub-terminal unit corresponding to described device identification, based on the described first corresponding device identification of audio-frequency information, is defined as the target terminal equipment relevant with described first control instruction by described MTU；Or described MTU determines that at least one the controlled terminal equipment being connected with described MTU is the target terminal equipment corresponding with described first control instruction.

7. method as claimed in claim 6, it is characterised in that after the sub-terminal unit corresponding to described device identification is defined as the target terminal equipment relevant with described first control instruction, described method also includes:

Determine at least one controlled terminal equipment corresponding with described first control instruction in the controlled terminal equipment being connected with described first sub-terminal unit；

Described MTU controls described first sub-terminal unit and described first control instruction is sent at least one controlled terminal equipment described, completes the operation corresponding with described first control instruction with control at least one controlled terminal equipment described.

8. method as claimed in claim 6, it is characterised in that if it is determined that be described MTU with described first control instruction corresponding target terminal equipment, determining that described method also includes with after described first control instruction corresponding target terminal equipment:

Described MTU responds described first control instruction.

9. a MTU, including:

First communication interface, for receiving the audio-frequency information gathered from least one the sub-terminal unit being connected with described MTU, described MTU includes at least one audio-frequency information；

Processor, meets the first pre-conditioned audio-frequency information for determining at least one audio-frequency information described；

Second communication interface, for described first audio-frequency information is sent to the server in described speech processing system, and obtains the result for described first audio-frequency information of described server feedback.

10. MTU as claimed in claim 9, it is characterised in that the communication mode that described first communication interface uses is first communication party formula, and the second communication method that described first communication party formula is used from described second communication interface is different.

11. MTUs as claimed in claim 10, it is characterised in that when the result in described server feedback is first control instruction corresponding with described first audio-frequency information, described first communication interface is additionally operable to:

By described first communication party formula, described first control instruction is sent to target terminal equipment corresponding with described first control instruction at least one sub-control terminal equipment described；Or

By described first communication party formula, described first control instruction is sent to target control terminal corresponding with described first control instruction at least one the controlled terminal equipment being connected with described MTU.

12. 1 kinds of MTUs, including:

Acquisition module, is used for obtaining at least one audio-frequency information, and at least one audio-frequency information described includes the audio-frequency information gathered from least one the sub-terminal unit being connected with described MTU that described MTU is received by communication interface；

Determine module, meet the first pre-conditioned audio-frequency information for determining at least one audio-frequency information described；

Processing module, for the server being sent in speech processing system by described first audio-frequency information, to obtain the result for described first audio-frequency information of described server feedback.