CN109243434B - Double-voice input system - Google Patents
Double-voice input system Download PDFInfo
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- CN109243434B CN109243434B CN201810764007.9A CN201810764007A CN109243434B CN 109243434 B CN109243434 B CN 109243434B CN 201810764007 A CN201810764007 A CN 201810764007A CN 109243434 B CN109243434 B CN 109243434B
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10L—SPEECH ANALYSIS OR SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING; SPEECH OR AUDIO CODING OR DECODING
- G10L15/00—Speech recognition
- G10L15/22—Procedures used during a speech recognition process, e.g. man-machine dialogue
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10L—SPEECH ANALYSIS OR SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING; SPEECH OR AUDIO CODING OR DECODING
- G10L15/00—Speech recognition
- G10L15/08—Speech classification or search
- G10L15/18—Speech classification or search using natural language modelling
- G10L15/1822—Parsing for meaning understanding
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- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10L—SPEECH ANALYSIS OR SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING; SPEECH OR AUDIO CODING OR DECODING
- G10L15/00—Speech recognition
- G10L15/22—Procedures used during a speech recognition process, e.g. man-machine dialogue
- G10L2015/223—Execution procedure of a spoken command
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
Abstract
A bilingual input system comprising: the device comprises a selection device, a voice input device, a voice control system and a control chip; the method is characterized in that: the double-voice input device and the system are arranged on the intelligent control terminal, and the voice input device comprises two voice input devices, namely a first voice input device and a second voice input device; the selecting device is used for adjusting the state of the double-voice input device, and the voice input device is connected with the voice control system; the voice control system is connected with a control chip, and the control chip controls the running of programs on the intelligent control terminal.
Description
Technical Field
The technology belongs to the field of electronic product manufacturing, and particularly relates to an electronic control device with a bilingual input device and a speech control system, wherein the device is arranged on an intelligent control terminal.
Background
Along with rapid development of technology, a large number of applications and uses of intelligent terminals, a voice control system has become a novel and flow-type control system now, and an operator only needs to open the voice control system and speak matters needing to be transacted, so that tasks can be completed and displayed through the voice control system on the intelligent control terminal, and work and operation of the user are easier. However, the existing voice system must be performed separately, and cannot be operated in parallel with other programs, and the conventional voice control technology can only use a single function, and when a certain program is used, the voice control system can generate interference, for example, when the user uses a call function, the voice control system can be started unintentionally, so that the voice control system interferes with the call process. The device can not adapt to the requirements of users in various occasions, and brings inconvenience to the users. This also brings a lot of inconveniences to our work.
For the current popular voice control system, such as the "SIRI" technology of a mobile phone, the "SIRI" needs to be started first, then the "SIRI" is given a command to help me call a certain party, at this time, the "SIRI" can help the user to complete the call a certain party after receiving the information, but the "SIRI" is automatically closed after the call is put through, and the user can normally talk with a certain party. But if the user finds that the own phone is set with problems, for example: the volume is too small, so that a user needs to personally adjust the volume of the mobile phone to solve the problem in the call process, and the volume is not changed greatly for practical use.
Disclosure of Invention
In view of the above-mentioned drawbacks of the prior art, we propose a dual-voice input device, wherein the selection device selects the input of voice signals, so as to control the application program of the intelligent terminal by the control chip to perform multitasking. A bilingual input system comprising: the device comprises a selection device, a voice input device, a voice control system and a control chip; the method is characterized in that: the double-voice input device and the system are arranged on the intelligent control terminal, and the voice input device comprises two voice input devices, namely a first voice input device and a second voice input device;
preferably, the selecting device is a hardware selecting device or a software selecting device; the selection device is used for adjusting the state of the double-voice input device, and the state comprises the following steps: A. the first voice input device is opened, and the second voice input device is closed; B. the first voice input device is opened, and the second voice input device is opened; C. the first voice input device is closed and the second voice input device is opened.
Preferably, the voice input device is connected with a corresponding voice control system, and the voice control system is connected with a control chip; namely, the first voice input device is connected with a first voice control system, is an existing voice input system and is connected with a related program of the intelligent control terminal through a control chip; the second voice input device is connected with a second voice control system, the second voice control system is connected with a control chip, and the second voice input device is connected with a related program of the intelligent control terminal through the control chip.
Preferably, the voice input device is used for receiving a voice command of an external operator, the voice input device is a Microphone (MIC), and a voice output system is arranged in the intelligent terminal and can perform voice interaction with the operator.
A method of a bilingual input system is set according to a selection device and comprises the following steps:
and A state: the selecting device is arranged that the first voice input device is opened, and the second voice input device is closed;
the state A comprises the following steps: a1, a standby state; a2, opening a first voice control system; a3, inputting an instruction by voice of an operator; a4, the first voice control system performs interactive voice analysis; a5, program control; a6, the first voice control system performs interactive voice analysis; a7, closing the task of the first voice control system and ending;
and B state: the selecting device is arranged that the first voice input device is opened, and the second voice input device is opened;
the step of state B is: b1 standby state; b2, running a main program; b3, opening a second voice control system; b4, the operator inputs instructions in voice; b5, the second voice control system carries out interactive voice analysis on the voice instruction received by the second voice input device; the voice command received by the first voice input device can be transmitted to the main program; b6, the second voice control system is connected with the control chip to start the voice program to run; b7, completing the execution of the voice program; b8, the second voice control system is connected with the main chip and controls the intelligent terminal to perform interactive voice analysis; b9, closing the second voice control system; b10, closing the main program and ending the task;
c state: the selecting device is set as a first voice input device which is closed, and a second voice input device which is open;
the step of state C is: c1 standby state; c2, running a main program; c3, opening a second voice control system; c4, inputting an instruction by voice of an operator; the C5 second voice control system performs interactive voice analysis; the C6 second voice control system is connected with the control chip to start program control; the C7 second voice control system performs interactive voice analysis; c8, closing the second voice control system; the C9 main program turns off the task ending system.
Drawings
FIG. 1 is a schematic diagram 1 of the present technology;
FIG. 2 is a schematic diagram 2 of the present technology;
FIG. 3 is a schematic diagram 3 of the present technology;
FIG. 4 is a schematic diagram 4 of the present technology;
fig. 5 is a schematic diagram 5 of the present technology.
Detailed Description
The technology is a bilingual input system realized in such a way, comprising: the device comprises a selection device, a voice input device, a voice control system and a control chip; the method is characterized in that: the double-voice input device and the system are arranged on the intelligent control terminal, and the voice input device comprises two voice input devices, namely a first voice input device and a second voice input device; the selecting device is used for adjusting the state of the double-voice input device, and the voice input device is connected with the voice control system; the voice control system is connected with a control chip, and the control chip controls the running of programs on the intelligent control terminal.
Preferably, the selecting device is a hardware selecting device or a software selecting device; the selection device is used for adjusting the state of the double-voice input device, and the state comprises the following steps: A. the first voice input device is opened, and the second voice input device is closed; B. the first voice input device is opened, and the second voice input device is opened; C. the first voice input device is closed and the second voice input device is opened.
The selection device can be set in a key switch mode in use, can also be set through a selection interface on the software APP, and the voice or other sensors can also have the functions for selection, and the mode is not limited to the method.
Preferably, the voice input device is connected with a corresponding voice control system, and the voice control system is connected with a control chip; namely, the first voice input device is connected with a first voice control system, is an existing voice input system and is connected with a related program of the intelligent control terminal through a control chip; the second voice input device is connected with a second voice control system, the second voice control system is connected with a control chip, and the second voice input device is connected with a related program of the intelligent control terminal through the control chip.
Preferably, the voice input device is used for receiving voice instructions of an external operator, the voice input device is a microphone, a voice output system is arranged in the intelligent terminal, and the voice output system can perform voice interaction with the operator.
A method for setting the state of a bilingual input system according to a selection device comprises the following steps:
and A state: the selecting device is arranged that the first voice input device is opened, and the second voice input device is closed;
the state A comprises the following steps: a1, a standby state; a2, opening a first voice control system; a3, inputting an instruction by voice of an operator; a4, the first voice control system performs interactive voice analysis; a5, program control; a6, the first voice control system performs interactive voice analysis; a7, closing the task of the first voice control system and ending;
and B state: the selecting device is arranged that the first voice input device is opened, and the second voice input device is opened;
the step of state B is: b1 standby state; b2, running a main program; b3, opening a second voice control system; b4, the operator inputs instructions in voice; b5, the second voice control system carries out interactive voice analysis on the voice instruction received by the second voice input device; the voice command received by the first voice input device can be transmitted to the main program; b6, the second voice control system is connected with the control chip to start the voice program to run; b7, completing the execution of the voice program; b8, the second voice control system is connected with the main chip and controls the intelligent terminal to perform interactive voice analysis; b9, closing the second voice control system; b10, closing the main program and ending the task;
c state: the selecting device is set as a first voice input device which is closed, and a second voice input device which is open;
the step of state C is: c1 standby state; c2, running a main program; c3, opening a second voice control system; c4, inputting an instruction by voice of an operator; the C5 second voice control system performs interactive voice analysis; the C6 second voice control system is connected with the control chip to start program control; the C7 second voice control system performs interactive voice analysis; c8, closing the second voice control system; c9 main program closing task ends.
On intelligent control terminals, for example: the technical bilingual input system is arranged on the mobile phone, the tablet personal computer, the robot and other devices.
An example of state a is the prior art:
a.1 standby state: the operator opens the smart phone;
a.2, opening a first voice control system: the operator opens the voice software such as: a 'Siri' voice system of a mobile phone;
a.3 operator voice input instruction: the operator sends a voice command 'help me make a call to a certain party';
and A.4, the first voice control system performs interactive voice analysis: do "Siri" return that the operator needs to make a call to something? ";
and A.5, the first voice control system is connected with the control chip to start the voice program to run: after program confirmation, the 'Siri' program finds out 'some' in the telephone book and dials the telephone through the telephone book software;
and A.6, finishing the task of executing the voice program: after the call is completed, the system is closed at the same time.
The embodiment of the state B is a secretary mode with voice disclosure, and an operator and a calling party can hear related dialogue contents by taking a call as an example, so that the communication efficiency of the operator is improved.
B.1 standby state: the operator opens the smart phone;
and B.2, main program operation: when the caller asks the operator "is there a certain phone? "operator can return" waiting ";
and B.3, opening a second voice control system: the operator opens the second voice control system and opens the state selection mode through the selection device;
b.4, operator voice input instruction: the operator says "help me find a certain telephone number"
B.5, the second voice control system analyzes the interactive voice of the voice command received by the second voice input device; the voice command received by the first voice input device can be transferred to the main program: after receiving the voice command of the operator through the second voice input device, analyzing the voice command and performing voice interaction with the operator to confirm the voice content, "is a call to a certain place? "or" is a telephone XXXX? "; the conversation may also be heard by the parties during this time.
The second voice control system is connected with the control chip to start the voice program to run; if the user needs to make a call, the second voice control system program finds out something in the telephone book and makes a call through the telephone book software; . The intelligent terminal can continue to operate the second voice control system at the same time when the main program is operated.
B.7 voice program execution is completed; such as: after the telephone is connected, the user can make a call.
B.8 the second voice control system is connected with the main chip and controls the intelligent terminal to perform interactive voice analysis; the second voice-controlled system interacts with the operator, for example: "do you need what?
9, closing the second voice control system; the operator turns off the second voice control system and continues to communicate with the party through the main program, during which the second voice control system can be operated repeatedly and cyclically if necessary.
And B.10, closing the main program and ending the task: after the call is ended, the task is ended.
The embodiment of the state C is a secret speech secretary mode, taking a telephone call as an example, an operator can call the secret speech secretary to answer unknown events in the process of communicating with a calling party, and the communication efficiency of the operator and the acceptance of the caller to the operator are improved.
The flow is identical to the state B operation flow, except that the calling party cannot hear the operator while calling the voice secretary.
The system is arranged on an intelligent control terminal and is provided with a standard voice input/output interface; the voice data of the operator can be received, the voice query function is realized by connecting a database in the intelligent terminal with a database on the cloud server through a control program on the intelligent terminal, and the communication efficiency of the operator and the acceptance of the caller to the operator are improved through different selection states.
Claims (1)
1. A bilingual input system comprising: the device comprises a selection device, a voice input device, a voice control system and a control chip; the method is characterized in that: the double-voice input system is arranged on the intelligent control terminal, and the voice input device comprises two voice input devices, namely a first voice input device and a second voice input device; the selection device is used for adjusting the state of the double-voice input device, and the state comprises the following steps: A. the first voice input device is opened, and the second voice input device is closed; B. the first voice input device is opened, and the second voice input device is opened; C. the first voice input device is closed, and the second voice input device is opened; the voice input device is connected with a corresponding voice control system, and the voice control system is connected with a control chip; namely, the first voice input device is connected with a first voice control system and is an existing voice input device system; the control chip is connected with a related program of the intelligent control terminal; the second voice input device control system is connected with the second voice control system, the second voice control system is connected with the control chip, and the control chip is connected with a related program of the intelligent control terminal; the voice input device is used for receiving voice instructions of an external operator, the voice input device is a microphone, a voice output system is arranged in the intelligent control terminal, and the voice output system can perform voice interaction with the operator;
the method for setting the state according to the selection device comprises the following steps:
and A state: the selecting device is arranged that the first voice input device is opened, and the second voice input device is closed;
the state A comprises the following steps: a1, a standby state; a2, opening a first voice control system; a3, inputting an instruction by voice of an operator; a4, the first voice control system performs interactive voice analysis; a5, program control; a6, the first voice control system performs interactive voice analysis; a7, closing the task of the first voice control system and ending;
and B state: the selecting device is arranged that the first voice input device is opened, and the second voice input device is opened;
the step of state B is: b1 standby state; b2, running a main program; b3, opening a second voice control system; b4, the operator inputs instructions in voice; b5, the second voice control system carries out interactive voice analysis on the voice instruction received by the second voice input device; the voice command received by the first voice input device can be transmitted to the main program; b6, the second voice control system is connected with the control chip to start the voice program to run; b7, completing the execution of the voice program; b8, the second voice control system is connected with the main chip and controls the intelligent terminal to perform interactive voice analysis; b9, closing the second voice control system; b10, closing the main program and ending the task;
c state: the selecting device is set as a first voice input device which is closed, and a second voice input device which is open;
the step of state C is: c1 standby state; c2, running a main program; c3, opening a second voice control system; c4, inputting an instruction by voice of an operator; the C5 second voice control system performs interactive voice analysis; the C6 second voice control system is connected with the control chip to start program control; the C7 second voice control system performs interactive voice analysis; c8, closing the second voice control system; c9 main program closing task ends.
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