EP1509902A2 - Systeme et procede pour ameliorer la precision d'un programme de reconnaissance vocale - Google Patents

Systeme et procede pour ameliorer la precision d'un programme de reconnaissance vocale

Info

Publication number
EP1509902A2
EP1509902A2 EP00950784A EP00950784A EP1509902A2 EP 1509902 A2 EP1509902 A2 EP 1509902A2 EP 00950784 A EP00950784 A EP 00950784A EP 00950784 A EP00950784 A EP 00950784A EP 1509902 A2 EP1509902 A2 EP 1509902A2
Authority
EP
European Patent Office
Prior art keywords
text
speech
program
speech recognition
recognition program
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP00950784A
Other languages
German (de)
English (en)
Other versions
EP1509902A4 (fr
Inventor
Jonathan Kahn
Thomas P. Flynn
Charles Qin
Nicholas J. Linden
James A. Sells
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Custom Speech USA Inc
Original Assignee
Custom Speech USA Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US09/362,255 external-priority patent/US6490558B1/en
Priority claimed from US09/625,657 external-priority patent/US6704709B1/en
Application filed by Custom Speech USA Inc filed Critical Custom Speech USA Inc
Publication of EP1509902A2 publication Critical patent/EP1509902A2/fr
Publication of EP1509902A4 publication Critical patent/EP1509902A4/fr
Withdrawn legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L15/00Speech recognition
    • G10L15/26Speech to text systems
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L15/00Speech recognition
    • G10L15/06Creation of reference templates; Training of speech recognition systems, e.g. adaptation to the characteristics of the speaker's voice
    • G10L15/063Training
    • G10L2015/0631Creating reference templates; Clustering

Definitions

  • the present invention relates in general to computer speech recognition systems and. in particular, to a system and method for expediting the aural training of an automated speech recognition program.
  • Speech recognition programs are well known in the art. While these programs are ultimately useful in automatically converting speech into text, many users are dissuaded from using these programs because they require each user to spend a significant amount of time training the system. Usually this training begins by having each user read a series of pre-selected materials for several minutes. Then, as the user continues to use the program, as words are improperly transcribed the user is expected to stop and train the program as to the intended word thus advancing the ultimate accuracy of the speech files. Unfortunately, most professionals (doctors, dentists, veterinarians, lawyers) and business executive are unwilling to spend the time developing the necessary speech files to truly benefit from the automated transcription.
  • aural parameters i.e. speech files, acoustic model and/or language model
  • the assignee of the present application teaches a system and method for quickly improving the accuracy of a speech recognition program. That system is based on a speech recognition program that automatically converts a pre-recorded audio file into a written text. The system parses the written text into segments, each of which is corrected by the system and saved in an individually retrievable manner in association with the computer. In that system the speech recognition program saves the standard speech files to improve accuracy in speech-to-text conversion.
  • That system further includes facilities to repetitively establish an independent mstance of the w ⁇ tten text from the ore- recorded audio file using the speech recogmtion program That independent instance can then be broken into segments Each segment m the mdependent instance is replaced with an individually saved corrected segment which is associated with that segment In that manner apphcant s prior application teaches a method and apparatus for repetitive instruction of a speech recogmtion program
  • Conse ⁇ uentK it is a further object of the present ⁇ n ⁇ ention to direct the output of a prerecorded audio file into a speech recognition program that does not normallv provide for such functionalit ⁇
  • the present mvention relates to a s ⁇ stem for improving the accuracv of a speech recogmtion program
  • the system includes means for automatically converting a pre- recorded audio file into a w ⁇ tten text Means for parsing the w ⁇ tten text mto segments and for correcting each and every segment of the w ⁇ tten text
  • a human speech trainer is presented with the text and associated audio for each ana even segment Whether the human speecn trainer ultimatelv modifies a segment or not each segment (after an opportunm for co ⁇ ection if necessary) is stored in a ret ⁇ e ⁇ able manner in association with the computer
  • the svstem further mcludes means for savmg speech files associated with a substantially corrected w ⁇ tten text and used b ⁇ the speech recogmtion program towards improving in speech-to-text conversion
  • the s ⁇ stem finallv includes means for repetitiveh establishing an independent mstance of the w ⁇ tten text from the pre-recorded audio file using the speech recogmtion program and for replacmg each segment in the independent instance of the w ⁇ tten text with the corrected seement associated therewith
  • the co ⁇ ectmg means further includes means for highlighting likelv errors in the written text
  • the highlighting means further includes means for sequentiallv comparing a copy of the written text with a second w ⁇ tten text resulting in a sequential list of unmatched words culled from the written text and means for lncrementalK searching for the current unmatched word contemporaneously within a first buffer associated with the speech recogmtion program containing the written text and a second buffer associated with a sequential list of possible errors
  • Such element further includes means for correcting the current unmatched word in the second buffer
  • the co ⁇ ectmg means further includes means for highlighting likelv errors in the written text
  • the highlighting means further
  • the invention further mvolves a method for improving the accuracy of a speech recogmtion program operating on a computer compnsing (a) automatically convening a pre-recorded audio file mto a w ⁇ tten text (b) parsing the written text into segments (c) correcting each and every segment of the written text, (d) saving the corrected segment m a retrievable manner, (e) saving speech files associated with a substantially corrected wntten text and used by the speech recogmtion program towards improving accuracv m speech-to-text conversion b ⁇ the speech recogmtion program, (f) establishing an mdepen ⁇ ent instance of the wntten text from the Dre-recorded au ⁇ io file using the SDeech recogmtion program, (g) replacing each segment m the independent mstance of the wntten text with the corrected segment associated therewith, (h) saung speech files associated with the independent instance of the w ⁇ tten text used
  • the means for parsing the w ⁇ tten text mto segments includes means for directly accessmg the functions of the speech recogmtion program
  • the parsing means may include means to determine the character count to the beginning of the segment and means for determining the character count to the end of the segment
  • Such parsing means ma ⁇ further include the LtteranceBegin function of Dragon Naturallv Speakmg to determine the character count to the beginning of the segment and the TjtteranceEnd function of Dragon Naturally Speaking to determine the character count to the end of the segment
  • the means for automatically converting a pre-recorded audio file into a w ⁇ tten text ma ⁇ further be accomphshed by executing functions of Dragon Naturallv Speakmg
  • the means for automatically converting may include the Transc ⁇ beFile function of Dragon Naturallv Speakmg
  • the svstem may also include, in part, a method for directing a pre-recorded audio file to a speech recogmtion program that does not normally accept such files, such as IBM Corporation s Via Voice speech recogmtion software
  • the method includes (a) launching the speech recogmtion program to accept speech as if the speech recognition program were receiving live audio from a microphone, (b) finding a mixer utility associated with the sound card, (c) opening the mixer utility, the mixer utility having settings that determine an input source and an output path, (d) changing the settmgs of the mixer utility to specify a hne-in mput source and a wave-out output path, (e) activatmg a microphone mput of the speech recogmtion software, and (f) initiating a media player associated with the computer to play the pre-recorded audio file mto the hne-in mput source
  • this method for directing a pre-recorded audio file to a speech recogmtion program may further mclude changmg the mixer utility settmgs to mute audio output to speakers associated with the computer Similarly, the method would preferably include saving the settings of the mixer utility before thev are changed to reroute the audio stream and restonng the saved settmgs after the media player finishes playing the pre-recorded audio file
  • the system may also mclude, in part, a system for directing a pre-recorded audio file to a speech recogmtion program that does not accept such files
  • the system includes a computer having a sound card with an associated mixer utility and an associated media plaver (capable of plaving the pre-recorded audio file)
  • the system further includes means for changmg settmgs of the associated mixer utihtt such that the mixer utility receives an audio stream from the media plaver and outputs a resulting audio stream to the speech recognition program as a microphone input stream
  • the system further includes means for automatically opening the speech recognition program and activating the changing means.
  • the system also preferably includes means for saving and restoring an original configuration of the mixer utility.
  • Fig. 1 of the drawings is a block diagram of the system for quickly improving the accuracy of a speech recognition program
  • Fig. 2 of the drawings is a flow diagram of a method for quickly improving the accuracy of a speech recognition program
  • Fig. 3 of the drawmgs is a plan view of one approach to the present system and method in operation in conjunction with DRAGON NATURALLY SPEAKING software;
  • Fig. 4of the drawings is a flow diagram of a method for quickly improving the accuracy of the DRAGON NATURALLY SPEAKING software
  • Fig. 5 of the drawings is a flow diagram of a method for automatically training the DRAGON NATURALLY SPEAKING software
  • Fig. 6 of the drawings is a plan view of one approach to the present system and method showing the highlighting of a segment of text for playback or edit;
  • Fig. 7 of the drawings is a plan view of one approach to the present system and method showing the highlighting of a segment of text with an enor for co ⁇ ection;
  • Fig. 8 of the drawings is a plan view of one approach to the present system and method showing the initiation of the automated conection method
  • Fig. 9 of the drawings is a plan view of one approach to the present system and method showing the initiation of the automated training method
  • Fig. 10 of the drawings is a plan view of one approach to the present system and method showing the selection of audio files for training for addition to the queue;
  • Fig. 11 of the drawings is a flow chart showing the steps used for directing an audio file to a speech recognition program that does not accept such files;
  • Figs. 12A and 12B of the drawings depict the graphical user interface of one particular sound card mixer utility that can be used in directing an audio file to a speech recogmtion program that does not accept such files..
  • Fig. 1 of the drawings generally shows one potential embodiment of the present system quickly improving the accuracy of a speech recognition program.
  • the system must include some means for receiving a pre-recorded audio file.
  • This audio file receiving means can be a digital audio recorder, an analog audio recorder, or standard means for receiving computer files on magnetic media or via a data connection; preferably implemented on a general-purpose computer (such as computer 20), although a specialized computer could be developed for this specific purpose.
  • the general-purpose computer should have, among other elements, a microprocessor (such as the Intel Corporation PENTIUM. AMD K6 or Motorola 68000 senesi; volatile and non-volatile memory; one or more mass storage devices (i.e. HDD. floppy drive, and other removable media devices such as a CD-ROM drive, DITTO. ZIP or JAZ drive (from Iomega Corporation) and the like); various user input devices, such as a mouse 23, a keyboard 24, or a microphone 25; and a video display system 26.
  • the general-purpose computer is controlled by the WINDOWS 9.x operating system.
  • the present system would work equally well using a MACINTOSH computer or even another operating system such as a WINDOWS CE, UNIX or a JAVA based operating system, to name a few.
  • the general purpose computer has amongst its programs a speech recognition program, such as DRAGON NATURALLY SPEAKING. IBM's VTA
  • the general-purpose computer in an embodiment utilizing an analog audio input (such as via microphone 25) must include a sound-card 27.
  • sound card 27 is likelv to be necessary for playback such that the human speech trainer can listen to the pre-recorded audio file toward modifying the written text into a verbatim text.
  • this pre-recorded audio file can be thought of as a "" WAV file.
  • This " WAV file can be originally created by any number of sources, including digital audio recording software; as a byproduct of a speech recognition program; or from a digital audio recorder.
  • digital audio recording software including digital audio recording software; as a byproduct of a speech recognition program; or from a digital audio recorder.
  • other audio file formats such as MP2. MP3. RAW. CD, MOD. MIDI. ATFF. mu-law or DSS. could also be used to format the audio file, without departing from the spirit of the present invention
  • the method of savmg such audio files is well known to those of ordinan' skill in the art.
  • the general purpose computer may be loaded and configured to run digital audio recording software (such as the media utility in the WINDOWS 9.x operating syste VOICEDOC from The Programmers ' Consortium. Inc. of Oakton. Virginia. COOL EDIT by Syntrillium Corporation of Phoenix, Arizona or Dragon Naturally Speaking Professional Edition by Dragon Systems. Inc.)
  • the speech recognition program may create a digital audio file as a byproduct of the automated transcription process.
  • dedicated digital recorder 14 such as the Olympus Digital Voice Recorder D-1000 manufactured by the Olympus Corporation.
  • D-1000 manufactured by the Olympus Corporation.
  • Another alternative for receiving the pre-recorded audio file may consist of using one form or another of removable magnetic media containing a pre-recorded audio file. With this alternative an operator would input the removable magnetic media into the general-purpose computer toward uploading the audio file into the svstem.
  • a DSS or RAW file format may selectively be changed to a WAV file format, or the sampling rate of a digital audio file may have to be upsampled or downsampled.
  • Software to accomplish such pre-processing is available from a variety of sources including Syntrillium Corporation and Olympus Corporation.
  • an acceptably formatted pre-recorded audio file is provided to a first speech recognition program that produces a first written text therefrom.
  • the first speech recognition program may also be selected from various commercially available programs, such as Naturally Speaking from Dragon Systems of Newton. Massachusetts. Via Voice from IBM Corporation of Armonk. New York, or Speech Magic from Philips Corporation of Atlanta. Georgia is preferably implemented on a general-purpose computer, which may be the same general-purpose computer used to implement the prerecorded audio file receiving means.
  • Dragon Systems' Naturally Speaking for instance, there is built-in functionality that allows speech-to-text conversion of prerecorded digital audio. Accordingly, in one preferred approach, the present invention can directly access executable files provided with Dragon Naturallv Speaking in order to transcribe the pre-recorded digital audio.
  • the system preferably includes a sound card (such as sound cards produced by Creative Labs. Trident. Diamond. Yamaha. Guillemot, NewCom. Inc.. Digital Audio Labs, and Vovetra Turtle Beach. Inc.).
  • the key to the this embodiment is the configuration of sound card 27 to "trick " IBM Via Voice into thinking that it is receiving audio input (live audio) from a microphone or in-line when the audio is actually coming from a pre-recorded audio file.
  • rerouting can be achieved using a SoundBlaster Live sound card from Creative Labs of Milpitas. California.
  • Fig. 11 is a flowchart showing the steps used for directing an audio file to a speech recognition program that does not accept such files, such IBM ViaVoice.
  • the following steps are used as an example implementation: (1) speech recognition software is launched; (2) the speech recognition window of the speech recognition software is opened in the same as if a live speaker were using the speech recognition software. (3) find mixer utility associated with the sound card using operating system functionality; (4) open mixer utility (see the depiction of one of mixer ' s graphical user interface in Fig. 12A); (5) (Optional) save current sound card mixer settings; (6) change sound card mixer settings to a specific input source (i.e.
  • the transcription enors in the first written text are located in some manner to facilitate establishment of a verbatim text for use in training the speech recognition program.
  • a human transcriptionist establishes a transcribed file, which can be automatically compared with the first written text creating a hst of differences between the two texts, which is used to identify potential errors in the first written text to assist a human speech trainer in locating such potential errors to correct same.
  • Such effort could be assisted by the use of specialized software for isolating or highlighting the errors and synchronizing them with their associated audio.
  • the acceptably formatted pre-recorded audio file is also provided to a second speech recognition program that produces a second wntten text therefrom.
  • the second speech recognition program has at least one " conversion variable " ' different from the first speech recogmtion program.
  • Such "' conversion variables " may include one or more of the following:
  • speech recogmtion programs e.g. Dragon Systems' Naturally Speaking, IBM' s Via Voice or Philips Corporation' s Speech Magic
  • the first wntten text created by the first speech recogmtion is fed directlv into a segmentation/ conection program (See Fig 2)
  • the segmentation conection program utilizes the speech recogmtion program s parsing svstem to sequentially identify speech segments toward placing each and every one of those speech segments into a correction window - whether correction is required on anv portion of those segments or not
  • a speech trainer plavs the synchronized audio associated with the currently displayed speech segment usmg a "playback" button m the conection window and manually compares the audible text with the speech segment in the conection window If one of the pre-conection approaches disclosed above is used than less conections should be required at this stage However, if conection is necessan then that conection is manually input ith standard computer techniques (using the ke ⁇ board mouse and/or speech
  • unintelligible or unusable portions of the prerecorded audio file may be removed usmg an audio file editor so that onlv the usable audio would be used for training the speech recognition program
  • the segment in the correctton wmdow is a verbatim representation of the synchronized audio
  • the segment is manualh accepted and the next segment automatically displayed in the correction window.
  • the corrected/verbatim segment from the correction window is pasted back into the first written text.
  • the corrected verbatim segment is additionally saved into the next sequentially numbered "conect segment" file. Accordingly, in this approach, by the end of a document review there will be a series of separate computer files containing the verbatim text, numbered sequentially, one for each speech segment in the currently first written text.
  • Fig. 3 One potential user interface for implementing the segmentation/correction scheme is shown in Fig. 3.
  • the Dragon Naturally Speaking program has selected "seeds for cookie" as the current speech segment (or utterance in Dragon parlance).
  • the human speech trainer listening to the portion of pre-recorded audio file associated with the currently displayed speech segment, looking at the correction window 7 and perhaps the speech segment in context within the transcribed text determines whether or not correction is necessary. By clicking on the "Play Back " button the audio synchronized to the particular speech segment is automatically played back.
  • the human speech trainer knows the actually dictated language for that speech segment, they either indicate that the present text is correct (by merely pressing an "OK" button) or manually replace any incorrect text with verbatim text.
  • the conected/verbatim text from the correction window is pasted back into the first wntten text and is additionally saved into the next sequentially numbered correct segment file.
  • the series of sequentially numbered files containing the text segments are used to train the speech recognition program.
  • video and storage buffer of the speech recognition program are cleared.
  • the pre-recorded audio file is loaded into the first speech recognition program, in the same manner disclosed above.
  • a new written text is established by the first speech recognition program.
  • the segmentation/correction program utilizes the speech recognition program's parsing system to sequentially identify speech segments and places each and every one of those speech segments into a correction window - whether correction is required on any portion of those segments or not — seriatim.
  • the system automatically replaces the text in the correction window using the next sequentially numbered "correct segment” file. That text is then pasted into the underlying Dragon Naturally Speaking buffer (whether or not the original was correct) and the segment counter is advanced. The fourth and fifth steps are repeated until all of the segments have been replaced.
  • the present system can produce a significant improvement in the accuracy of the speech recognition program.
  • Such automation would take the form of an executable simultaneously operating with the speech recogmtion means that feeds phantom keystrokes and mousing operations through the WINS 2 API, such that the first speech recogmtion program believes that it is interacting with a human being, when in fact it is being controlled by the microprocessor.
  • Such techniques are well known in the computer software testing art and, thus, will not be discussed in detail. It should suffice to say that by watching the application flow of any speech recognition program, an executable to mimic the interactive manual steps can be created. This process is also automated to repeat a pre-determined number of times.
  • Fig. 4 is a flow diagram of this approach using the Dragon software developer's kit ("SDK").
  • SDK Dragon software developer's kit
  • a user selects an audio file (usually ".wav") for automatic transcription.
  • the selected pre-recorded audio file is sent to the Transc ⁇ beFile module of Dictation Edit Control of the Dragon SDK As the audio is bemg transc ⁇ bed.
  • each segment of text is determined automatically by the speech recogmtion program For instance, in Dragon, an utterance is defined by a pause in the speech .As a result of Dragon completing the transcription, the text is internally "' broken up " into segments according to the location of the utterances by the present invention
  • the location of the segments is determined by the Dragon SDK UtteranceBegm and UtteranceEnd modules which report the location of the beginning of an utterance and the location of the end of an utterance For example, if the number of characters to the begmmng of the utterance is 100, and to the end of the utterance is 115.
  • the utterance begins at 100 and has 15 characters This enables the present stem to find the text for audio playback and automated correction
  • the location of utterances is stored m a stbox for reference Once transc ⁇ ption ends (usmg the TranscribeFile module), the text is captured
  • the location of the utterances (using the UtteranceBegm and UtteranceEnd modules) is then used to break apart the text to create a list of utterances
  • Each utterance is listed sequentially in a conection window (see Fig 6)
  • the display may also contain a window that allows the user to view the o ⁇ ginal transcribed text
  • the user then manually examines each utterance to determme if correction is necessary Usmg the utterance locations, the present program can plav the audio associated with the currently selected speech segment usmg a playback ' button in the conection window to ard comparing the audible text with the selected speech segment in the conection window
  • that correction is manually input w ⁇ th standard computer techniques (usmg the keyboard, mouse and/or speech recognition software and. potenualh. lists of potential replacement words) (see Fig 7)
  • the segment m the correction wmdow is manually accepted and the next segment automatically displayed in the correction wmdow
  • the user may then have the option to calculate the accuracy of the transcription performed by Dragon
  • This process compares the conected set of utterances with the o ⁇ ginal transc ⁇ bed file The percentage of correct words can be displayed, and the location of the differences is recorded by notmg every utterance that contained an error
  • the conected set of utterances may then be saved to a single file. In this embodiment, all the utterances are saved to this file, not just conected ones Thus, this file will contain a conected verbatim text version of the pre-recorded audio
  • the user may then choose to do an automated conection of the transcribed text (see Fig 8)
  • This process inserts the corrected utterances into the original transc ⁇ ption file via Dragon ' s correction dialog .
  • the user is prompted to Save the Speech file
  • This conection approach uses the locations of the differences between the conected utterances and the transcribed text to only correct the enoneous utterances Consequent .
  • unlike the other approach to the training of the speech recognition program only enoneous segments are repetitively conected Consequently in the approach usmg the Dragon SDK as the number of errors diminish, the time to incrementally train the speech recognition program will drop.
  • Another novel aspect of this invention is the ability to make changes in the transcribed file for the purposes of a written report versus for the verbatim files (necessary for training the speech conversion program)
  • the general purpose of the present invention is to allow for automated training of a voice recognition system
  • the initial recording contains wrong information or the wrong word was actually said durmg recording (e g the user said 'right' du ⁇ ng the initial recordmg when the user meant to say 'left ' )
  • the conection of the text cannot normally be made to a word that was not actualh said in the recordmg as this would hinder the training of the voice recognition system
  • the present invention may allow the user to make changes to the text and save this text solely for printing or reportmg, while maintaining the separate verbatim file to train the voice recognition system
  • Fig 6 One potential user interface for implementmg the segmentation conection scheme for the approach using the Dragon SDK is shown in Fig 6
  • the program has selected "a range of dictation and transcription solutions " as the cunent speech segment
  • the human speech tramer listenmg to the portion of pre-recorded audio file associated with the cunently displayed speech segment, looking at the conection window and perhaps the speech segment in context within the transc ⁇ bed text determines whether or not correction is necessary Bv clicking on the 'Play Selected " ' button the audio synchronized to the particular speech segment is automatically played back
  • the human speech tramer knows the actually dictated language for that speech segment they either mdicate that the present text is correct or manually replace anv inconect text with verbatim text
  • the corrected/verbatim text from the correction window is saved mto a single file containing all the conected utterances
  • Fig 5 is a flow diagram desc ⁇ bing the trainmg process
  • the user has the option of running the training sequence a selected number of times to increase the effectiveness of the training
  • the user chooses the file on which to perform the trainmg
  • the chosen files are then transfened to the queue for processmg (Fig 10)
  • trainmg is initiated, the file containing the conected set of utterances is read
  • the conected utterances file is opened and read mto a hstbox This is not a function of the Dragon
  • the associated pre-recorded audio file is sent to Transc ⁇ beFile method of DictationEditControl from the Dragon SDK (In particular, the audio file is sent by running the command "F ⁇ nControls DeTop2 Transc ⁇ beFile filename," FrmControls is the form where the Dragon SDK ActiveX Controls are located, DeTop2 is the name of the controls )
  • Transcnbe File is the function of controls for transc ⁇ bmg wave files In conjunction with this transc ⁇ bmg.
  • the UtteranceBegm and UtteranceEnd methods of DragonEngineControl report the location of utterances in the same manner as previoush desc ⁇ bed
  • This set of utterances is compared to the hst of conected utterances to find anv differences
  • One program used to compare the differences may be File Compare The location of the differences are then stored in a hstbox Then the locations of differences m the hst box are used to onlv conect the utterances that had differences Upon completion of conection. speech files are automatically saved This cycle can then be repeated the predetermined number of times
  • Transc ⁇ beFile can be initiated one last time to transcnbe the pre-recorded audio
  • the location of the utterances are not calculated again in this step
  • This transcribed file is compared one more time to the conected utterances to determine the accuracv of the voice recognition program after training

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  • Engineering & Computer Science (AREA)
  • Computational Linguistics (AREA)
  • Health & Medical Sciences (AREA)
  • Audiology, Speech & Language Pathology (AREA)
  • Human Computer Interaction (AREA)
  • Physics & Mathematics (AREA)
  • Acoustics & Sound (AREA)
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Abstract

L'invention porte sur un système et un procédé permettant d'améliorer rapidement la précision d'un programme de reconnaissance vocale. Ce système est basé sur un programme de reconnaissance vocale qui convertit automatiquement un fichier audio préenregistré en un texte écrit. Le système analyse le texte écrit par segments, chacun de ces segments étant corrigé par le système et sauvegardé en vue d'une récupération en relation avec l'ordinateur. Les fichiers vocaux standards sont sauvegardés en vue d'améliorer la précision de conversion voix-texte par le programme de reconnaissance vocale. Le système comprend également des moyens permettant d'établir une instance indépendante du texte écrit à partir du fichier audio préenregistré à l'aide du programme de reconnaissance vocale. L'instance indépendante peut être ensuite divisée en segments et chaque segment de cette instance est remplacé par un segment corrigé associé à ce segment. De cette manière, les instructions répétitives d'un programme de reconnaissance vocale sont facilitées. L'invention porte également sur un système et un procédé permettant de diriger des fichiers audio préenregistrés vers un programme de reconnaissance vocale qui n'accepte pas ces fichiers, ainsi que sur un système et un procédé qui sont nécessaires pour utiliser le système et le procédé visant à améliorer rapidement la précision d'un programme de reconnaissance vocale avec des programmes de reconnaissance vocale préexistants.
EP00950784A 1999-07-28 2000-07-27 Systeme et procede pour ameliorer la precision d'un programme de reconnaissance vocale Withdrawn EP1509902A4 (fr)

Applications Claiming Priority (9)

Application Number Priority Date Filing Date Title
US430144 1982-09-30
US625657 1984-06-28
US09/362,255 US6490558B1 (en) 1999-07-28 1999-07-28 System and method for improving the accuracy of a speech recognition program through repetitive training
US362255 1999-07-28
US09/430,144 US6421643B1 (en) 1999-07-28 1999-10-29 Method and apparatus for directing an audio file to a speech recognition program that does not accept such files
US20887800P 2000-06-01 2000-06-01
US208878P 2000-06-01
US09/625,657 US6704709B1 (en) 1999-07-28 2000-07-26 System and method for improving the accuracy of a speech recognition program
PCT/US2000/020467 WO2001009877A2 (fr) 1999-07-28 2000-07-27 Systeme et procede pour ameliorer la precision d'un programme de reconnaissance vocale

Publications (2)

Publication Number Publication Date
EP1509902A2 true EP1509902A2 (fr) 2005-03-02
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EP00950784A Withdrawn EP1509902A4 (fr) 1999-07-28 2000-07-27 Systeme et procede pour ameliorer la precision d'un programme de reconnaissance vocale

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EP (1) EP1509902A4 (fr)
AU (1) AU776890B2 (fr)
CA (1) CA2380433A1 (fr)
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WO (1) WO2001009877A2 (fr)

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FR2885247B1 (fr) * 2005-04-27 2007-08-31 Marc Bendayan Equipement de reconnaissance de la parole.
US8521510B2 (en) * 2006-08-31 2013-08-27 At&T Intellectual Property Ii, L.P. Method and system for providing an automated web transcription service
JP2012189930A (ja) 2011-03-14 2012-10-04 Seiko Epson Corp プロジェクター
CN112329926B (zh) * 2020-11-30 2024-09-10 珠海采筑电子商务有限公司 智能机器人的质量改善方法及系统

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EP0877378A2 (fr) * 1997-05-08 1998-11-11 British Broadcasting Corporation Méthode et appareil pour éditer des enregistrements audio ou audio-vidéo
EP0887788A2 (fr) * 1997-06-06 1998-12-30 Olympus Optical Co., Ltd. Dispositif de reconnaissance de la parole pour convertir des données de parole présentés sur un support d'enregistrement en un texte

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Publication number Publication date
NZ516956A (en) 2004-11-26
AU776890B2 (en) 2004-09-23
WO2001009877A3 (fr) 2004-10-28
WO2001009877A2 (fr) 2001-02-08
CA2380433A1 (fr) 2001-02-08
WO2001009877A9 (fr) 2002-07-11
EP1509902A4 (fr) 2005-08-17
AU6383500A (en) 2001-02-19

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