an improved audio jenn tam jdtam@cs.cmu.edu computer science dept. carnegie mellon university soaps...

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AN IMPROVED AUDIO

Jenn Tamjdtam@cs.cmu.edu

Computer Science Dept.

Carnegie Mellon University

SOAPS 2008, Pittsburgh, PA

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WHAT ARE CAPTCHAS?

CAPTCHAs are tests generated by computers and generally passable by humans but not current computer programs.

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THE PROBLEM WITH CURRENT AUDIO CAPTCHAS

In some cases the human passing rate is only 70%!

To make the CAPTCHAs secure, noise was injected into the audio files making it harder for both computers and humans to pass.

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ARE CURRENT AUDIO CAPTCHAS SECURE?

A CAPTCHA is considered broken once a program can pass it 5% of the time.

Since the current audio CAPTCHAs use a limited vocabulary, it was possible for us to collect enough data to train a system that could pass the current audio CAPTCHAs more than 45% of the time.

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HOW DID WE TEST THE CURRENT AUDIO CAPTCHAs?

Selected three different types of audio CAPTCHAs: google, reCAPTCHA, and digg

Collected 1000 CAPTCHAs per type of audio CAPTCHA to use for training and testing

Created an ASR system using machine learning techniques

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THE ALGORITHM

Given the .wav file of an audio CAPTCHA Segmentation - selecting portions of the audio

which most likely are digits/letters Recognition

Extract features from the segmentClassify segment as digit/letter or noise and

output the label Stop once a maximum number of segments are

classified

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ALGORITHM DETAILS - SEGMENTATION

CAPTCHAs were manually labeled and segmented. We created training segments using this information.

For testing, we chose the highest energy peaks in the test CAPTCHA and selected fixed size segments roughly centered at the peaks.

QuickTime™ and a decompressor

are needed to see this picture.

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ALGORITHM DETAILS - FEATURES

We used three popular techniques for extracting features from speech to derive 5 sets of features from the audio.Mel-frequency cepstral coefficients (MFCC)Perceptual linear prediction (PLP)Relative spectral transform with PLP (RASTA-PLP)

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ALGORITHM DETAILS - AdaBoost

Used decision stumps for weak classifiers For each type of audio CAPTCHA we created

enough classifiers to label a segment as a digit, letter, or noise.

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ALGORITHM DETAILS - SVM

Created a single multiclass classifier using all the training segments (from 900 CAPTCHAs)

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ALGORITHM DETAILS - k-NN

Created 5 classifiers corresponding to each of the feature sets

Used Euclidean distance as our distance metric Cross-validation gives us k=1

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THE ALGORITHM

Input: Audio CAPTCHA as an audio file Segmentation

Find the highest energy peak, and extract a fixed size segment centered at that peak

RecognitionExtract features from segmentGive segment to classifier and obtain label

Stop extracting segments once all segments have been labeled or a max solution size is reached.

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Using three machine learning techniques to perform ASR on the CAPTCHAsAdaBoostSupport Vector

Machines (SVM)k-Nearest Neighbor

(k-NN)

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GooglereCAPTCHA Digg

Exact Match Rate

AdaBoostSVMk-NN

ANALYSIS OF CURRENT AUDIO CAPTCHAs

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THE GOAL

Make a secure audio CAPTCHA which will be easier for a human to pass and harder for a computer to pass.

Equate solving a CAPTCHA with doing some useful work. In other words, create an audio reCAPTCHA.

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WHAT IS reCAPTCHA?

reCAPTCHA helps digitize text on which OCR fails by using the text as its CAPTCHA.

Since millions of people solve CAPTCHAs each day, millions of words get digitized each day!

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THE AUDIO RECAPTCHA

Takes advantage of the human ability to understand words through context.

Will help transcribe digital audio on which ASR systems fail.

The audio being used was originally recorded with the intention that it should be easily understood by humans.

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HOW WILL IT WORK?

Start with a database of phrases with known transcriptions.

Give user adjacent phrases to transcribe as the CAPTCHA .

Check user solution against the database to determine the result of the test. Store the rest of the solution as transcription

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That was the shot that killed Harry Lime. He died in aThat was the shot that killed Harry Lime. He died in a

Harry Lime he died in a sewer beneath ViennaHarry Lime he died in a sewer beneath Vienna

Harry Lime. He died in aHarry Lime. He died in a

Segment #1 Segment #2 Segment #3

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ANALYSIS OF SECURITY

Speaker independent recognition is difficult. Open vocabularies make it even more difficult

for ASR systems AM broadcasts and .mp3 compression cause the

loss of important data needed for automatic analysis

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CONCLUSION

CAPTCHAs need to be more accessible, yet remain secure and not too difficult for humans.

Deploy audio reCAPTCHA through reCAPTCHA site.

Help make knowledge captured in audio available in text form

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ACKNOWLEDGEMENTS

Dr. Luis von Ahn, CMU Dr. Manuel Blum, CMU Dr. Roni Rosenfeld, CMU David Huggins-Daines, CMU Jiri Simsa, CMU Sean Hyde, CMU