CAPTCHA: Using Hard AI Problems For Security full report
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20-04-2010, 09:42 PM


Abstract.
We introduce captcha, an automated test that humans can pass, but current computer programs canâ„¢t pass: any program that has high success over a captcha can be used to solve an unsolved Arti?- cial Intelligence (AI) problem. We provide several novel constructions of captchas. Since captchas have many applications in practical secu- rity, our approach introduces a new class of hard problems that can be exploited for security purposes. Much like research in cryptography has had a positive impact on algorithms for factoring and discrete log, we hope that the use of hard AI problems for security purposes allows us to advance the ?eld of Arti?cial Intelligence. We introduce two families of AI problems that can be used to construct captchas and we show that solutions to such problems can be used for steganographic commu- nication. captchas based on these AI problem families, then, imply a win-win situation: either the problems remain unsolved and there is a way to di?erentiate humans from computers, or the problems are solved and there is a way to communicate covertly on some channels.

Presented By:
Luis von Ahn1 , Manuel Blum1 , Nicholas J. Hopper1 , and John Langford2


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arati khedekar
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29-08-2010, 02:43 PM

provide the full preport on seminar and presentation topic "captcha" in .doc file
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15-10-2010, 09:17 AM

CAPTCHA and HIP



What is CAPTCHA and what is HIP?
When you try to access some web sites you may be asked to type in what you see in a picture. If you can read the picture the web site assumes you are human because computers (in this case bots sent by spammers) cannot read such text. The word CAPTCH is an acronym and stands for

Completely
Automated
Public
Turing test to tell
Computers and
Humans
Apart

In order to "read," computers must do Optical Character Recognition (OCR), a process that starts with the pixels of an image and ends by identifying letters. OCR works by first separating the foreground (letter) color from the backround color, then collecting pixels with the letter color into groups so that each group corresponds to a letter, and then trying to figure out the shape of the letter. By 1990 people had written programs that could perfrom these tasks well for some types of text and there are several products in the market that do a good job with printed text using the Roman (or other western) alphabet. (Ironically, by the time the products reached the market the need for OCR had been greatly diminished because most text was entered through computers in the first place.)
CAPTCHA (initiated by researchers at Carnegie Mellon University and IBM in 2000) works by understanding the OCR methods and displaying text that can break them. Of course this a game two can play, so OCR designers can modify their methods to read the distorted text.
While CAPTCHAs started with text they have started using other images that maybe easy for a human to recognize but they baffle computers. Also, some of the new tests are not public so the technology is now called HIP that stands for
Human
Interaction
Proof
While it avoids the historical reference to Turing, it is a shorter acronym and easier to remember.

Alan Turing and the Turing Test
Alan Turing (1912-1954) is considered the inventor of the modern computer. He did both theoretical work and direct development for a computer that was able to break the ENIGMA German codes during World War II. You should read at least a Short Biography by Jerome M. O’Connor. More information can be found in the Wikipedia entry, and even more in a full Biographical page created by Andrew Hodges, author of the book Alan Turing: the enigma (Touchstone, 1983).

For more information about this article,please follow the link:
googleurl?sa=t&source=web&cd=1&ved=0CBUQFjAA&url=http%3A%2F%2Ftheopavlidis.com%2Ftechnology%2Fcaptcha%2Ftutorial.htm&ei=ms63TMTGK5OCvgPlvYyWCQ&usg=AFQjCNFo_AIp2EEs2brv7h88CiN5_kbOqw
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15-10-2010, 01:45 PM


.docx   urvashijaiswal.docx (Size: 557.07 KB / Downloads: 187)
CAPTCHAS


INTRODUCTION

Use of INTERNET has remarkably increased Globally in the past 10-12 years and so is the need of the Security over it. Marketing and Advertisement over INTERNET has seen companies like GOOGLE being made, which at the moment is traded at 181 billion USD ie. Almost twice of General Motors, McDonalds combined.
You're trying to sign up for a free email service offered by Gmail or Yahoo. Before you can submit your application, you first have to pass a test. It's not a hard test -- in fact, that's the point. For you, the test should be simple and straightforward. But for a computer, the test should be almost impossible to solve. This sort of test is aCAPTCHA. They're also known as a type of Human Interaction Proof(HIP). You've probably seen CAPTCHA tests on lots of Web sites. The most common form of CAPTCHA is an image of several distorted letters. It's your job to type the correct series of letters into a form. If your letters match the ones in the distorted image, you pass the test.
CAPTCHAs are short for Completely Automated Public Turing test to tell Computers and Humans Apart. The term "CAPTCHA" was coined in 2000 by Luis Von Ahn, Manuel Blum, Nicholas J. Hopper (all of Carnegie Mellon University, and John Langford (then of IBM). They are challenge-response tests to ensure that the users are indeed human. The purpose of a CAPTCHA is to block form submissions from spam bots –automated scripts that harvest email addresses from publicly available web forms. A common kind of CAPTCHA used on most websites requires the users to enter the string of characters that appear in a distorted form on the screen.
CAPTCHAs are used because of the fact that it is difficult for the computers to extract the text from such a distorted image, whereas it is relatively easy for a human to understand the text hidden behind the distortions. Therefore, the correct response to a CAPTCHA challenge is assumed to come from a human and the user is permitted into the website.
Why would anyone need to create a test that can tell humans and computers apart? It's because of people trying to game the system -- they want to exploit weaknesses in the computers running the site. While these individuals probably make up a minority of all the people on the Internet, their actions can affect millions of users and Web sites. For example free e-mail service might find itself bombarded by account requests from an automated program. That automated program could be part of a larger attempt to send out spam mail to millions of people. The CAPTCHA test helps identify which users are real human beings and which ones are computer programs.
Spammers are constantly trying to build algorithms that read the distorted text correctly. So strong CAPTCHAs have to be designed and built so that the efforts of the spammers are thwarted.
Well this presentation is about Security achieved over Internet using CAPTCHAS. CAPTCHAS are basically software programs which act as a test to any user over internet that the person (user) is a human or another machine. This concept is used by all the big companies over internet Google, yahoo or facebook (name any).So what are these CAPTCHAS? And what are their possible applications? This is what we cover in our presentation.

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24-11-2010, 10:48 AM


.ppt   captcha.ppt (Size: 2.79 MB / Downloads: 246)
CAPTCHA: The Concept



“Humans can read distorted text whereas
computers cannot.”

The most common CAPTCHAs require an user to type the letters of a distorted image.


Why Turing Test

A Turing test is used to test a machine’s capability to demonstrate intelligence.


Proposed by Prof. Alan Turing.

Why Turing Test
In a simple turing test a human judge engages in natural language conversation with two parties: one human and the other computer.

CATCH: If during the conversation the judge cannot tell which is which then the machine is said to pass the test.

CAPTCHA vs. Turing Test
Unlike the turing test in which a human judge administers the test, in CAPTCHAs it is the computer which administers the test.

A CAPTCHA is also known as a reverse turing test.

CAPTCHA vs. Turing Test

Dates back to 1997 at AltaVista, a very popular search engine firm, to prevent automated programs from adding URLs to its search engines.



In 2000, von Ahn and Blum simulated situations to make images resistant to Optical Character Recognition (OCR) programs .

CATCH: They went through scanner manuals to simulate situations that resulted in a bad OCR.





For more details about Captchas with full report,please go through:

topicideashow-to-captchas?pid=30164#pid30164
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28-01-2011, 01:15 PM




CAPTCHA

CHAPTER 1

INTRODUCTION
1.1 Overview:
You're trying to sign up for a free email service offered by Gmail or Yahoo. Before you can submit your application, you first have to pass a test. It's not a hard test -- in fact, that's the point. For you, the test should be simple and straightforward. But for a computer, the test should be almost impossible to solve. This sort of test is a CAPTCHA. They're also known as a type of Human Interaction Proof (HIP). You've probably seen CAPTCHA tests on lots of Web sites. The most common form of CAPTCHA is an image of several distorted letters. It's your job to type the correct series of letters into a form. If your letters match the ones in the distorted image, you pass the test.
CAPTCHAs are short for Completely Automated Public Turing test to tell Computers and Humans Apart. The term "CAPTCHA" was coined in 2000 by Luis Von Ahn, Manuel Blum, Nicholas J. Hopper (all of Carnegie Mellon University, and John Langford (then of IBM). They are challenge-response tests to ensure that the users are indeed human. The purpose of a CAPTCHA is to block form submissions from spam bots – automated scripts that harvest email addresses from publicly available web forms. A common kind of CAPTCHA used on most websites requires the users to enter the string of characters that appear in a distorted form on the screen.
CAPTCHAs are used because of the fact that it is difficult for the computers to extract the text from such a distorted image, whereas it is relatively easy for a human to understand the text hidden behind the distortions. Therefore, the correct response to a CAPTCHA challenge is assumed to come from a human and the user is permitted into the website. Why would anyone need to create a test that can tell humans and computers apart? It's because of people trying to game the system -- they want to exploit weaknesses in the computers running the site. While these individuals probably make up a minority of all the people on the Internet, their actions can affect millions of users and Web sites.

1
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CAPTCHA
free e-mail service might find itself bombarded by account requests from an automated program. That automated program could be part of a larger attempt to send out spam mail to millions of people. The CAPTCHA test helps identify which users are real human beings and which ones are computer programs. S
pammers are constantly trying to build algorithms that read the distorted text correctly. So strong CAPTCHAs have to be designed and built so that the efforts of the spammers are thwarted.

otivation:
The proliferation of the publicly available services on the Web is a boon for the community at large. But unfortunately it has invited new and novel abuses. Programs (bots and spiders) are being created to steal services and to conduct fraudulent transactions. Some examples:

•Free online accounts are being registered automatically many times and are being used to distribute stolen or copyrighted material.
•Recommendation systems are vulnerable to artificial inflation or deflation of rankings. For example, EBay, a famous auction website allows users to rate a product. Abusers can easily create bots that could increase or decrease the rating of a specific product, possibly changing people’s perception towards the product.
•Spammers register themselves with free email accounts such as those provided by Gmail or Hotmail and use their bots to send unsolicited mails to other users of that email service.
•Online polls are attacked by bots and are susceptible to ballot stuffing. This gives unfair mileage to those that benefit from it.

In light of the above listed abuses and much more, a need was felt for a facility that checks users and allows access to services to only human users. It was in this direction that such a tool like CAPTCHA was created.
Background:
The need for CAPTCHAs rose to keep out the website/search engine abuse by bots. In 1997, AltaVista sought ways to block and discourage the automatic submissions of URLs into their search engines. Andrei Broder, Chief Scientist of AltaVista, and his colleagues developed a filter. Their method was to generate a printed text randomly that only humans could read and not machine readers. Their approach was so effective that in an year, “spamadd- ons’” were reduced by 95% and a patent was issued in 2001. In 2000, Yahoo’s popular Messenger chat service was hit by bots which pointed advertising links to annoying human users of chat rooms. Yahoo, along with Carnegie Mellon University, developed a CAPTCHA called EZ-GIMPY, which chose a dictionary word randomly and distorted it with a wide variety of image occlusions and asked the user to input the distorted word. In November 1999, slashdot.com released a poll to vote for the best CS college in the US. Students from the Carnegie Mellon University and the Massachusetts Institute of Technology created bots that repeatedly voted for their respective colleges. This incident created the urge to use CAPTCHAs for such online polls to ensure that only human users are able to take part in the polls.


CAPTCHAs and the Turing Test:
CAPTCHA technology has its foundation in an experiment called the Turing Test.Alan Turing, sometimes called the father of modern computing, proposed the test as a way to examine whether or not machines can think -- or appear to think -- like humans. The classic test is a game of imitation. In this game, an interrogator asks two participants a series of questions. One of the participants is a machine and the other is a human. The interrogator can't see or hear the participants and has no way of knowing which is which. If the interrogator is unable to figure out which participant is a machine based on the responses, the machine passes the Turing Test. Of course, with a CAPTCHA, the goal is to create a test that humans can pass easily but machines can't. It's also important that the CAPTCHA application is able to present different CAPTCHAs to different users. If a visual CAPTCHA presented a static image that was the same for every user, it wouldn't take long before a spammer spotted the form, deciphered the letters, and programmed an application to type in the correct answer automatically. Most, but not all, CAPTCHAs rely on a visual test. Computers lack the sophistication that human beings have when it comes to processing visual data. We can look at an image and pick out patterns more easily than a computer. The human mind sometimes perceives patterns even when none exist, a quirk we call pareidolia. Ever see a shape in the clouds or a face on the moon? That's your brain trying to associate random information into patterns and shapes. But not all CAPTCHAs rely on visual patterns. In fact, it's important to have an alternative to a visual CAPTCHA. Otherwise, the Web site administrator runs the risk of disenfranchising any Web user who has a visual impairment. One alternative to a visual test is an audible one. An audio CAPTCHA usually presents the user with a series of spoken letters or numbers. It's not unusual for the program to distort the speaker's voice, and it's also common for the program to include background noise in the recording. This helps thwart voice recognition programs. Another option is to create a CAPTCHA that asks the reader to interpret a short passage of text. A contextual CAPTCHA quizzes the reader and tests comprehension skills. While computer programs can pick out key words in text passages, they aren't very good at understanding what those words actually mean.


CHAPTER 2
Types of CAPTCHAs

CAPTCHAs are classified based on what is distorted and presented as a challenge to the user. They are: 2.1 Text CAPTCHAs: These are simple to implement. The simplest yet novel approach is to present the user with some questions which only a human user can solve. Examples of such questions are: 1. What is twenty minus three? 2. What is the third letter in UNIVERSITY? 3. Which of Yellow, Thursday and Richard is a colour? 4. If yesterday was a Sunday, what is today? Such questions are very easy for a human user to solve, but it’s very difficult to program a computer to solve them. These are also friendly to people with visual disability – such as those with colour blindness. Other text CAPTCHAs involves text distortions and the user is asked to identify the text hidden. The various implementations are: 2.1.1 Gimpy: Gimpy is a very reliable text CAPTCHA built by CMU in collaboration with Yahoo for their Messenger service. Gimpy is based on the human ability to read extremely distorted text and the inability of computer programs to do the same. Gimpy works by choosing ten
********************
CAPTCHA
words randomly from a dictionary, and displaying them in a distorted and overlapped manner.
Gimpy then asks the users to enter a subset of the words in the image. The human user is
capable of identifying the words correctly, whereas a computer program cannot.

2.1.2 Ez – Gimpy:
This is a simplified version of the Gimpy CAPTCHA, adopted by Yahoo in their
signup page. Ez – Gimpy randomly picks a single word from a dictionary and applies
distortion to the text. The user is then asked to identify the text correctly.


********************
CAPTCHA
This was developed by Henry Baird at University of California at Berkeley. This is a variation of the Gimpy. This doesn’t contain dictionary words, but it picks up random alphabets to create a nonsense but pronounceable text. Distortions are then added to this text and the user is challenged to guess the right word. This technique overcomes the drawback of Gimpy CAPTCHA because, Gimpy uses dictionary words and hence, clever bots could be designed to check the dictionary for the matching word by brute-force. finans ourses
Fig 2.3 BaffleText examples
2.1.4 MSN Captcha:
Microsoft uses a different CAPTCHA for services provided under MSN
umbrella. These are popularly called MSN Passport CAPTCHAs. They use eight characters
(upper case) and digits. Foreground is dark blue, and background is grey. Warping is used to
distort the characters, to produce a ripple effect, which makes computer recognition very
difficult.
XTNM5YRE
L9D28229B

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CAPTCHA

2.2 Graphic CAPTCHAs:
Graphic CAPTCHAs are challenges that involve pictures or objects that have some sort of similarity that the users have to guess. They are visual puzzles, similar to Mensa tests. Computer generates the puzzles and grades the answers, but is itself unable to solve it.
2.2.1 Bongo:
Bongo. Another example of a CAPTCHA is the program we call BONGO [2]. BONGO is named after M.M. Bongard, who published a book of pattern recognition problems in the 1970s [3]. BONGO asks the user to solve a visual pattern recognition problem. It displays two series of blocks, the left and the right. The blocks in the left series differ from those in the right, and the user must find the characteristic that sets them apart.

These two sets are different because everything on the left is drawn with thick lines and those on the right are in thin lines. After seeing the two blocks, the user is presented with a set of four single blocks and is asked to determine to which group the each block belongs to.
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CAPTCHA
user passes the test if s/he determines correctly to which set the blocks belong to. We have to be careful to see that the user is not confused by a large number of choices.
2.2.2 PIX:
PIX is a program that has a large database of labeled images. All of these images are pictures of concrete objects (a horse, a table, a house, a flower). The program picks an object at random, finds six images of that object from its database, presents them to the user and then asks the question “what are these pictures of?” Current computer programs should not be able to answer this question, so PIX should be a CAPTCHA. However, PIX, as stated, is not a CAPTCHA: it is very easy to write a program that can answer the question “what are these pictures of?” Remember that all the code and data of a CAPTCHA should be publicly
available; in particular, the image database that PIX uses should be public. Hence, writing a program that can answer the question “what are these pictures of?” is easy: search the database for the images presented and find their label. Fortunately, this can be fixed. One way for PIX to become a CAPTCHA is to randomly distort the images before presenting them to
the user, so that computer programs cannot easily search the database for the undistorted image.

2.3 Audio CAPTCHAs:
The final example we offer is based on sound. The program picks a word or a sequence of numbers at random, renders the word or the numbers into a sound clip and distorts the sound clip; it then presents the distorted sound clip to the user and asks users to enter its contents. This CAPTCHA is based on the difference in ability between humans and computers in recognizing spoken language. Nancy Chan of the City University in Hong Kong was the first to implement a sound-based system of this type. The idea is that a human is able to efficiently disregard the distortion and interpret the characters being read out while software would struggle with the distortion being applied, and need to be effective at speech
to text translation in order to be successful. This is a crude way to filter humans and it is not so popular because the user has to understand the language and the accent in which the sound clip is recorded.

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CAPTCHA
2.4 reCAPTCHA and book digitization: To counter various drawbacks of the existing implementations, researchers at CMU developed a redesigned CAPTCHA aptly called the reCAPTCHA. About 200 million CAPTCHAs are solved by humans around the world every day. In each case, roughly ten seconds of human time are being spent. Individually, that's not a lot of time, but in aggregate these little puzzles consume more than 150,000 hours of work each day. What if we could make positive use of this human effort? reCAPTCHA does exactly that by channeling the effort spent solving CAPTCHAs online into "reading" books. To archive human knowledge and to make information more accessible to the world, multiple project and implimentations are currently digitizing physical books that were written before the computer age. The book pages are being photographically scanned, and then transformed into text using "Optical Character Recognition" (OCR). The transformation into text is useful because scanning a book produces images, which are difficult to store on small devices, expensive to download, and cannot be searched. The problem is that OCR is not perfect. reCAPTCHA improves the process of digitizing books by sending words that cannot be read by computers to the Web in the form of CAPTCHAs for humans to decipher. More specifically, each word that cannot be read correctly by OCR is placed on an image and used as a CAPTCHA. This is possible because most OCR programs alert you when a word cannot be read correctly. But if a computer can't read such a CAPTCHA, how does the system know the correct answer to the puzzle? Here's how: Each new word that cannot be read correctly by OCR is given to a user in conjunction with another word for which the answer is already known. The user is then asked to read both words. If they solve the one for which the answer is known, the system assumes their answer is correct for the new one. The system then gives the new image to a number of other people to determine, with higher confidence, whether the original answer was correct. Currently, reCAPTCHA is employed in digitizing books as part of the Google Books Project.
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CAPTCHA
Fig 2.6 First line shows scanned text, second line shows text read by OCR Chapter 3 Applications CAPTCHAs are used in various Web applications to identify human users and to restrict access to them. Some of them are: 1. Online Polls: As mentioned before, bots can wreak havoc to any unprotected online poll. They might create a large number of votes which would then falsely represent the poll winner in spotlight. This also results in decreased faith in these polls. CAPTCHAs can be used in websites that have embedded polls to protect them from being accessed by bots, and hence bring up the reliability of the polls. 2. Protecting Web Registration: Several companies offer free email and other services. Until recently, these service providers suffered from a serious problem – bots. These bots would take advantage of the service and would sign up for a large number of accounts. This often created problems in account management and also increased the burden on their servers. CAPTCHAs can effectively be used to filter out the bots and ensure that only human users are allowed to create accounts. 3. Preventing comment spam: Most bloggers are familiar with programs that submit large number of automated posts that are done with the intention of increasing the search engine ranks of that site. CAPTCHAs can be used before a post is submitted to ensure that only human users can create posts. A CAPTCHA won't stop
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CAPTCHA
someone who is determined to post a rude message or harass an administrator, but it will help prevent bots from posting messages automatically. 4. Search engine bots: It is sometimes desirable to keep web pages unindexed to prevent others from finding them easily. There is an html tag to prevent search engine bots from reading web pages. The tag, however, doesn't guarantee that bots won't read a web page; it only serves to say "no bots, please." Search engine bots, since they usually belong to large companies, respect web pages that don't want to allow them in. However, in order to truly guarantee that bots won't enter a web site, CAPTCHAs are needed. 5. E-Ticketing: Ticket brokers like TicketMaster also use CAPTCHA applications. These applications help prevent ticket scalpers from bombarding the service with massive ticket purchases for big events. Without some sort of filter, it's possible for a scalper to use a bot to place hundreds or thousands of ticket orders in a matter of seconds. Legitimate customers become victims as events sell out minutes after tickets become available. Scalpers then try to sell the tickets above face value. While CAPTCHA applications don't prevent scalping; they do make it more difficult to scalp tickets on a large scale. 6. Email spam: CAPTCHAs also present a plausible solution to the problem of spam emails. All we have to do is to use a CAPTCHA challenge to verify that a indeed a human has sent the email. 7. Preventing Dictionary Attacks: CAPTCHAs can also be used to prevent dictionary attacks in password systems. The idea is simple: prevent a computer from being able to iterate through the entire space of passwords by requiring it to solve a CAPTCHA after a certain number of unsuccessful logins. This is better than the 1
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CAPTCHA
classic approach of locking an account after a sequence of unsuccessful logins, since doing so allows an attacker to lock accounts at will. 8. As a tool to verify digitized books: This is a way of increasing the value of CAPTCHA as an application. An application called reCAPTCHA harnesses users responses in CAPTCHA fields to verify the contents of a scanned piece of paper. Because computers aren’t always able to identify words from a digital scan, humans have to verify what a printed page says. Then it’s possible for search engines to search and index the contents of a scanned document. This is how it works: The application already recognizes one of the words. If the visitor types that word into a field correctly, the application assumes the second word the user types is also correct. That second word goes into a pool of words that the application will present to other users. As each user types in a word, the application compares the word to the original answer. Eventually, the application receives enough responses to verify the word with a high degree of certainty. That word can then go into the verified pool. 9. Improve Artificial Intelligence (AI) technology: Luis von Ahn of Carnegie Mellon University is one of the inventors of CAPTCHA. In a 2006 lecture, von Ahn talked about the relationship between things like CAPTCHA and the field of artificial intelligence (AI). Because CAPTCHA is a barrier between spammers or hackers and their goal, these people have dedicated time and energy toward breaking CAPTCHAs. Their successes mean that machines are getting more sophisticated. Every time someone figures out how to teach a machine to defeat a CAPTCHA, we move one step closer to artificial intelligence. As people find new ways to get around CAPTCHA, computer scientists like von Ahn develop CAPTCHAs that address other challenges in the field of AI. A step backward for CAPTCHA is still a step forward for AI – “every defeat is also a victory”. 1
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CAPTCHA
Chapter 4 Constructing CAPTCHAs 4.1 Things to know: The first step to create a CAPTCHA is to look at different ways humans and machines process information. Machines follow sets of instructions. If something falls outside the realm of those instructions, the machines aren’t able to compensate. A CAPTCHA designer has to take this into account when creating a test. For example, it’s easy to build a program that looks at metadata – the information on the Web that’s invisible to humans but machines can read. If you create a visual
CAPTCHA
******************** CAPTCHA and the images’ metadata includes the solution, your CAPTCHA will be broken in no time. Similarly, it’s unwise to build a CAPTCHA that doesn’t distort letters and numbers in some way. An undistorted series of characters isn’t very secure. Many computer programs can scan an image and recognize simple shapes like letters and numbers. One way to create a CAPTCHA is to pre-determine the images and solutions it will use. This approach requires a database that includes all the CAPTCHA solutions, which can compromise the reliability of the test. According to Microsoft Research experts Kumar Chellapilla and Patrice Simard, humans should have an 80 percent success rate at solving any particular CAPTCHA, but machines should only have a 0.01 percent success rate [source: Chellapilla and Simard]. If a spammer managed to find a list of all CAPTCHA solutions, he or she could create an application that bombards the CAPTCHA with every possible answer in a brute-force attack. The database would need more than 10,000 possible CAPTCHAs to meet the qualifications of a good CAPTCHA. Other CAPTCHA applications create random strings of letters and numbers. You aren’t likely to ever get the same series twice. Using randomization eliminates the possibility of a brute-force attack — the odds of a bot entering the correct series of random letters are very low. The longer he string of characters, the less likely a bot will get lucky. CAPTCHAs take different approaches to distorting words. Some stretch and bend letters in weird ways, as if you’re looking at the word through melted glass. Others put the word behind a crosshatched pattern of bars to break up the shape of letters. A few use different colours or a field of dots to achieve the same effect. In the end, the goal is the same: to make it really hard for a computer to figure out what’s in the CAPTCHA. Designers can also create puzzles or problems that are easy for humans to solve. Some CAPTCHAs rely on pattern recognition and extrapolation. For example, a CAPTCHA might include series of shapes and ask the user which shape among several choices would logically come next. The problem with this approach is that not
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CAPTCHA
all humans are good with these kinds of problems and the success rate for a human user can go below 80 percent. 4.2 Implementation: Embeddable CAPTCHAs: The easiest implementation of a CAPTCHA to a Website would be to insert a few lines of CAPTCHA code into the Website’s HTML code, from an open source CAPTCHA builder, which will provide the authentication services remotely. Most such services are free. Popular among them is the service provided by captcha.net ‘s reCAPTCHA project and implimentation. Custom CAPTCHAs: These are less popular because of the extra work needed to create a secure implementation. Anyway, these are popular among researchers who verify existing CAPTCHAs and suggest alternative implementations. There are advantages in building custom CAPTCHAs: 1. A custom CAPTCHA can fit exactly into the design and theme of your site. It will not look like some alien element that does not belong there. 2. We want to take away the perception of a CAPTCHA as an annoyance, and make it convenient for the user. 3. Because a custom CAPTCHA, unlike the major CAPTCHA mechanisms, obscure you as a target for spammers. Spammers have little interest in cracking a niche implementation. 4. Because we want to learn how they work, so it is best to build one ourselves. CAPTCHA Logic:
1. The CAPTCHA image (or question) is generated. There are different ways to do this. The classic approach is to generate some random text, apply some random effects to it and convert it into an image.
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CAPTCHA 2. Step 2 is not really sequential. During step 1, the original text (prealtered) is persisted somewhere, as this is the correct answer to the question. There are different ways to persist the answer, as a serverside session variable, cookie, file, or database entry. 3. The generated CAPTCHA is presented to the user, who is prompted to answer it. 4. The back-end script checks the answer supplied by the user by comparing it with the persisted (correct) answer. If the value is empty or incorrect, we go back to step 1: a new CAPTCHA is generated. Users should never get a second shot at answering the same CAPTCHA. 5. If the answer supplied by the user is correct, the form post is successful and processing can continue. If applicable, the generated CAPTCHA image is deleted.
Now, a sample implementation is presented. This is an implementation of a
CAPTCHA that resembles PIX. This uses JungleDragon, which is a wildlife image sharing site, as its image database. A first step in designing a custom CAPTCHA is to think about your user base in order to find a way to blend a CAPTCHA check into the user experience. Users are presented an image of an animal and then have to guess what it is. When they fail, a new random image is pulled up, as well as a fresh set of answers, their order and options shifted each time. The CAPTCHA back-end is implemented into a PHP class. To map the images to the answers, an associative array is used.

Var $images = array (1=>"parrot", 2=>"panda",
3=>"lion", 4=>"dog", 5=>"cat”);
We may have more collections in the database. The method that generates the
CAPTCHA is as follows:
17
********************
CAPTCHA
Code:
1: function generate_captcha($num_answers)
2: {
3: // get random image
4: $image_num = rand(1,sizeof($this->images));
5: $image_name = $this->images[$image_num];
6:
7: // set the correct answer in the session
8: $this->CI->session->set_userdata('captcha', $image_name);
9:
10: // build up list of possible answers
11: // we'll start by including the correct answer
12: $answers = array();
13: $answers[] = $image_name;
14:
15: // next, we need to find num_answers - 1 additional options
16: $count = 0;
17: while ($count < ($num_answers-1)) {
18: $currentanswer = rand(1,sizeof($this->images));
19: if (!in_array($this->images[$currentanswer],$answers)) {
20: $answers[] = $this->images[$currentanswer];
21: $count++;
22: }
23: }
24:
25: // shuffle the array so that the first answer is not
26: // always the right answer
27: shuffle($answers);
28:
29: // build data array and return it
30: $data = array(
31: "image_num" => $image_num,
32: "image_name" => $image_name,
18
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CAPTCHA
33: "answers" => $answers
34: );
35:
36: return $data;
37: }
The relevant lines of the above code are explained below:
1. The method signature. Note how we can pass in $num_answer, to indicate how many possible answers are showed for each image. 4. Randomly select an image number based on the options in the associative array discussed earlier. 5. Get the name corresponding with the randomly selected image number from line 4 8. This is an important step. Here we are persisting the correct answer (image name) of the currently generated CAPTCHA. We need to persist this securely. In this case, using encrypted cookies, but server-side session variables, a file, or a database can also be used. 12. With the image selected and the correct answer persisted, we now need to generate a set of possible answers. We'll store them in the $answers array. 13. Are set of options always has to contain the correct answer, so we'll include that in the array 16-23. Next, we will generate the additional answers, which are all wrong. We'll keep looping until we have found the number of unique answers requested by $num_answers minus 1, since we already included one answer: the correct one. 27. We do not want the correct answer to be at the same position in the answer list, therefore we shuffle the answer list. 19
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CAPTCHA
30-36. Here we are building up an array of values that the calling code needs to work with the CAPTCHA, and then return it. There is another method check_captcha. This method checks if the answer that is passed to it corresponds to the persisted answer:
function check_captcha($answer)
Code:
{
// check if captcha is correc
return ($this->CI->session->userdata('captcha') === $answer) ? true :
false;
}
That's it. We can now start using this class. From our script that renders our front-end pages,
we call:
// generate a new captcha
$this->load->library('captcha');
$captchadata = $this->captcha->generate_captcha(5);
It is to be noted that this syntax of class loading and calling the method is specific for the
CodeIgniter PHP framework. Alternatively the classic PHP syntax can be used if this
framework is not used.
With $captchadata in our pocket, we can then assign it to our presentation ayer,
which will render it:
<?
foreach ($answers as $answer)
echo "<input type=\"radio\" name=\"captcha_answer\"
id=\"$answer\" value=\"$answer\" />\n
<label for=\"$answer\">$answer</label><br/>\n";
?>
********************
CAPTCHA
Finally, in the postback code, we will call the check_captcha to see if the user has entered the correct answer based on the field value of captcha_answer. It depends on the validation library we use, how to call it, but we need to make sure that a new CAPTCHA is generated if the answer was empty or incorrect. Also, we need to insert validation messages that inform the user whether his is solution to the CAPTCHA was correct. 4.3 Guidelines for CAPTCHA implementation: If your website needs protection from abuse, it is recommended that you use a CAPTCHA. There are many CAPTCHA implementations, some better than others. The following guidelines are strongly recommended for any CAPTCHA code: Accessibility: CAPTCHAs must be accessible. CAPTCHAs based solely on reading text — or other visual-perception tasks — prevent visually impaired users from accessing the protected resource. Such CAPTCHAs may make a site incompatible with disability access rules in most countries. Any implementation of a CAPTCHA should allow blind users to get around the barrier, for example, by permitting users to opt for an audio or sound CAPTCHA. Image Security: CAPTCHA images of text should be distorted randomly before being presented to the user. Many implementations of CAPTCHAs use undistorted text, or text with only minor distortions. These implementations are vulnerable to simple automated attacks. Script Security: Building a secure CAPTCHA code is not easy. In addition to making the images unreadable by computers, the system should ensure that there are no easy ways around it at the script level. Common examples of insecurities in this respect include: 1. Systems that pass the answer to the CAPTCHA in plain text as part of the web
form.
2. Systems where a solution to the same CAPTCHA can be used multiple times (this makes the CAPTCHA vulnerable to so-called "replay attacks"). Most CAPTCHA scripts found freely on the Web are vulnerable to these types of attacks. Security Even After Wide-Spread Adoption: There are various "CAPTCHAs" that would be insecure if a significant number of sites started using them. An example of such a
********************
CAPTCHA
puzzle is asking text-based questions, such as a mathematical question ("what is 1+1"). Since a parser could easily be written that would allow bots to bypass this test, such "CAPTCHAs" rely on the fact that few sites use them, and thus that a bot author has no incentive to program their bot to solve that challenge. True CAPTCHAs should be secure even after a significant number of websites adopt them. Should I Make My Own CAPTCHA? In general, making your own CAPTCHA script (e.g., using PHP, Perl or .Net) is a bad idea, as there are many failure modes. We recommend that you use a well-tested implementation such as reCAPTCHA. Beating spammers is not a hard science; you need to have multiple layers of defense. What you see above is in fact the most successful strategy against spammers: obscurity. Simply because we have a CUSTOM CAPTCHA, makes us less of a target. Spammers go for mass targets, as their success rate is typically extremely low. Even if we would have a single animal image with just two answers, and the answers would be in the same order each time, we would drastically reduce spam submissions. An example of this effect is the site codinghorrorblog; it has a custom CAPTCHA check that simply lets you enter the word "Orange" to post a comment. Orange. Each time. Nothing is random, and there is only one answer. Still, it has drastically reduced the spam on that blog, and it's a big blog. Obscurity works. Not for security, but against spammers. It is extremely important to have CAPTCHAs based on a variety of sensory abilities. All CAPTCHAs presented here, except for the sound based CAPTCHA, rely on the user being able to see an image. However, since there are many visually impaired people using the Web, CAPTCHAs based on sound are necessary for accessibility. Unfortunately, images and sound alone are not sufficient: there are people who use the Web that are both visually and hearing impaired. The construction of a CAPTCHA based on a text domain such as text understanding or generation is an important open problem for the project and implimentation. Chapter 5
Breaking CAPTCHAs

********************
CAPTCHA
The challenge in breaking a CAPTCHA isn't figuring out what a message says -- after all, humans should have at least an 80 percent success rate. The really hard task is teaching a computer how to process information in a way similar to how humans think. In many cases, people who break CAPTCHAs concentrate not on making computers smarter, but reducing the complexity of the problem posed by the CAPTCHA. Let's assume you've protected an online form using a CAPTCHA that displays English words. The application warps the font slightly, stretching and bending the letters in unpredictable ways. In addition, the CAPTCHA includes a randomly generated background behind the word.
A programmer wishing to break this CAPTCHA could approach the problem in phases. He or she would need to write an algorithm -- a set of instructions that directs a machine to follow a certain series of steps. In this scenario, one step might be to convert the image in grayscale. That means the application removes all the color from the image, taking away one of the levels of obfuscation the CAPTCHA employs. Next, the algorithm might tell the computer to detect patterns in the black and white image. The program compares each pattern to a normal letter, looking for matches. If the program can only match a few of the letters, it might cross reference those letters with a database of English words. Then it would plug in likely candidates into the submit field. This approach can be surprisingly effective. It might not work 100 percent of the time, but it can work often enough to be worthwhile to spammers. What about more complex CAPTCHAs? The Gimpy CAPTCHA displays 10 English words with warped fonts across an irregular background. The CAPTCHA arranges the words in pairs and the words of each pair overlap one another. Users have to type in three correct words in order to move forward. How reliable is this approach? As it turns out, with the right CAPTCHA-cracking algorithm, it's not terribly reliable. Greg Mori and Jitendra Malik published a paper detailing their approach to cracking the Gimpy version of CAPTCHA. One thing that helped them was that the Gimpy approach uses actual words rather than random strings of letters and numbers. With this in mind, Mori and Malik designed an algorithm that tried to identify words by examining the beginning and end of the string of letters. They also used the Gimpy's 500-word dictionary.
********************
CAPTCHA
Mori and Malik ran a series of tests using their algorithm. They found that their algorithm could correctly identify the words in a Gimpy CAPTCHA 33 percent of the time [source: Mori and Malik]. While that's far from perfect, it's also significant. Spammers can afford to have only one-third of their attempts succeed if they set bots to break CAPTCHAs several hundred times every minute. Another vulnerability that most CAPTCHA scripts have is again in their use of sessions; if we're on an insecure shared server, any user on that server may have access to everyone else's session files, so even if our site is totally secure, a vulnerability on any other website hosted on that machine can lead to a compromise of the session data, and hence, the CAPTCHA script. One workaround is by storing only a hash of the CAPTCHA word in the session, thus even if someone can read the session files, they can't find out what the CAPTCHA word is. 5.1 Breaking CAPTCHAs without OCR: Most CAPTCHAs don't destroy the session when the correct phrase is entered. So by reusing the session id of a known CAPTCHA image, it is possible to automate requests to a CAPTCHA-protected page. Manual steps:
Connect to CAPTCHA page Record session ID and CAPTCHA plaintext Automated steps: Resend session ID and CAPTCHA plaintext any number of times, changing the user data. The other user data can change on each request. We can then automate hundreds, if not thousands of requests, until the session expires, at which point we just repeat the manual steps and then reconnect with a new session ID and CAPTCHA text. Traditional CAPTCA-breaking software involves using image recognition routines to decode CAPTCHA images. This approach bypasses the need to do any of that, making it easy to hack CAPTCHA images. 5.2 Breaking a visual CAPTCHA:
********************
CAPTCHA
Greg Mori and Jitendra Malik of University of California at Berkeley’s Computer Vision Group evaluate image based CAPTCHAs for reliability. They test whether the CAPTCHA can withstand bots who masquerade as humans. Approach: The fundamental ideas behind our approach to solving Gimpy are the same as those we are using to solve generic object recognition problems. Our solution to the Gimpy CAPTCHA is just an application of a general framework that we have used to compare images of everyday objects and even find and track people in video sequences. The essences of these problems are similar. Finding the letters "T", "A", "M", "E" in an image and connecting them to read the word "TAME" is akin to finding hands, feet, elbows, and faces and connecting them up to find a human. Real images of people and objects contain large amounts of clutter. Learning to deal with the adversarial clutter present in Gimpy has helped us in understanding generic object recognition problems. Breaking an EZ-Gimpy CAPTCHA: Our algorithm for breaking EZ-Gimpy consists of 3 main steps:

1. Locate possible (candidate) letters at various locations: The first step is to hypothesize a set of candidate letters in the image. This is done using our shape matching techniques.The method essentially looks at a bunch of points in the image at random, and compares these points to points on each of the 26 letters. The comparison is done in a way that is very robust to background clutter and deformation of the letters. The process usually results in 3-5 candidate letters per actual letter in the image. In the example shown in Fig 5.1, the "p" of profit matches well to both an "o" or a "p", the border between the "p" and the "r" look a bit like a "u", and so forth. At this stage we keep many candidates, to be sure we don't miss anything for later steps.
********************
CAPTCHA
2. Construct graph of consistent letters: Next, we analyze pairs of letters to see whether or not they are "consistent", or can be used consecutively to form a word.
3. Look for plausible words in the graph: There are many possible paths through the graph of letters constructed in the previous step. However, most of them do not form real words. We select out the real words in the graph, and assign scores to them based on how well their individual letters match the image. Similar algorithms are also devised by Mori and Malik to evaluate other image based CAPTCHAs like Gimpy, etc.
5.3 Breaking an audio CAPTCHA:
Recent research is suggesting that Google's audio capture is the latest in a string of CAPTCHA's to have been defeated by software. t has been theorized that one cost-effective means of breaking audio captures and image captures that have not yet had automated systems developed is to use a mechanical turk and pay low rates for per-CAPTCHA reading by humans, or provide another form of motivation such as access to popular sites for reading the CAPTCHA. However, it always required a significant level of resources to achieve. The development of software to automatically interpret CAPTCHAs brings up a number of problems for site operators. The problem, as discovered by Wintercore Labs and published at the start of March is that there are repeatable patterns evident in the audio file and by applying a set of complex but straight forward processes, a library can be built of the basic signal for each possible character that can appear in the CAPTCHA. Wintercore point to other audio CAPTCHAs that could be easily reversed using this technique, including the one for Facebook. The wider impact of this work might take some time to appear, but it provides an interesting proof of breaking audio CAPTCHAs. At the least, it shows that both of Google's CAPTCHA tools have now been defeated by software and it should only be a matter of time until the same can be said for Microsoft and Yahoo!'s offerings. Even with an effectiveness of only 90%, any failed CAPTCHA can easily be reloaded for a second try.
********************
CAPTCHA
5.4 Social Engineering used to break CAPTCHAs:
Spammers often use social engineering to outwit gullible Web users to serve their purpose. Security firm, Trend Micro warns of a Trojan called TROJ_CAPTCHAR, which masquerades as a strip tease game. At each stage of the game, the user is asked to solve a CAPTCHA. The result is relayed to a remote server where a malicious user is waiting for them. The strip-tease game is a ploy by spammers to identify and match solutions for ambiguous CAPTCHAs from legitimate sites, using the unsuspecting user as the decoder of the said images. 5.5 CAPTCHA cracking as a business: No CAPTCHA can survive a human that’s receiving financial incentives for solving it. CAPTCHA are cracked by firms posing as Data Processing firms. They usually charge $2 for 1000 CAPTCHAs successfully solved. They advertise their business as “Using the advertisement in blogs, social networks, etc significantly increases the efficiency of the business. Many services use pictures called CAPTCHAs in order to prevent automated use of these services. Solve CAPTCHAs with the help of this portal; increase your business efficiency now!” Such firms help spammers in beating the first line of defence for a Website, i.e., CAPTCHAs.
********************
CAPTCHA
Chapter 6
Issues with CAPTCHAs
There are many issues with CAPTCHAs, primarily because they distort text and images in such a way that, sometimes it gets difficult for even humans to read. Even the simplest, but effective CAPTCHA, like a mathematical equation “What is the sum of three and five?” can be a pain for cognitively disabled people. 6.1 Usability issues with text based CAPTCHAs: Are text CAPTCHAs like Gimpy, user–friendly? Sometimes the text is distorted to such an extent, that even humans have difficulty in understanding it. Some of the issues are listed in table 6.1 Table 6.1 Usability issues in text based CAPTCHAs Distortion becomes a problem when it is done in a very haphazard way. Some characters like ‘d’ can be confused for ‘cl’ or ‘m’ with ‘rn’. It should also be easily understandable to those who are unfamiliar with the language.
********************
CAPTCHA
Content is an issue when the string length becomes too long or when the string is not a dictionary word. Care should be taken not to include offensive words. Presentation should be in such a way as to not confuse the users. The font and colour chosen should be user friendly.
6.2 Usability of audio CAPTCHAs:
In audio CAPTCHAs, letters are read aloud instead of being displayed in an image. Typically, noises are deliberately added to prevent such audio schemes from being broken by current speech recognition technologies. Distortion: Background noises effectively distort sounds in audio CAPTCHAs. There is no rigorous study of what kind of background noises will introduce acceptable sound distortion. However, it is clear that distortion methods and levels, just as in text based CAPTCHAs, can have a significant impact on the usability of audio CAPTCHAs. For example, an early test in 2003 showed that the distorted sound in an audio CAPTCHA that was deployed at Microsoft’s Hotmail service was unintelligible to all (four) journalists, with good hearing, that were tested. Due to sound distortion, confusing characters can also occur in audio CAPTCHAs. For example, we observed that it is hard to tell apart ‘p’ and ‘b’; ‘g’ and ‘j’, and ‘a’ and ‘8’. Whether a scheme is friendly to non-native speakers is another usability concern for audio CAPTCHAs. Content: Content materials used in audio CAPTCHAs are typically language specific. Digits and letters read in a language are often not understandable to people who do not speak the language. Therefore, unlike text-based schemes, localisation is a major issue that audio

CAPTCHAs face.
Presentation: The use of colour is not an issue for audio CAPTCHAs, but the integration with web pages is still a concern. For example, there is no standard graphical symbol for representing an audio CAPTCHA on a web page, although many schemes such as Microsoft and reCAPTCHA use a speaker symbol. More importantly, what really matters for visually impaired users is that the html image alternative text attached to any of the above symbol should clearly indicate the need to solve an audio CAPTCHA.
********************
CAPTCHA
When embedded in web pages, audio CAPTCHAs can also cause compatibility issues. For example, many such schemes require JavaScript to be enabled. However, some users might prefer to disable JavaScript in their browsers. Some other schemes can be even worse. For example, we found that one audio scheme requires Adobe Flash support. With this scheme, vision-impaired users will not even notice that such a CAPTCHA challenge exist in the page, unless Flash is installed in their computers - apparently, no text alternative is attached to the speaker-like Flash object, either.

********************




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23-02-2011, 03:32 PM


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1.1 Overview:
You're trying to sign up for a free email service offered by Gmail or Yahoo. Before you can submit your application, you first have to pass a test. It's not a hard test -- in fact, that's the point. For you, the test should be simple and straightforward. But for a computer, the test should be almost impossible to solve.
This sort of test is a CAPTCHA. They're also known as a type of Human Interaction Proof (HIP). You've probably seen CAPTCHA tests on lots of Web sites. The most common form of CAPTCHA is an image of several distorted letters. It's your job to type the correct series of letters into a form. If your letters match the ones in the distorted image, you pass the test.
CAPTCHAs are short for Completely Automated Public Turing test to tell Computers and Humans Apart. The term "CAPTCHA" was coined in 2000 by Luis Von Ahn, Manuel Blum, Nicholas J. Hopper (all of Carnegie Mellon University, and John Langford (then of IBM). They are challenge-response tests to ensure that the users are indeed human. The purpose of a CAPTCHA is to block form submissions from spam bots – automated scripts that harvest email addresses from publicly available web forms. A common kind of CAPTCHA used on most websites requires the users to enter the string of characters that appear in a distorted form on the screen.
CAPTCHAs are used because of the fact that it is difficult for the computers to extract the text from such a distorted image, whereas it is relatively easy for a human to understand the text hidden behind the distortions. Therefore, the correct response to a CAPTCHA challenge is assumed to come from a human and the user is permitted into the website.
Why would anyone need to create a test that can tell humans and computers apart? It's because of people trying to game the system -- they want to exploit weaknesses in the computers running the site. While these individuals probably make up a minority of all the people on the Internet, their actions can affect millions of users and Web sites. For example, a free e-mail service might find itself bombarded by account requests from an automated program. That automated program could be part of a larger attempt to send out spam mail to millions of people. The CAPTCHA test helps identify which users are real human beings and which ones are computer programs.
Spammers are constantly trying to build algorithms that read the distorted text correctly. So strong CAPTCHAs have to be designed and built so that the efforts of the spammers are thwarted.
1.2 Motivation:
The proliferation of the publicly available services on the Web is a boon for the community at large. But unfortunately it has invited new and novel abuses. Programs (bots and spiders) are being created to steal services and to conduct fraudulent transactions. Some examples:
• Free online accounts are being registered automatically many times and are being used to distribute stolen or copyrighted material.
• Recommendation systems are vulnerable to artificial inflation or deflation of rankings. For example, EBay, a famous auction website allows users to rate a product. Abusers can easily create bots that could increase or decrease the rating of a specific product, possibly changing people’s perception towards the product.
• Spammers register themselves with free email accounts such as those provided by Gmail or Hotmail and use their bots to send unsolicited mails to other users of that email service.
• Online polls are attacked by bots and are susceptible to ballot stuffing. This gives unfair mileage to those that benefit from it.
In light of the above listed abuses and much more, a need was felt for a facility that checks users and allows access to services to only human users. It was in this direction that such a tool like CAPTCHA was created.
1.3 Background:
The need for CAPTCHAs rose to keep out the website/search engine abuse by bots. In 1997, AltaVista sought ways to block and discourage the automatic submissions of URLs into their search engines. Andrei Broder, Chief Scientist of AltaVista, and his colleagues developed a filter. Their method was to generate a printed text randomly that only humans could read and not machine readers. Their approach was so effective that in an year, “spam-add-ons’” were reduced by 95% and a patent was issued in 2001.
In 2000, Yahoo’s popular Messenger chat service was hit by bots which pointed advertising links to annoying human users of chat rooms. Yahoo, along with Carnegie Mellon University, developed a CAPTCHA called EZ-GIMPY, which chose a dictionary word randomly and distorted it with a wide variety of image occlusions and asked the user to input the distorted word.
In November 1999, slashdot.com released a poll to vote for the best CS college in the US. Students from the Carnegie Mellon University and the Massachusetts Institute of Technology created bots that repeatedly voted for their respective colleges. This incident created the urge to use CAPTCHAs for such online polls to ensure that only human users are able to take part in the polls.
1.4 CAPTCHAs and the Turing Test:
CAPTCHA technology has its foundation in an experiment called the Turing Test. Alan Turing, sometimes called the father of modern computing, proposed the test as a way to examine whether or not machines can think -- or appear to think -- like humans. The classic test is a game of imitation. In this game, an interrogator asks two participants a series of questions. One of the participants is a machine and the other is a human. The interrogator can't see or hear the participants and has no way of knowing which is which. If the interrogator is unable to figure out which participant is a machine based on the responses, the machine passes the Turing Test.
Of course, with a CAPTCHA, the goal is to create a test that humans can pass easily but machines can't. It's also important that the CAPTCHA application is able to present different CAPTCHAs to different users. If a visual CAPTCHA presented a static image that was the same for every user, it wouldn't take long before a spammer spotted the form, deciphered the letters, and programmed an application to type in the correct answer automatically.
Most, but not all, CAPTCHAs rely on a visual test. Computers lack the sophistication that human beings have when it comes to processing visual data. We can look at an image and pick out patterns more easily than a computer. The human mind sometimes perceives patterns even when none exist, a quirk we call pareidolia. Ever see a shape in the clouds or a face on the moon? That's your brain trying to associate random information into patterns and shapes.
But not all CAPTCHAs rely on visual patterns. In fact, it's important to have an alternative to a visual CAPTCHA. Otherwise, the Web site administrator runs the risk of disenfranchising any Web user who has a visual impairment. One alternative to a visual test is an audible one. An audio CAPTCHA usually presents the user with a series of spoken letters or numbers. It's not unusual for the program to distort the speaker's voice, and it's also common for the program to include background noise in the recording. This helps thwart voice recognition programs.
Another option is to create a CAPTCHA that asks the reader to interpret a short passage of text. A contextual CAPTCHA quizzes the reader and tests comprehension skills. While computer programs can pick out key words in text passages, they aren't very good at understanding what those words actually mean.
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12-03-2011, 09:52 PM

CAN U SEND ME FULL REPORT PLZ URGENT,MAIL ID IS madhucse.snm@gmail.com
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Breaking a Visual CAPTCHA
Research project and implimentations:
– QoS in wireless home networks
– Binaural computational source separation
– MiniWatt: estimating EM radiation
– Binary coding of XML metadata (for DVB)
– Visual authentication of digital documents
• People
– Chair, technical and administrative assistants,
five researchers, ten students
SWS, 8 credit points ⇒ 200–215 hours work
• Overall organization:
– Introductory Lecture (today)
• Demonstrate the „big“ image & show how the various components are linked
• Give a summary of potential topics to choose from
– Knowledge gathering and planning phase (the next three weeks)
• Reading and understanding the literature
• Defining the system blocks and their interfaces
• Writing a short summary of a topic
– Implementation phase (Matlab, until 23.01.2007)
• Writing the interfaces, ensuring the blocks properly communicate
• Writing the block’s implementation, documenting the code
• Testing and debugging
– Presentation phase (12.12.2006-07.02.2006)
• Write summary and prepare presentation (until 30.01.2007)
• Present the work (block seminar and presentation 06.–07.02.2007
• Language:
– English preferred (required for program documentation and slides) Knowledge Transfer
– Obtain understanding of the purpose and meaning of visual CAPTCHAs
– Get an extensive summary about attacks on visual CAPTCHAs
– Get in-depth knowledge of one pipeline step
– Prepare for further works on the subject
• Diploma / Master-Theses, Student Assistant for Research
• Experience the developer’s toolbox
– Project planning
• Read and understand literature on breaking visual CAPTCHAs
• Coordinate and cooperate with other students
– Implementation
• Develop a block in the CAPTCHA-breaking software pipeline
• Document the software
– Presentation
• Squeeze highly technical details into an easy-to-understand summary
• Demonstrate and explain the block


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04-04-2011, 10:21 AM

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.ppt   CAPTCHA.ppt (Size: 1.1 MB / Downloads: 68)
Introduction
CAPTCHAà Completely Automated Public Turing test to tell Computers and Humans Apart
Invented at CMU by Luis von Ahn, Manuel Blum, et. al
A program that is a challenge – response test to separate humans from computer programs
Generic CAPTCHAs distort letters and numbers
Distorted characters are presented to user
User has to recognize the distorted letters
If the guessed letters are correct, the user is inferred to be a human and allowed access
Else, user is a bot and denied access
Humans can read the distorted and noisy text
Current OCRs cannot read them
Background
Why CAPTCHA was needed?
Sabotage of online polls
Spam emails
Abusing free online accounts
Tampering with rankings on recommendation systems (like EBay, Amazon)
Altavista first used a crude CAPTCHA in their sites
Resulted in 95% spam reduction
Yahoo partnered CMU to counter these threats in Messenger chat service.
Luis von Ahn and Manuel Blum of CMU trademarked CAPTCHA in 2000
What is a Turing test?
Proposed by Alan Turing
To test a machine’s level of intelligence
Human judge asks questions to two participants, one is a machine, he doesn’t know which is which
If judge can’t tell which is the machine, the machine passes the test
CAPTCHA employs a reverse Turing test,
judge = CAPTCHA program,
participant = user
if user passes CAPTCHA, he is human
if user fails, it is a machine
Types of CAPTCHAs
Text based:
Simple, normal language questions:
What is sum of three and thirty-five?
If today is Saturday, what is day after tomorrow?
Which of mango, table, water is a fruit?
Very effective, needs a large question bank
Cognitively challenged users find it hard
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seminar girl
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Posts: 519
Joined: Aug 2012
#11
14-08-2012, 04:43 PM

CAPTCHA



.ppt   captcha.ppt (Size: 1.71 MB / Downloads: 27)

What is captcha?

Completely Automated Public Turing test to tell Computers and Humans Apart.
“CAPTCHA is a technique used by a computer to tell if it is interacting with a human or another computer.”
Or
“CAPTCHAS are basically software programs which act as a test to any user over internet that the person (user) is a human or another machine. This concept is used by all the big companies over internet Google, yahoo or facebook.”


CAPTCHA-literal Meaning


Completely->entire
Automated->the automatic operation or control of process or system or equipment
Public->belonging to the people or all code and data used by a CAPTCHA should be publically available.
Turing test->to determine whether or not a computer can be said to think like a human brain. 
Computer-> one who computes.
Human->belonging to the mankind or man.
Apart-> Separately



What is Turing test?


Proposed by Alan Turing.
To examine whether or not machines can think -- or appear to think -- like humans.
In this game, an interrogator asks two participants a series of questions. One of the participants is a machine and the other is a human.


CAPTCHA logic


Generate the question.
Persist the correct answer.
Present the question to the user.
Evaluate the answer, if incorrect start again- Generate a different CAPTCHA.
If correct allow the access to the user.






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Shantheri
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#12
15-08-2012, 11:16 AM

I need a detailed description on CAPTCHA. Please help.
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seminar girl
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#13
16-08-2012, 11:02 AM

to get information about the topic "CAPTCHA: Using Hard AI Problems For Security" full report ppt and related topic refer the link bellow

topicideashow-to-captcha-using-hard-ai-problems-for-security-full-report

topicideashow-to-captcha-using-hard-ai-problems-for-security-full-report?pid=104618

topicideashow-to-captcha-using-hard-ai-problems-for-security-full-report?pid=37758&mode=threaded
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seminar tips
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Posts: 8,857
Joined: Oct 2012
#14
19-01-2013, 10:06 AM

to get information about the topic "captcha" full report ppt and related topic refer the link bellow


topicideashow-to-captcha-using-hard-ai-problems-for-security-full-report

topicideashow-to-c-a-p-t-c-h-a-completely-automated-public-turing-test-to-tell-computers-and-humans-ap

topicideashow-to-captcha-security-for-phishing

topicideashow-to-captcha-ppt
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