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Simple techniques for plagiarism detection in student programming projects

Simple techniques for plagiarism detection in student programming projects. Szymon Grabowski, Wojciech Bieniecki Computer Engineering Dept., Tech. Univ. of Łódź, Poland {SGrabow, WBieniec}@kis.p.lodz.pl. We plagiarized it. Sieci i Systemy Informatyczne, Łódź, październik 2006.

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Simple techniques for plagiarism detection in student programming projects

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  1. Simple techniques for plagiarism detection in student programming projects Szymon Grabowski, Wojciech BienieckiComputer Engineering Dept., Tech. Univ. of Łódź, Poland{SGrabow, WBieniec}@kis.p.lodz.pl We plagiarized it... Sieci i Systemy Informatyczne, Łódź, październik 2006

  2. What is plagiarism? http://library.kcc.hawaii.edu/main/images/plagiarism_cartoon.gif Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  3. Plagiarism everywhere • text (articles, scientific papers (also self-plagiarisms), essays...or just plot ideas in fiction books) • music (melodies, “sampling”) • images (copy/paste e.g. from web pages) • Our interest: text plagiarism. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  4. Text plagiarism • stealing natural language (NL) texts • stealing software code Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  5. Previous work (1/3) Faidhi & Robinson (1987):six levels of program modification in a plagiarism attempt: (i) changing comments, (ii) changing identifier names, (iii) reordering variable positions, (iv) procedure combination, (v) changing program statements, (vi) changing control logic. Changes in the program control logic are most laborious (and vulnerable to hard-to-detect errors) but alsohardest to properly identify as plagiarism. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  6. Previous work (2/3) Irving (2004):finding local similaritywith a variant of the Smith-Waterman classic algorithm (1982). Aim: taking care of both precision/recall and speed. Pretchelt et al. (2000):JPlag online system.Basic technique: finda set of indentical substringsof strings A and B,adhering to a few simple rules. Quite robust to reordering parts of the text. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  7. Previous work (3/3) Many algorithms based on various code complexity measures (like e.g.the number of execution paths through a program).(See [Clough, 2000] for details.) Mozgovoy et al. (2005):Suffix array based alg.to decrease the computation complexity ofall-against-all file comparison. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  8. Our motivation Some say that laziness is a professional feature... Therefore we wanted to keep things simple(as opposed to many algs from the literature). Our task: find plagiarisms in student homeworks.Namely, in Java projects. Small projects: not more than a few hundred lines expected. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  9. Our approach We conjecture that the relative order and frequencyofthe keywords of a given language is quite a good indicator if two documents were created independently or not. Because it is not easy to find synonymous constructswithout some understanding of the code. Why keywords? Maybe operators instead? Rather not. Examples (in C and similar lang.): x = y / 2;  x = y * 0.5;x-=2;  x--, x--; Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  10. Java keywords http://java.sun.com/docs/books/tutorial/java/nutsandbolts/_keywords.html Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  11. Three variants Extracting keywords, that’s easy. What then?What similarity measure? We propose 3 variants: • based on the context-free counts of the keywords, i.e., order-0 statistics; • based on the similarity of the statistics of pairs of successive keywords in the source files, i.e., order-1 rather than order-0 statistics; • based on the similarity between the whole sequences of used keywords, in the order of their appearances, with aid of the LCS (longest common subsequence) measure. In all variants we measure pair-wise file similarity. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  12. 2. We calculate the total number of keywords C. 3. We calculate the number of keyword repetitions R: Algorithm I (order-0 statistics) 1. For both files we create a dictionary (Dict1 and Dict2, respectively) of occurring keywords with the number of occurrences(a histogram). 4. We evaluate the similarity S = R / C. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  13. 4. Evaluate the similarity measure S: Algorithm II (order-1 statistics) 1. For both files create a sequence of keywords (List1 and List2). 2. For each element i of List1 (except from the last one) take its successor List1(i+1) and add the pair to the list lp1. Delete the repeated records from lp1. 3. Analogously forlp2. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  14. Longest Common Subsequence (LCS) Given strings A, B, |A| = n, |B| = m, find the longest subsequence shared by both strings. Sometimes we are interested in a simpler problem:finding only the length of the LCS (LLCS), not the matching sequence. LCS example A = m a t t e rB = b r o t h e r s LLCS(A, B) = 3. LCS(A, B) = t e r Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  15. 2. Use the formula for similarity measure S: Algorithm IIILCS on strings where the “characters”are keywords 1. Denote the sequence of keywords in file1 and file2with Word1, Word2, respectively. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  16. Implementation / test setup All codes in Python 2.4(perfect language for reluctant coders). Test machine: Pentium4 3 GHz, 512 MB of RAM, Windows XP SP2. Input files: 15 student Java projects (single source files) solving the same task: displaying time on an analog clock, using a client-server technology (a server provides the system time, and many clients can be connected to the server). Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  17. Test files Files that in fact are plagiarisms are in the positions: 5→1, 8→15, 7→10 and7→13. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  18. Alg I (order-0 stats), similarity measure ...But the 4th thief was not detected.  Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  19. Alg II (order-1 stats), similarity measure Not perfectbut not bad either... Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  20. Alg III (LCS), similarity measure Allfour thieves at the top!  Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  21. Conclusions All the presented algorithms seem to indicate the plagiarized codes properly. But in practice it is impossible to set thethreshold similarityvalue for each algorithm above which the files are plagiarisms. In Algorithm I the values of similarity vary from 0.75 to 1 and all below 0.98 don’t indicate a plagiarism. This algorithm is the most resistant to changing the order of instructions and functions. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  22. Conclusions, cont’d Algorithm II is pretty resistant to changing the order of functions and blocks of instructions. The range of obtained similarity measure values is much wider comparing to the first case. Algorithm III, based on the LCS measure, is vulnerable to changing the order of functions and instructions in the file. In the inspected case, however, students stealing the code did not bother to mix the functions so the results are comparable to Algorithm II. All presented algorithms should work properly if a stolen homework is only a part of the original code. Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

  23. Future plans Making it more robust to function reordering(even Algorithm II). Idea: convert a source file to a cannonical form,sorting functions according to their signatures. Use not only keywords but standard library function names too? More experiments (also for sources in C++, PHP...). Handling multi-file projects. Several independent similarity measures and the detection based on training? Sz. Grabowski & W. Bieniecki, Simple techniques for plagiarism detection...

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