Plagiarism Detection as a Problem of Machine Learning

1. Academician Yuri I. Zhuravlev Correspondent member of RAS Konstantin V. Rudakov Gleb V. Nikitov Computing Center of Russian Academy of Sciences Forecsys Corporation Plagiarism Detection as a Problem of Machine Learning

2. About the problem Detect citing in students’ papers Do it quickly and conveniently Do it qualitatively and with substantiation

3. Decisions • Turnitin • Mydropbox • www.antiplagiat.ru

4. `Working scheme Paper Collection of documents Instructor Antiplagiat

5. Searching domain Internet

6. Already using Higher School of Economics Moscow Institute of Economics, Management and Law Moscow Pedagogical State University Moscow Municipal Psychological and Pedagogical Institute Nizhni Novgorod State University Academy of Budget and Treasury of the Russian Ministry of Finance

7. Non-educational use • Higher Certifying Commission • Russian State Library (ex-named after Lenin)

8. Negotiations Moscow State University Moscow Physical and Technical Institute Russian Academy of Justice International Academy of Enterprise

9. Quality and Performance Leading positions in operating speed not affecting quality of the results 70 thousands of registered users Generating about 20 thousands originality reports every day Continual improvement of searching algorithms and expanding functionality

10. Plagiarism, what is it?

11. Formulation of problem • Permissible objects: • Descriptive functions: • Fixed set of functions:

12. Formulation of problem • The problem: • Initial information: • Final information:

13. Formulation of problem • Precedent information: • Precedent conditions:

14. Formulation of problem • Transitive and reflective relation : • Example:

15. Formulation of problem • Additional conditions:

16. Criteria • Solvability criteria For existence of the correct algorithm A it is necessary and sufficient that the following conditions are met:

17. Criteria • Regularity: Definition (according to Zhuravlev). The problem Z is regular if all the problems with arbitrary final information are simultaneously solvable • Regularity criteria: For a problem to be regular it is necessary and sufficient that the following conditions are met:

18. Criteria • Monotonous solvability criteria: For monotonous solvability of the problem it is necessary and sufficient that the conditions of solvability criteria are met and are also met the following conditions:

19. Criteria • Monotonous regularity criteria: For monotonous solvability of the problem it is necessary and sufficient that are met the following conditions:

20. Criteria • Supercompleteness: The family of algorithms M is called supercomplete in the described class of problems if for each problem Z from the set of solvable problems there exist in M at least one correct algorithm.

21. Criteria • Completeness: The family of algorithms M is called complete in the described class of problems if for each problem Z from the set of regular problems there exist in M at least one correct algorithm.

22. Criteria • Supercompleteness criteria: For the family of algorithmic operators to be supercomplete it is necessary and sufficient that the following conditions are met:

23. Criteria • Completeness criteria: For the family of algorithmic operators to be complete it is necessary and sufficient that the following conditions are met: