1 |
“further critical comments on pascal, particularly as a systems programming language” |
Conradi, R. |
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2 |
(not) yet another metamodel for traceability |
Batot, E.R., Cabot, J., Gerard, S. |
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3 |
[journal first] a comparison of program comprehension strategies by blind and sighted programmers |
A. Armaly; P. Rodeghero; C. McMillan |
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IEEE |
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4 |
[journal first] does syntax highlighting help programming novices |
C. Hannebauer; M. Hesenius; V. Gruhn |
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IEEE |
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✔️ |
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5 |
#ifdef directives and program comprehension the dilemma between correctness and preference |
W. Fenske; J. Krüger; M. Kanyshkova; S. Schulze |
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IEEE |
SCOPUS |
✔️ |
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6 |
10th international workshop on program comprehension |
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IEEE |
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7 |
10th international workshop on program comprehension 2729 june, 2002, paris, france proceedings |
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ACM |
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8 |
14th ieee international conference on program comprehension copyright |
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IEEE |
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9 |
14th ieee international conference on program comprehension cover |
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IEEE |
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10 |
14th ieee international conference on program comprehension table of contents |
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IEEE |
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11 |
14th ieee international conference on program comprehension title page |
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IEEE |
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12 |
15 years of program comprehension |
Scott Tilley |
ACM |
IEEE |
SCOPUS |
✔️ |
❌ |
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13 |
15th ieee international conference on program comprehension copyright |
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IEEE |
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14 |
15th ieee international conference on program comprehension cover |
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IEEE |
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15 |
15th ieee international conference on program comprehension icpc 2007 |
K. Wong |
ACM |
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16 |
15th ieee international conference on program comprehension table of contents |
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IEEE |
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17 |
15th ieee international conference on program comprehension title |
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IEEE |
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18 |
16th ieee international conference on program comprehension [cover art] |
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IEEE |
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19 |
18th ieee international conference on program comprehension [cover art] |
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IEEE |
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20 |
2^kary cyclic an codes for burst error correction |
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ACM |
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21 |
3d visualisation of code structures in java software systems |
Fronk, A., Bruckhoff, A., Kern, M. |
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SCOPUS |
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22 |
3d visualization for software development |
David Bonyuet, Matt Ma, Kamal Jaffrey |
ACM |
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23 |
3d visualization of program structure and data dependence for parallelizing compilers and parallel programming |
Mariko Sasakura, Satoko Kiwada, Kazuki Joe, Tsuneo Nakanishi, Keijiro Araki |
ACM |
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SCOPUS |
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24 |
3d visualization techniques to support slicingbased program comprehension |
Juergen Rilling, S. P. Mudur |
ACM |
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SCOPUS |
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❌ |
❌ |
25 |
4th workshop on graphical documentation uml style guidelines |
Steve Murphy, Scott Tilley, Shihong Huang |
ACM |
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26 |
6th international workshop on program comprehension iwpc 98 proceedings, june 2426, 1998, ischia, italy |
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ACM |
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27 |
a 3d metaphor for software production visualization |
Panas, T., Berrigan, R., Grundy, J. |
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SCOPUS |
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28 |
a bottomup approach for visualizing program behavior |
H. Koike, M. Aida |
ACM |
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29 |
a bottomup approach to understand functional programs |
Gustavo Villavicencio |
ACM |
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SCOPUS |
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30 |
a brief discussion on the build of program architecture in robocup 3d simulation environment |
Miao, K., Zou, L., Miao, X. |
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SCOPUS |
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31 |
a brief summary of cognitive patterns for program comprehension |
Adam Murray, Timothy C. Lethbridge |
ACM |
IEEE |
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32 |
a business process explorer |
J. Guo; K. Foo; L. Barbour; Y. Zou |
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IEEE |
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33 |
a business process explorer recovering and visualizing ecommerce business processes |
Jin Guo, King Chun Foo, Liliane Barbour, Ying Zou |
ACM |
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SCOPUS |
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34 |
a cai approach to a user oriented interactive plotting systemsurips (southerns user interactive plotting system) |
Dearmond, T.G. |
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SCOPUS |
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❌ |
35 |
a case against the goto |
Wulf, W.A. |
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SCOPUS |
✔️ |
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36 |
a case for concept programs |
Schauer, R., Keller, R.K. |
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SCOPUS |
✔️ |
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37 |
a case study implementing features using aspectj |
Kästner, C., Apel, S., Batory, D. |
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SCOPUS |
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38 |
a case study in evaluating the usefulness of the runtime structure during coding tasks |
Abi-Antoun, M., Ammar, N. |
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SCOPUS |
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39 |
a case study of applying an eclectic approach to identify objects in code |
G. Canfora, A. Cimitile, A. de Lucia, G. A. Di Lucca |
ACM |
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40 |
a case study of domainbased program understanding |
Richard Clayton, Spencer Rugaber, Lyman Taylor, Linda Wills |
ACM |
IEEE |
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❌ |
41 |
a case study of program comprehension effort and technical debt estimations |
V. Singh; L. L. Pollock; W. Snipes; N. A. Kraft |
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IEEE |
SCOPUS |
✔️ |
❌ |
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42 |
a casebased reasoning method for processing model recognition and reuse in program comprehension |
J. Qian; H. Chen; Y. Ding; F. Qi |
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IEEE |
SCOPUS |
❌ |
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43 |
a categorization of classes based on the visualization of their internal structure the class blueprint |
Lanza, M., Ducasse, S. |
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SCOPUS |
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44 |
a characterization methodology for parallel systems benchmarks |
Cremonesi, P., Muttoni, L., Serazzi, G. |
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SCOPUS |
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45 |
a clichebased environment to support architectural reverse engineering |
Roberto Fiutem, Paolo Tonella, Giuliano Antoniol, Ettore Merlo |
ACM |
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46 |
a coding scheme to support systematic analysis of software comprehension |
Anneliese von Mayrhauser, Stephen Lang |
ACM |
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SCOPUS |
✔️ |
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47 |
a coding theoretical approach to predict sequence changes in h5n1 influenza a virus hemagglutinin |
Keiko Sato, Toshihide Hara, Masanori Ohya |
ACM |
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48 |
a cognitive approach to program understanding |
K. Bertels; P. Vanneste; C. De Backer |
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IEEE |
SCOPUS |
✔️ |
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49 |
a cognitive model for program comprehension |
Shaochun Xu |
ACM |
IEEE |
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✔️ |
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50 |
a collaborative demonstration of reverse engineering tools |
Margaret-Anne D. Storey, Susan Elliott Sim, Kenny Wong |
ACM |
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51 |
a comment analysis approach for program comprehension |
Jose Luis Freitas, Daniela da Cruz, Pedro Rangel Henriques |
ACM |
IEEE |
SCOPUS |
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52 |
a commenting system to improve program readability |
Michele Fletcher, Bobby Morrison, Robert Riser |
ACM |
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53 |
a comparative study of free selfexplanations and socratic tutoring explanations for source code comprehension |
Lasang Jimba Tamang, Zeyad Alshaikh, Nisrine Ait Khayi, Priti Oli, Vasile Rus |
ACM |
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SCOPUS |
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❌ |
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54 |
a comparison of different types of learning activities in a mobile python tutor |
Fabic, G.V.F., Mitrovic, A., Neshatian, K. |
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SCOPUS |
❌ |
❌ |
❌ |
55 |
a comparison of multilevel break and next statements |
Baker, B.S., Kosaraju, S.R. |
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SCOPUS |
✔️ |
❌ |
❌ |
56 |
a comparison of program comprehension by procedural and objectoriented programmers |
Cynthia L. Corritore, Susan Wiedenbeck |
ACM |
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❌ |
❌ |
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57 |
a comparison of program comprehension strategies by blind and sighted programmers |
Ameer Armaly, Paige Rodeghero, Collin McMillan |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
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58 |
a comparison of program readability of c++ and c |
|
ACM |
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59 |
a comparison of some structural testing strategies |
Ntafos, S.C. |
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SCOPUS |
❌ |
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❌ |
60 |
a comprehensive model for code readability |
Simone Scalabrino, Mario Linares‐Vásquez, Rocco Oliveto, Denys Poshyvanyk |
ACM |
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SCOPUS |
✔️ |
❌ |
❌ |
61 |
a comprehensive review on software comprehension models |
Fekete, A., Porkoláb, Z. |
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SCOPUS |
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❌ |
❌ |
62 |
a conceptual framework for application comprehension |
Venkat N. Gudivada, Jagadeesh Nandigam, Jay Bhuyan |
ACM |
IEEE |
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✔️ |
❌ |
❌ |
63 |
a concern visualization approach for improving matlab and octave program comprehension |
Ivan De M. Lessa, Glauco De F. Carneiro, Miguel P. Monteiro, Fernando Brito e. Abreu |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
64 |
a connotational theory of program structure |
James S. Royer |
ACM |
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❌ |
❌ |
65 |
a connotational theory of program structure (numberings, recursion, computation) |
James Samuel Royer |
ACM |
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66 |
a contextdriven software comprehension process model |
Wen Jun Meng, Juergen Rilling, Yonggang Zhang, Rene Witte, Sudhir Mudur, Philippe Charland |
ACM |
IEEE |
SCOPUS |
✔️ |
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❌ |
67 |
a contribution to program comprehension by program analysis application to numerical programs |
Y. Ait-Ameur |
ACM |
IEEE |
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❌ |
❌ |
❌ |
68 |
a controlled experiment for program comprehension through trace visualization |
Bas Cornelissen, Andy Zaidman, Arie van Deursen |
ACM |
IEEE |
SCOPUS |
✔️ |
❌ |
❌ |
69 |
a controlled experiment in assessing and estimating software maintenance tasks |
Nguyen, V., Boehm, B., Danphitsanuphan, P. |
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SCOPUS |
❌ |
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❌ |
70 |
a controlled experiment template for evaluating the understandability of model transformation languages |
Kramer, M.E., Hinkel, G., Klare, H., Langhammer, M., Burger, E. |
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SCOPUS |
❌ |
❌ |
❌ |
71 |
a cooperative program understanding environment |
Alex Quilici, David N. Chin |
ACM |
IEEE |
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❌ |
❌ |
❌ |
72 |
a data mining approach for detecting higherlevel clones in software |
Basit, H.A., Jarzabek, S. |
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SCOPUS |
❌ |
❌ |
❌ |
73 |
a data set of program invariants and error paths |
Dirk Beyer |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
74 |
a debugging scheme for declarative equation based modeling languages |
Bunus, P., Fritzson, P. |
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SCOPUS |
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❌ |
❌ |
75 |
a decision tree approach for design patterns detection by subgraph isomorphism |
Pande, A., Gupta, M., Tripathi, A.K. |
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SCOPUS |
❌ |
❌ |
❌ |
76 |
a declarative programming paradigm and the development of knowledge mining agents |
Kerdprasop, N., Kerdprasop, K. |
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SCOPUS |
❌ |
❌ |
❌ |
77 |
a deeper analysis of aoi coverage in code reading |
Teresa Busjahn, Sascha Tamm |
ACM |
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SCOPUS |
❌ |
❌ |
❌ |
78 |
a demanddriven approach to slicing legacy cobol systems |
Hajnal, Á., Forgács, I. |
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SCOPUS |
❌ |
❌ |
❌ |
79 |
a demonstration of codebreaker a machine interpretable knowledge graph for code |
Abdelaziz, I., Srinivas, K., Dolby, J., McCusker, J.P. |
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SCOPUS |
❌ |
❌ |
❌ |
80 |
a design for controller area network bus realtime monitoring system |
Piao, C.-H., Chen, L., Cao, J. |
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SCOPUS |
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❌ |
❌ |
81 |
a design of enhanced space time block codes in mimo wireless systems |
Li, D., Shi, H., Cheng, W. |
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SCOPUS |
❌ |
❌ |
❌ |
82 |
a diagnosisbased approach to software comprehension |
Alexandre Perez, Rui Abreu |
ACM |
|
SCOPUS |
✔️ |
❌ |
❌ |
83 |
a diversified feature extraction approach for program similarity analysis |
Wang, Y., Jin, D., Gong, Y. |
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SCOPUS |
❌ |
❌ |
❌ |
84 |
a doc2vecbased assessment of comments and its application to changeprone method analysis |
Aman, H., Amasaki, S., Yokogawa, T., Kawahara, M. |
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SCOPUS |
❌ |
❌ |
❌ |
85 |
a documentation suite for maintenance programmers |
Frank A. Cioch, Michael Palazzolo, Scott Lohrer |
ACM |
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❌ |
❌ |
❌ |
86 |
a documentationrelated approach to objectoriented program understanding |
L. H. Etzkorn; C. G. Davis |
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IEEE |
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✔️ |
❌ |
❌ |
87 |
a dynamic analysis for revealing object ownership and sharing |
Rayside, D., Mendel, L., Jackson, D. |
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SCOPUS |
❌ |
❌ |
❌ |
88 |
a dynamic analysis technique to extract symptoms that suggest side effects in framework applications |
Izuru Kume, Naoya Nitta, Masahide Nakamura, Etsuya Shibayama |
ACM |
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SCOPUS |
❌ |
❌ |
❌ |
89 |
a dynamic graphbased visualization for spreadsheets |
Kankuzi, B., Ayalew, Y. |
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SCOPUS |
❌ |
❌ |
❌ |
90 |
a family of experiments to assess the effectiveness and efficiency of source code obfuscation techniques |
Mariano Ceccato, Massimiliano Penta, Paolo Falcarin, Filippo Ricca, Marco Torchiano, Paolo Tonella |
ACM |
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SCOPUS |
✔️ |
❌ |
❌ |
91 |
a fast automationbased method for detecting anomalous program behaviors |
Sekar, R., Bendre, M., Dhurjati, D., Bollineni, P. |
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SCOPUS |
❌ |
❌ |
❌ |
92 |
a fastdecodable code structure for linear dispersion codes |
X. G. Dai, S. W. Cheung, T. I. Yuk |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
93 |
a feasibility study on using clustering algorithms in programming education research |
Marzieh Ahmadzadeh, Elham Mahmoudabadi |
ACM |
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SCOPUS |
❌ |
❌ |
❌ |
94 |
a feature model of framework applications |
Izur Kume, Masahide Nakamura, Naoya Nitta, Etsuya Shibayama |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
95 |
a finegrained assessment on novice programmers gaze patterns on pseudocode problems |
Obaidellah, U., Blascheck, T., Guarnera, D.T., Maletic, J. |
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SCOPUS |
❌ |
❌ |
❌ |
96 |
a finegrained assessment on novice programmers’ gaze patterns on pseudocode problems |
Unaizah Obaidellah, Tanja Blascheck, Drew T. Guarnera, Jonathan Maletic |
ACM |
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❌ |
❌ |
❌ |
97 |
a finite representation of the narrowing space |
Nishida, N., Vidal, G. |
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SCOPUS |
❌ |
❌ |
❌ |
98 |
a formal framework for incremental model slicing |
Taentzer, G., Kehrer, T., Pietsch, C., Kelter, U. |
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SCOPUS |
❌ |
❌ |
❌ |
99 |
a formal framework for incremental model slicing (summary) |
Taentzer, G., Kehrer, T., Pietsch, C., Kelter, U. |
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SCOPUS |
❌ |
❌ |
❌ |
100 |
a formalism to automate mapping from program features to code |
Jean-Christophe Deprez, Arun Lakhotia |
ACM |
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❌ |
❌ |
❌ |
101 |
a formative evaluation of information retrieval techniques applied to software catalogues |
Maurizio Pighin, Giorgio Brajnik |
ACM |
|
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❌ |
❌ |
❌ |
102 |
a framework for building virtual communities for education |
Varlamis, I., Apostolakis, I. |
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SCOPUS |
❌ |
❌ |
❌ |
103 |
a framework for debugging java programs in a bytecode |
S. Soomro; M. R. Belgaum; Z. Alansari; M. H. Miraz |
|
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
104 |
a framework for effective memory optimization of high performance computing applications |
Lu, P., Che, Y., Wang, Z. |
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SCOPUS |
❌ |
❌ |
❌ |
105 |
a framework for efficient register allocation through selective register demotion |
Bairagi, D., Pande, S., Agrawal, D.P. |
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SCOPUS |
❌ |
❌ |
❌ |
106 |
a framework for enhancing code quality in limited register set embedded processors |
Bairagi, D., Pande, S., Agrawal, D.P. |
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SCOPUS |
❌ |
❌ |
❌ |
107 |
a framework for estimating interest on technical debt by monitoring developer activity related to code comprehension |
Vallary Singh, Will Snipes, Nicholas A. Kraft |
ACM |
IEEE |
|
❌ |
❌ |
❌ |
108 |
a framework for examining topical locality in objectoriented software |
Nan Niu, Juha Savolainen, Tanmay Bhowmik, Anas Mahmoud, Sandeep Reddivari |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
109 |
a framework for source code search using program patterns |
Paul, S., Prakash, A. |
|
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SCOPUS |
❌ |
❌ |
❌ |
110 |
a framework for the evaluation of specification miners based on finite state machines |
Pradel, M., Bichsel, P., Gross, T.R. |
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SCOPUS |
❌ |
❌ |
❌ |
111 |
a framework for understanding conceptual changes in evolving source code |
Nicolas Gold, Andrew Mohan |
ACM |
|
SCOPUS |
❌ |
❌ |
❌ |
112 |
a framework profile of .net |
Ralf Lammel, Rufus Linke, Ekaterina Pek, Andrei Varanovich |
ACM |
IEEE |
SCOPUS |
✔️ |
❌ |
❌ |
113 |
a functional approach to evolving recursive programs |
Dostal, M. |
|
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SCOPUS |
❌ |
❌ |
❌ |
114 |
a gamification technique for motivating students to learn code readability in software engineering |
Q. Mi; J. Keung; X. Mei; Y. Xiao; W. K. Chan |
|
IEEE |
SCOPUS |
✔️ |
❌ |
❌ |
115 |
a general structure for ratecompatible concatenated codes |
Brännström, F., Graell i Amat, A., Rasmussen, L.K. |
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SCOPUS |
❌ |
❌ |
❌ |
116 |
a generalized knowledgebased approach to comprehend pascal and c programs |
Ueno, H. |
|
|
SCOPUS |
❌ |
❌ |
❌ |
117 |
a generic architecture for data flow analysis to support reverse engineering |
Leon Moonen |
ACM |
|
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❌ |
❌ |
❌ |
118 |
a genetic algorithm based approach for prioritization of test case scenarios in static testing |
Sabharwal, S., Sibal, R., Sharma, C. |
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SCOPUS |
❌ |
❌ |
❌ |
119 |
a goaloriented fault tolerance software enhanced by critical information code protection |
Alban, A.Q., Jaoua, A. |
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SCOPUS |
❌ |
❌ |
❌ |
120 |
a graph database based crowdsourcing infrastructure for modelling and searching code structure |
Zeqi Lin, Junfeng Zhao, Bing Xie |
ACM |
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SCOPUS |
❌ |
❌ |
❌ |
121 |
a graph database based method for parsing and searching code structure |
Lin, Z., Zhao, J., Xie, B. |
|
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SCOPUS |
❌ |
❌ |
❌ |
122 |
a graph sequence neural architecture for code completion with semantic structure features |
Kang Yang, Huiqun Yu, Guisheng Fan, Xingguang Yang, Zijie Huang |
ACM |
|
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❌ |
❌ |
❌ |
123 |
a graph theoretic approach to the verification of program structures |
Brown, J.R., Fischer, K.F. |
|
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SCOPUS |
❌ |
❌ |
❌ |
124 |
a graphicsbased system that supports the program understanding process |
Brady R. Rimes, Doris L. Carver |
ACM |
IEEE |
|
❌ |
❌ |
❌ |
125 |
a graphneuralnetwork decoder with mlpbased processing cells for polar codes |
Song, X., Zhang, Z., Wang, J., Qin, K. |
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126 |
a guessing measure of program comprehension |
J. Steve Davis |
ACM |
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127 |
a hierarchical program structure for concurrent fault tolerant software |
Andrea Clematis, Vittoria Gianuzzi |
ACM |
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128 |
a history querying tool and its application to detect multiversion refactorings |
Reinout Stevens, Coen De Roover, Carlos Noguera, Viviane Jonckers |
ACM |
IEEE |
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129 |
a hot path based thread partitioning technique for thread pipelining model |
Ootsu, K., Kobayashi, T., Ogawa, H., Yokota, T., Baba, T. |
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130 |
a human study of comprehension and code summarization |
Stapleton, S., Gambhir, Y., LeClair, A., Eberhart, Z., Weimer, W., Leach, K., Huang, Y. |
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131 |
a hybrid approach for program understanding based on graph parsing and expectationdriven analysis |
Kim, S.-M., Kim, J.H. |
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132 |
a hybrid approach to recognizing programming plans |
Quilici, A. |
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133 |
a hybrid code representation learning approach for predicting method names |
Zhang, F., Chen, B., Li, R., Peng, X. |
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134 |
a hybrid program knowledge base for static program analyzers |
Jarzabek, S., Shen, H., Chan, H.C. |
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135 |
a hybrid query engine for the structural analysis of java and aspectj programs |
Ghanbari, H., Constantinides, C., Arnaoudova, V. |
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136 |
a hypothetical dialogue exhibiting a knowledge base for a programunderstanding system. |
C. C Green, David R. Barstow |
ACM |
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137 |
a joint acquisition algorithm based on primary code and secondary code for gnss signals |
Liu, Z., Yao, Z., Zhang, J., Lu, M., Zhao, Y. |
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138 |
a knowledge based method for data flow analysis |
Zhao, L., Fang, Y. |
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139 |
a knowledgebased approach to objectoriented legacy code reuse |
L. H. Etzkorn, C. G. Davis, L. L. Bowen, D. B. Etzkorn, L. W. Lewis, B. L. Vinz, J. C. Wolf |
ACM |
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140 |
a knowledgebased approach to program understanding |
Salwa K. Abd-El-Hafiz |
ACM |
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141 |
a knowledgebased approach to the analysis of loops |
Salwa K. Abd-El-Hafiz, Victor R. Basili |
ACM |
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142 |
a knowledgebased toolkit for software visualisation |
D. Sidarkeviciute, E. Tyugu, A. Kuusik |
ACM |
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143 |
a language design for program structure |
Peter Ludemann |
ACM |
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144 |
a large scale empirical study of the impact of spaghetti code and blob antipatterns on program comprehension |
Politowski, C., Khomh, F., Romano, S., Scanniello, G., Petrillo, F., Guéhéneuc, Y.-G., Maiga, A. |
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145 |
a largescale comparative analysis of coding standard conformance in opensource data science projects |
Andrew J. Simmons, Scott Barnett, Jessica Rivera-Villicana, Akshat Bajaj, Rajesh Vasa |
ACM |
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146 |
a largescale comparison of python code in jupyter notebooks and scripts |
K. Grotov; S. Titov; V. Sotnikov; Y. Golubev; T. Bryksin |
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IEEE |
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147 |
a lightweight approach to software validation by comparing uml use cases with internal program documentation selected via call graphs |
Owen Funkhouser, Letha Hughes Etzkorn, William E. Hughes |
ACM |
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148 |
a lightweight visualization of interprocedural dataflow paths for source code reading |
T. Ishio; S. Etsuda; K. Inoue |
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IEEE |
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149 |
a linear programming receiver for blind detection of full rate spacetime block codes |
Zia, M., Ding, Z. |
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150 |
a linear structured approach and a refined fitness function in genetic programming for multiclass object classification |
Mengjie Zhang, Christopher Graeme Fogelberg, Yuejin Ma |
ACM |
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151 |
a little knowledge can go a long way towards program understanding |
Jelber Sayyad-Shirabad, Timothy C. Lethbridge, Steve Lyon |
ACM |
IEEE |
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152 |
a longitudinal study of application structure and behaviors in android |
H. Cai; B. Ryder |
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IEEE |
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153 |
a look into programmers heads |
Peitek, N., Siegmund, J., Apel, S., Kastner, C., Parnin, C., Bethmann, A., Leich, T., Saake, G., Brechmann, A. |
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154 |
a look into programmers’ heads |
N. Peitek; J. Siegmund; S. Apel; C. Kästner; C. Parnin; A. Bethmann; T. Leich; G. Saake; A. Brechmann |
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IEEE |
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155 |
a lowlevel analysis library for architecture recovery |
Löwe, W., Lundberg, J. |
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156 |
a machinelearning based ensemble method for antipatterns detection |
Barbez, A., Khomh, F., Guéhéneuc, Y.-G. |
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157 |
a map of the heap revealing design abstractions in runtime structures |
Myers, C., Duke, D. |
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158 |
a mechanism for automatically summarizing software functionality from source code |
C. Psarras; T. Diamantopoulos; A. Symeonidis |
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IEEE |
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159 |
a mechanism for specifying the structure of large, layered, objectoriented programs |
Ossher, H.L. |
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160 |
a metadata handling api for framework development a comparative study |
Guerra, E., Lima, P., Choma, J., Nardes, M., Silva, T., Lanza, M., Meirelles, P. |
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161 |
a method combining review and testing for verifying software systems |
Chen, Y., Liu, S., Wong, W.E. |
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162 |
a method for analyzing loop programs |
R. C. Waters |
ACM |
IEEE |
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163 |
a method for generating program specification from source program—analysis by transforming program structure and argument manipulation |
Nagai, T., Imanaka, T., Toyoda, J., Hirashima, T., Uehara, K., Nagasawa, Y. |
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164 |
a method for operational diagnosis of data represented in a residue number system |
V. A. Krasnobayev, S. A. Koshman |
ACM |
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165 |
a method of program structure division base on program understanding |
Zhang, Y., Wang, Y., Liu, X. |
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166 |
a method of program structure division based on program understanding |
Zhang Youwei, Wang Yonghong, Liu Xiaochun |
ACM |
IEEE |
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167 |
a method of program understanding using constraint satisfaction for software reverse engineering |
Steven Gregory Woods, Qiang Yang |
ACM |
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168 |
a method of use case oriented semiautomatic reverse engineering |
Si, H., Li, Y., Chen, B., Fang, W. |
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169 |
a method to comprehend feature dependencies based on semistatic structures |
N. Kande; N. Nitta |
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IEEE |
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170 |
a method to expose the hidden structure of fortran programs |
Meissner, L.P. |
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171 |
a method to reorganize legacy systems via concept analysis |
E .. Merlo |
ACM |
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172 |
a metric for software readability |
Raymond P.L. Buse, Westley R. Weimer |
ACM |
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173 |
a metric model for aspects coupling |
Mario Luca Bernardi, Giuseppe A. Di Lucca |
ACM |
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174 |
a metrics suite for grammarbased software |
Power, J.F., Malloy, B.A. |
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175 |
a metrics suite for grammarbased software research articles |
James F. Power, Brian A. Malloy |
ACM |
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176 |
a microcad system for design of steel connectionsi. program structure and graphic algorithms |
Adeli, H., Fiedorek, J. |
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177 |
a model for structuring user documentation of objectoriented frameworks using patterns and hypertext |
Meusel, M., Czarnecki, K., Köpf, W. |
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178 |
a model for understanding software components |
Andrews, A., Ghosh, S., Choi, E.M. |
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179 |
a model proposal for program comprehension |
Arcelli, F., Zanoni, M., Porrini, R., Vivanti, M. |
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180 |
a model to detect readability improvements in incremental changes |
Devjeet Roy, Sarah Fakhoury, John Lee, Venera Arnaoudova |
ACM |
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181 |
a modular tool for benchmarking lot publishsubscribe middleware |
Zilhao, L., Morla, R., Aguiar, A. |
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182 |
a monolithic program vs. modifiability enhancing a visual data flow program with objectoriented techniques |
Marttila-Kontio, M., Hassinen, M., Kontio, M. |
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183 |
a multilevel code comprehension model for largescale software |
A. Marie Vans |
ACM |
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184 |
a multimodule based method for generating natural language descriptions of code fragments |
X. Gao; X. Jiang; Q. Wu; X. Wang; L. Lyu; C. Lyu |
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IEEE |
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185 |
a multiparadigm modelling approach to live modelling |
Van Tendeloo, Y., Van Mierlo, S., Vangheluwe, H. |
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186 |
a multiperspective software visualization environment |
Jingwei Wu, Margaret-Anne D. Storey |
ACM |
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187 |
a multiple view interactive environment to support matlab and gnu/octave program comprehension |
Ivan de M. Lessa, Glauco de F. Carneiro, Miguel Jorge T. P. Monteiro, Fernando Brito e. Abreu |
ACM |
IEEE |
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188 |
a multiprocessor architecture using a circulating memory |
Lecouffe, M.-P. |
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189 |
a neural model for generating natural language summaries of program subroutines |
Leclair, A., Jiang, S., McMillan, C. |
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190 |
a neuralnetwork based code summarization approach by using source code and its call dependencies |
Liu, B., Wang, T., Zhang, X., Fan, Q., Yin, G., Deng, J. |
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191 |
a neurocognitive perspective of program comprehension |
Norman Peitek |
ACM |
IEEE |
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192 |
a new decapsulating the frame method for dvbs2 based on rm code |
X. Rui; X. Lina; L. Xiaoru; Z. Tao |
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IEEE |
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193 |
a new design criterion for linear receiver stbcs based on fullrank spaces |
Tofigh, S., Momenaee Kermani, H., Morsali, A. |
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194 |
a new foundation for control dependence and slicing for modern program structures |
Ranganath, V.P., Amtoft, T., Banerjee, A., Hatcliff, J., Dwyer, M.B. |
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195 |
a new foundation for controldependence and slicing for modern program structures |
Ranganath, V.P., Amtoft, T., Banerjee, A., Dwyer, M.B., Hatcliff, J. |
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196 |
a new interleaved bachelor of electrical engineering program |
N. Cox; G. Pellegrin |
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IEEE |
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197 |
a new kind of nonbinary uniquely decodable codes with arbitrary code length for multipleaccess adder channel |
Lu, S., Hou, W., Cheng, J., Kamabe, H. |
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198 |
a new objectoriented method integrating jackson structured programming method |
Jen-Yen, C., Yao-Ting Tim Chen |
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199 |
a new pedagogical design for geoinformatics courses using an etraining support system |
Ahmed Sharaf Eldin, Alaa H. Elnahry, Adel Elsayed, Rania Elsayed Ibrahim |
ACM |
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200 |
a new program structure to improve accuracy and readability of pascal software |
W. J. Rogers |
ACM |
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201 |
a new software engineering program structure and initial experiences |
Per Runeson |
ACM |
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202 |
a new software maintenance scenario based on refactoring techniques |
Gustavo Villavicencio |
ACM |
IEEE |
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203 |
a new standard of choosing slicing criterion |
Qiuyu Zhang, Yonghui Su |
ACM |
IEEE |
SCOPUS |
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204 |
a new way of automating statistical testing methods |
Gouraud, S.-D., Denise, A., Gaudel, M.-C., Marre, B. |
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205 |
a note on extensible software systems in light of maintenance efforts |
Kehrer, T. |
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206 |
a note on program structures for parallel processing |
Wirth, N. |
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SCOPUS |
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207 |
a novel approach based on gestalt psychology for abstracting the content of large execution traces for program comprehension |
Heidar Pirzadeh, Abdelwahab Hamou-Lhadj |
ACM |
IEEE |
SCOPUS |
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208 |
a novel channel coding scheme of accumulate repeat tree codes |
Maofan, Y., Liang, F., Xin, Z., Dacheng, Y. |
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209 |
a novel memory leak classification for evaluating the applicability of static analysis tools |
S. Zhang; J. Zhu; A. Liu; W. Wang; C. Guo; J. Xu |
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IEEE |
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210 |
a novel test case generation method based on program structure diagram |
Xianghu Wu, Mingcheng Qu, Yongchao Tao, Guannan Wang, Ziyu Dong |
ACM |
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211 |
a p2p architecture for supporting group communication in cscw systems |
Hua, C., Jianfei, Q., Qingming, H. |
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212 |
a pagerank based recommender system for identifying key classes in software systems |
Sora, I. |
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213 |
a paradigm for programming style research |
Oman, P.W., Cook, C.R. |
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214 |
a pathaware approach to mutant reduction in mutation testing |
Sun, C.-A., Xue, F., Liu, H., Zhang, X. |
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215 |
a personalized code formatter detection and fixing |
Karanikiotis, T., Chatzidimitriou, K.C., Symeonidis, A.L. |
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216 |
a pilot study on the empirical investigation of an approach to the threedimensional visualization of objectoriented code structures | eine pilotstudie zur empirischen untersuchung eines ansatzes zur dreidimensionalen visualisierung von objektorientierten codestrukturen |
Fronk, A. |
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SCOPUS |
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217 |
a pkmbased decisionmaking training program for personal healthcare an action learning approach |
Huang, Y.-M., Pauleen, D., Scahill, S., Taskin, N. |
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218 |
a plugin to eclipse for vhdl source codes functionalities |
Niton, B., Poźniak, K.T., Romaniuk, R.S. |
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219 |
a postplacement sideeffect removal algorithm |
Harman, M., Hu, L., Hierons, R., Munro, M., Zhang, X., Dolado, J.J., Otero, M.C., Wegener, J. |
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220 |
a practical guide on conducting eye tracking studies in software engineering |
Zohreh Sharafi, Bonita Sharif, Yann-Gaël Guéhéneuc, Andrew Begel, Roman Bednarik, Martha Crosby |
ACM |
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221 |
a practical mobile robot agent implementation based on a google android smartphone |
Martínez, D., Moreno, J., Font, D., Tresanchez, M., Pallejà, T., Teixidó, M., Palacín, J. |
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222 |
a practical model for dynamic software measurement |
Faliang, H., Yunfei, Y., Zhiqiang, Y. |
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223 |
a precise pictorial language for array invariants |
Eriksson, J., Parsa, M., Back, R.-J. |
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224 |
a preliminary investigation of the use of the cloze procedure as a measure of program understanding |
Cook, C., Bregar, W., Foote, D. |
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225 |
a preliminary investigation towards the impact of composition properties on code anomalies |
Torres, F., Dantas, F. |
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226 |
a pretty good formatting pipeline |
Bagge, A.H., Hasu, T. |
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227 |
a program beacon recognition tool |
Harris, N., Cilliers, C. |
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228 |
a program error localization expert system |
Korel, B. |
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229 |
a program normalization to improve flexibility of knowledgebased program understander |
Ueno, H. |
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230 |
a program stability measure |
Soong, N.L. |
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231 |
a program structure analyzer |
T. L. Crawford |
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IEEE |
SCOPUS |
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232 |
a program structure for error detection and recovery |
James J. Horning, Hugh C. Lauer, P. M. Melliar-Smith, Brian Randell |
ACM |
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233 |
a program understanding environment based on the “star” approach to tool integration |
Spiros Mancoridis, Richard C. Holt, Michael W. Godfrey |
ACM |
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234 |
a program understanding support environment |
L. Cleveland |
ACM |
IEEE |
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235 |
a program visualization system that supports the program understanding process |
B. R. Rimes |
ACM |
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236 |
a program visualization tool for program comprehension |
M. Ohki, Y. Hosaka |
ACM |
IEEE |
SCOPUS |
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237 |
a programming paradigm combining programmer and neural network to promote automated program generation | 一种融合程序员和神经网络的自动化程序生成方法 |
Zhou, P., Wu, Y., Zhao, C. |
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238 |
a proposal for a measure of program understanding |
Mark Haas, Johnette Hassell |
ACM |
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239 |
a proposal of code completion problem for java programming learning assistant system |
Kyaw, H.H.S., Aung, S.T., Thant, H.A., Funabiki, N. |
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240 |
a proposal of fault tree analysis for control programs |
Takahashi, M., Nanba, R. |
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SCOPUS |
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241 |
a prototype system for static and dynamic program understanding |
D. P. Olshefski; A. Cole |
|
IEEE |
SCOPUS |
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242 |
a qualitative assessment of the efficacy of uml diagrams as a form of graphical documentation in aiding program understanding |
Scott Tilley, Shihong Huang |
ACM |
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243 |
a qualitative assessment of the reverse engineering capabilities of unit testing tools for understanding java programs |
Tinkham, A., Tilley, S., Parveen, T. |
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244 |
a qualitative humancentric evaluation of flexibility in middleware implementations |
Renato Maia, Renato Cerqueira, Clarisse Sieckenius Souza, Tomás Guisasola-Gorham |
ACM |
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SCOPUS |
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245 |
a qualitative investigation of landmarks in software code navigation |
Sandeep Reddivari, Tanmay Bhowmik |
ACM |
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SCOPUS |
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246 |
a quantitative analysis of developer information needs in software ecosystems |
Nicole Haenni, Mircea Lungu, Niko Schwarz, Oscar Nierstrasz |
ACM |
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247 |
a quantitative study on characteristics and effect of batch refactoring on code smells |
Bibiano, A.C., Fernandes, E., Oliveira, D., Garcia, A., Kalinowski, M., Fonseca, B., Oliveira, R., Oliveira, A., Cedrim, D. |
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248 |
a query algebra for program databases |
Santanu Paul, Ataul Prakash |
ACM |
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SCOPUS |
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249 |
a quick review on machine learning techniques in code comprehension and code review estimated by neurophysiological data |
H. Hijazi; R. Couceiro; J. Castelhano; M. Castelo-Branco; P. d. Carvalho; H. Madeira |
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IEEE |
SCOPUS |
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250 |
a region adaptive image classification approach using genetic programming |
Fan, Q., Xue, B., Zhang, M. |
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251 |
a replication study on code comprehension and expertise using lightweight biometric sensors |
Davide Fucci, Daniela Girardi, Nicole Novielli, Luigi Quaranta, Filippo Lanubile |
ACM |
IEEE |
SCOPUS |
✔️ |
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252 |
a report on random testing |
Duran, J.W., Ntafos, S. |
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253 |
a research and verification of mfc frameworkaware virus infection technology |
W. Guo; Y. Li; Z. Sha; W. Bu |
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IEEE |
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254 |
a resistive magnetohydrodynamics solver using modern c++ and the boost library |
Einkemmer, L. |
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SCOPUS |
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255 |
a retrospective view on the role of concepts in program comprehension (mip award) |
V. Rajlich; N. Wilde |
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IEEE |
SCOPUS |
✔️ |
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256 |
a reverse‐engineering approach to subsystem structure identification |
Müller, H.A., Orgun, M.A., Tilley, S.R., Uhl, J.S. |
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SCOPUS |
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257 |
a review approach to detecting violations of consistency between specification and program structures |
Chen, Y., Liu, S., Wong, W.E. |
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SCOPUS |
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258 |
a review of source code projections in integrated development environments |
Juhár, J., Vokorokos, L. |
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SCOPUS |
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259 |
a role for chunking and fuzzy reasoning in a program comprehension and debugging tool |
Abdul Mirza |
ACM |
IEEE |
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260 |
a role of a user in the development and maintenance of an information system empirical and theoretical findings |
Järvinen, P. |
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SCOPUS |
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261 |
a rulebased scheme to make personal digests from video program meta data |
Hashimoto, T., Shirota, Y., Iizawa, A., Kitagawa, H. |
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SCOPUS |
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262 |
a safe variant of the unsafe integer arithmetic of javatm |
Jürgen F. H. Winkler |
ACM |
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SCOPUS |
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263 |
a safe variant of the unsafe integer arithmetic of java™ |
Jürgen F. H. Winkler |
ACM |
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SCOPUS |
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264 |
a scalable and adaptable solution framework within components of the community climate system model |
Evans, K.J., Rouson, D.W.I., Salinger, A.G., Taylor, M.A., Weijer, W., White III, J.B. |
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SCOPUS |
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265 |
a scalable technique for characterizing the usage of temporaries in frameworkintensive java applications |
Bruno Dufour, Barbara G. Ryder, Gary Sevitsky |
ACM |
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SCOPUS |
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266 |
a schemabased model of program understanding |
Françoise Détienne |
ACM |
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267 |
a search based context aware approach for understanding and localizing the fault via weighted call graph |
Tu, J., Xie, X., Zhou, Y., Xu, B., Chen, L. |
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SCOPUS |
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268 |
a search based contextaware approach for understanding and localizing the fault via weighted call graph |
J. Tu; X. Xie; Y. Zhou; B. Xu; L. Chen |
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IEEE |
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✔️ |
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269 |
a search of verilog code plagiarism detection method |
Wang, L., Jiang, L., Qin, G. |
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270 |
a semantic entropy metric |
Letha H. Etzkorn, Sampson Gholston, William E. Hughes |
ACM |
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271 |
a semantics for the essence of react |
Madsen, M., Lhoták, O., Tip, F. |
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SCOPUS |
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272 |
a semanticsbased approach to concept assignment in assembly code |
Sisco, Z., Bryant, A. |
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SCOPUS |
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273 |
a semanticspreserving amorphous procedure extraction method for c clone code |
Bian, Y., Wang, T., Su, X., Ma, P. |
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274 |
a service logic program structure of upt service in intelligent networks |
T. Sugiyama; K. Ishikawa; H. Itoh |
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IEEE |
SCOPUS |
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275 |
a similarity detection platform for programming learning |
Li, Y., Sheng, Y., Xiao, L., Wang, F. |
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SCOPUS |
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276 |
a simple and effective measure for complex lowlevel dependencies |
Dirk Beyer, Ashgan Fararooy |
ACM |
IEEE |
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277 |
a simple spacetime coding technique for wireless communication systems |
Anoh, K.O.O., Jones, S.M.R., Abd-Alhameed, R.A.A., Mapoka, T.T., Okorafor, G.N., Ngala, M.J. |
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SCOPUS |
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278 |
a simplified application of ordered statistics decoding to single parity check product codes |
Garello, R., Verardo, G. |
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SCOPUS |
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279 |
a socratic tutor for source code comprehension |
Zeyad Alshaikh, Lasagn Tamang, Vasile Rus |
ACM |
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SCOPUS |
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280 |
a software behaviour analysis framework based on the human perception systems (nier track) |
Heidar Pirzadeh, Abdelwahab Hamou-Lhadj |
ACM |
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SCOPUS |
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281 |
a software behaviour analysis framework based on the human perception systems nier track |
H. Pirzadeh; A. Hamou-Lhadj |
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IEEE |
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282 |
a software maintenance process model with featurebased tool and reliability metrics |
Qaisi, A., Albasheer, O., Sharieh, A. |
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283 |
a software reengineering method using domain models |
J.-M. DeBaud, S. Rugaber |
ACM |
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284 |
a software tool for teaching data structures |
Beidler, J., Meinke, J. |
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SCOPUS |
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285 |
a space of layout styles for hierarchical graph models of software systems |
Andreas Noack, Claus Lewerentz |
ACM |
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286 |
a static analysis for program understanding and debugging |
R. Gaugne |
ACM |
IEEE |
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✔️ |
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287 |
a static analysis of pascal program structures |
Brookes, G.R., Wilson, I.R., Addyman, A.M. |
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SCOPUS |
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288 |
a static code search technique to identify dead fields by analyzing usage of setup fields and field dependency in test code |
Satter, A., Ami, A.S., Sakib, K. |
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SCOPUS |
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289 |
a static model for recovering higher level views of threads and their interactions |
Kodabagi, M.M., Anami, B.S., Hemanthakumar, G. |
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SCOPUS |
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290 |
a static model for reverse engineering of software threads and their interactions |
M. M. Kodabagi, B. S. Anami, G. Hemanthakumar |
ACM |
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291 |
a strategy for detecting and clustering functionalities in objectoriented systems |
Miranda, E.A., Berón, M., Riesco, D., Montejano, G., Debnath, N. |
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SCOPUS |
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292 |
a structured demonstration of five program comprehension tools lessons learnt |
Susan Elliott Sim, Margaret-Anne Storey, Andreas Winter |
ACM |
IEEE |
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293 |
a structured demonstration of program comprehension tools |
Susan Elliott Sim, Margaret-Anne D. Storey |
ACM |
IEEE |
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294 |
a study & review on code obfuscation |
Sebastian, S.A., Malgaonkar, S., Shah, P., Kapoor, M., Parekhji, T. |
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SCOPUS |
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295 |
a study and experimental assessment of the cognitive weight, base of the cognitive metrics |
A. S. Núñez-Varela; H. G. Pérez-González; F. E. Martínez-Pérez; D. Esqueda-Contreras |
|
IEEE |
SCOPUS |
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296 |
a study of comment abstract ion, coupling, and placement |
Vinz, B.L., Etzkorn, L.H. |
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SCOPUS |
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297 |
a study of comment abstraction, coupling, and placement |
Bradley L. Vinz, Letha H. Etzkorn |
ACM |
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298 |
a study of computer program structure. |
Roy Alejandro Maddux |
ACM |
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299 |
a study of conceptbased similarity approaches for recommending program examples |
Hosseini, R., Brusilovsky, P. |
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SCOPUS |
✔️ |
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300 |
a study of different coding styles affecting code readability |
Lee, T., Lee, J.B., In, H.P. |
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SCOPUS |
✔️ |
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301 |
a study of enduser programming for geographic information systems |
Traynor, C., Williams, M.G. |
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SCOPUS |
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302 |
a study of student strategies for the corrective maintenance of concurrent software |
Fleming, S.D., Kraemer, E., Stirewalt, R.E.K., Xie, S., Dillon, L.K. |
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SCOPUS |
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303 |
a study of the documentation essential to software maintenance |
Sergio Cozzetti B. de Souza, Nicolas Anquetil, Káthia M. de Oliveira |
ACM |
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304 |
a study of the extremum of the total energy of the selective signals constructed by quadratic splines |
Strelkovskaya, I., Solovskaya, I., Makoganiuk, A. |
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SCOPUS |
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305 |
a study of the relationship between class testability and runtime properties |
Tahir, A., MacDonell, S., Buchan, J. |
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SCOPUS |
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306 |
a study of transactional memory vs. locks in practice |
Pankratius, V., Adl-Tabatabai, A.-R. |
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SCOPUS |
✔️ |
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307 |
a study on assisting in prolog program comprehension by using stepwise execution and stepwise comparison |
Yoshiyuki Deguchi, Manabu Nakamura, Setsuko Otsuki |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
308 |
a study on crosscutting refactoring using progam dependency relation |
Lee, S.-H., Cho, B.-H., Song, Y.-J. |
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SCOPUS |
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❌ |
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309 |
a study on parallel performance of the eulag f90/95 code |
Wójcik, D.K., Kurowski, M.J., Rosa, B., Ziemiański, M.Z. |
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SCOPUS |
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310 |
a study on rfid code structure for traceability system of electric vehicle batteries |
Woo Ram Kim; Yoon Seok Chang |
|
IEEE |
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❌ |
❌ |
311 |
a study on the impact of emotional quotient on program comprehension |
A. Savarimuthu; L. Arockiam; A. Aloysius |
|
IEEE |
SCOPUS |
✔️ |
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312 |
a study on the program comprehension and debugging processes of novice programmers |
Aljunid, S.A., Zin, A.M., Shukur, Z. |
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SCOPUS |
✔️ |
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313 |
a support system for understanding list processing programs which generates explanations and input‐output examples |
Hatori, K., Nagata, M. |
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SCOPUS |
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314 |
a survey and evaluation of tool features for understanding reverseengineered sequence diagrams |
Bennett, C., Myers, D., Storey, M.-A., German, D.M., Ouellet, D., Salois, M., Charland, P. |
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SCOPUS |
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315 |
a survey of external representations employed in objectoriented programming environments |
Romero, P., Cox, R., du Boulay, B., Lutz, R. |
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SCOPUS |
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316 |
a survey of the forms of java reference names |
Simon Butler, Michel Wermelinger, Yijun Yu |
ACM |
IEEE |
SCOPUS |
✔️ |
❌ |
❌ |
317 |
a synergistic approach to program comprehension |
Bradley L. Vinz, Letha H. Etzkorn |
ACM |
IEEE |
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❌ |
❌ |
❌ |
318 |
a synergistic approach to program comprehension combining code understanding with comment understanding |
Bradley Louis Vinz, Letha H. Etzkorn |
ACM |
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319 |
a synthesis of logical and probabilistic reasoning for program understanding and debugging |
Lisa J. Burnell, Eric J. Horvitz |
ACM |
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❌ |
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320 |
a system for visualizing binary componentbased program structure with component functional size |
Washizaki, H., Takano, S., Fukazawa, Y. |
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SCOPUS |
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321 |
a system with template answer set programs |
Calimeri, F., Ianni, G., Ielpa, G., Pietramala, A., Santoro, M.C. |
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SCOPUS |
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❌ |
❌ |
322 |
a systematic analysis of software architecture visualization techniques |
Zohreh Sharafi |
ACM |
IEEE |
SCOPUS |
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❌ |
❌ |
323 |
a systematic survey of program comprehension through dynamic analysis |
Bas Cornelissen, Andy Zaidman, Arie van Deursen, Leon Moonen, Rainer Koschke |
ACM |
IEEE |
|
✔️ |
❌ |
❌ |
324 |
a tale of four kernels |
Spinellis, D. |
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SCOPUS |
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325 |
a taxonomy for program metamodels in program reverse engineering |
H. Washizaki; Y. -G. Guéhéneuc; F. Khomh |
|
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
326 |
a taxonomy of interactions introduced by aspects |
Mario Luca Bernardi, Giuseppe Antonio Di Lucca |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
327 |
a templateoriented approach for simulation program understanding |
T. I. Ören, R. N. Wendt, D. G. King, O. Abou-Rabia, L. G. Birta |
ACM |
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SCOPUS |
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328 |
a test of a cognitive model of computer program readability. |
Dennis Carl Bunde |
ACM |
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329 |
a testbed for visualizing sensornet behavior |
Dalton, A.R., Dandamudi, S., Hallstrom, J.O., Wahba, S.K. |
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SCOPUS |
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❌ |
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330 |
a theory based tool set for analysing reading processes in the context of learning programming |
Budde, L., Heinemann, B., Schulte, C. |
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SCOPUS |
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331 |
a threelayer model of source code comprehension |
Javier Belmonte, Philippe Dugerdil, Ashish Agrawal |
ACM |
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SCOPUS |
✔️ |
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❌ |
332 |
a tool for assisting the understanding and formal development of software |
S. K. Abd-el-Hafiz, V. R. Basili |
ACM |
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❌ |
❌ |
❌ |
333 |
a tool for understanding multilanguage program dependencies |
Panagiotis K. Linos, Zhi-hong Chen, Seth Berrier, Brian O'Rourke |
ACM |
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SCOPUS |
❌ |
❌ |
❌ |
334 |
a tool for visual understanding of source code dependencies |
Martin Pinzger, Katja Graefenhain, Patrick Knab, Harald C. Gall |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
335 |
a toolkit for generating code knowledge graphs |
Ibrahim Abdelaziz, Julian Dolby, Jamie McCusker, Kavitha Srinivas |
ACM |
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SCOPUS |
❌ |
❌ |
❌ |
336 |
a toolkit for visualizing the runtime behavior of tinyos applications |
Andrew R. Dalton, Jason O. Hallstrom |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
337 |
a toolset for program understanding |
P. E. Livadas; S. D. Alden |
|
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
338 |
a traceability analysis and its improvement for event driven system |
Kishimoto, Y. |
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SCOPUS |
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❌ |
339 |
a traceability analysis method for event driven system |
Yorinori Kishimoto |
ACM |
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❌ |
❌ |
340 |
a traceability dataset for open source systems |
Hammoudi, M., Mayr-Dorn, C., Mashkoor, A., Egyed, A. |
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SCOPUS |
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❌ |
341 |
a traceability technique for specifications |
Abadi, A., Nisenson, M., Simionovici, Y. |
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SCOPUS |
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❌ |
❌ |
342 |
a tracedriven approach to mobile app functionality classification | 一种执行轨迹驱动的移动应用功能分类方法 |
Ma, C., Li, C.-T., Cao, J.-N., Cai, H.-Q., Wu, L.-B., Shi, X.-C. |
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SCOPUS |
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❌ |
343 |
a trajectorybased strict semantics for program slicing |
Barraclough, R.W., Binkley, D., Danicic, S., Harman, M., Hierons, R.M., Kiss, Á., Laurence, M., Ouarbya, L. |
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SCOPUS |
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❌ |
❌ |
344 |
a tree kernel based approach for clone detection |
A. Corazza; S. Di Martino; V. Maggio; G. Scanniello |
|
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
345 |
a two dimensional virtual world to explain the genetic code structure |
Tyran, J.-L. |
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SCOPUS |
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❌ |
346 |
a twofolded impact analysis of schema changes on database applications |
Gardikiotis, S.K., Malevris, N. |
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SCOPUS |
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❌ |
❌ |
347 |
a typed assembly language for confidentiality |
Yu, D., Islam, N. |
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SCOPUS |
❌ |
❌ |
❌ |
348 |
a unified approach to featurecentric analysis of objectoriented software |
Olszak, A., Jørgensen, B.N. |
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SCOPUS |
❌ |
❌ |
❌ |
349 |
a unified approach to global program optimization |
Kildall, G.A. |
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SCOPUS |
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❌ |
❌ |
350 |
a unified framework to learn program semantics with graph neural networks |
Shangqing Liu |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
351 |
a unified interprocedural program representation for a maintenance environment |
Mary Jean Harrold, Brian Malloy |
ACM |
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SCOPUS |
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❌ |
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352 |
a unifying theory of control dependence and its application to arbitrary program structures |
Danicic, S., Barraclough, R.W., Harman, M., Howroyd, J.D., Kiss, Á., Laurence, M.R. |
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SCOPUS |
❌ |
❌ |
❌ |
353 |
a usability analysis of blocksbased programming editors using cognitive dimensions |
R. Holwerda; F. Hermans |
|
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
354 |
a usecase driven method of architecture recovery for program understanding and reuse reengineering |
Dragan Bojic, Dusan Velasevic |
ACM |
IEEE |
|
❌ |
❌ |
❌ |
355 |
a user interface for an environment to support program understanding |
L. Cleveland |
|
IEEE |
|
❌ |
❌ |
❌ |
356 |
a user interface specification for a program debugging and measuring environment |
Lopriore, L. |
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SCOPUS |
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❌ |
357 |
a validated set of smells in modelviewcontroller architectures |
Aniche, M., Bavota, G., Treude, C., Van Deursen, A., Gerosa, M.A. |
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SCOPUS |
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358 |
a variant program structure in treebased genetic programming for multiclass object classification |
Zhang, M., Johnston, M. |
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SCOPUS |
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359 |
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Andrea Lucia, Michele Risi, Luigi Rizzi, Giuseppe Scanniello |
ACM |
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360 |
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A. Wilhelm; V. Savu; E. Amadasun; M. Gerndt; T. Schuele |
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IEEE |
SCOPUS |
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361 |
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Bae, M.-J., Ji, J.-H., Woo, G. |
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362 |
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S. Podila; Y. Zhu |
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IEEE |
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363 |
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Frédéric Goualard, Frédéric Benhamou |
ACM |
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364 |
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Jauhar Ali |
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IEEE |
SCOPUS |
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365 |
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Katsuhisa Maruyama, Takayuki Omori, Shinpei Hayashi |
ACM |
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366 |
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G. Canfora, L. Mancini, M. Tortorella |
ACM |
IEEE |
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367 |
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A. S. Adzhemov; A. Y. Kudryashova |
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IEEE |
SCOPUS |
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368 |
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Binhang Yuan, Vijayaraghavan Murali, Christopher Jermaine |
ACM |
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369 |
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Wang, J., Dolecek, L., Zhang, Z., Wesel, R. |
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370 |
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Christophe Tabacznyj |
ACM |
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371 |
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Abejide Ade-Ibijola, Sigrid Ewert, Ian Sanders |
ACM |
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372 |
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Tan, E.-S., Dietz, H.G. |
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373 |
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Mark Marron, Cesar Sanchez, Zhendong Su, Manuel Fahndrich |
ACM |
IEEE |
SCOPUS |
❌ |
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374 |
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Sutton, A., Holeman, R., Maletic, J.I. |
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375 |
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Zhao, C., Zhang, K., Lei, Y. |
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376 |
academic software development tools and techniques report on the 1st workshop wasdett at ecoop 2008 |
Wuyts, R., Kienle, H.M., Mens, K., Van Den Brand, M., Kuhn, A. |
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377 |
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Vezolle, P., Heyman, J., D'Amora, B., Braudaway, G., Magerlein, K., Magerlein, J., Fournier, Y. |
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378 |
access patterns a usefull concept in vector programming |
Jegou, Y. |
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379 |
access permission contracts for scripting languages |
Heidegger, P., Bieniusa, A., Thiemann, P. |
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380 |
accessible astbased programming for visuallyimpaired programmers |
Emmanuel Schanzer, Sina Bahram, Shriram Krishnamurthi |
ACM |
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381 |
accuracy of unit under test identification using latent semantic analysis and latent dirichlet allocation |
M. Madeja; J. Porubän |
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IEEE |
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382 |
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Rai, S., Belwal, R.C., Gupta, A. |
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383 |
acm forum invocation the key to program structure |
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ACM |
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384 |
active files as a measure of software maintainability |
Schulte, L., Sajnani, H., Czerwonka, J. |
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385 |
active inductive logic programming for code search |
Sivaraman, A., Zhang, T., Van Den Broeck, G., Kim, M. |
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386 |
active refinement of clone anomaly reports |
Lucia, Lo, D., Jiang, L., Budi, A. |
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SCOPUS |
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387 |
active text for structuring and understanding source code |
Mössenböck, H., Koskimies, K. |
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388 |
activeaspect presenting crosscutting structure |
Coelho, W., Murphy, G.C. |
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389 |
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Reihane Boghrati, Abbas Heydarnoori, Majeed Kazemitabaar |
ACM |
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390 |
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Murali, R., Velayutham, C.S. |
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391 |
adaptive code learning for spark configuration tuning |
C. Lin; J. Zhuang; J. Feng; H. Li; X. Zhou; G. Li |
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IEEE |
SCOPUS |
❌ |
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392 |
adaptive problem selection in a mobile python tutor |
Fabic, G.V.F., Mitrovic, A., Neshatian, K. |
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SCOPUS |
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393 |
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Steensgaard-Madsen, J. |
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SCOPUS |
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394 |
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Tom Lieber, Joel R. Brandt, Rob C. Miller |
ACM |
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SCOPUS |
❌ |
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395 |
adgraph a graphbased approach to ad and tracker blocking |
Iqbal, U., Snyder, P., Zhu, S., Livshits, B., Qian, Z., Shafiq, Z. |
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396 |
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Efendy, L., Hashimoto, M., Hirota, T. |
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397 |
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Ito, H., Shimakawa, H., Harada, F. |
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398 |
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Desai, U., Sridhara, G., Tamilselvam, S. |
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399 |
advancing scientific computation by improving scientific code development symbolic execution and semantic analysis |
Stewart, M. |
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SCOPUS |
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400 |
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Ziyi Zhou, Huiqun Yu, Guisheng Fan |
ACM |
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401 |
advise weaving in énfasis |
Juárez-Martínez, U., Alor-Hernández, G. |
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402 |
agile parsing in txl |
Thomas R. Dean, James R. Cordy, Andrew J. Malton, Kevin A. Schneider |
ACM |
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SCOPUS |
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403 |
aheadoftime debugging, or programming not in the dark |
James L. Snell |
ACM |
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404 |
ai and the origins of the functional programming language style |
Priestley, M. |
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405 |
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Boyang Li, Christopher Vendome, Mario Linares-Vásquez, Denys Poshyvanyk |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
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406 |
aiding program comprehension by static and dynamic feature analysis |
Thomas Eisenbarth, Rainer Koschke, Daniel Simon |
ACM |
IEEE |
SCOPUS |
✔️ |
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407 |
algorithm for control dependence subgraph construction |
Duanzhi, C. |
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SCOPUS |
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408 |
algorithm of wordlattice parsing based on improved cykalgorithm |
Sun, Y., Zhou, L., He, Q., Gu, Y., Jia, L. |
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409 |
algorithm recognition based on demanddriven dataflow analysis |
Alias, C., Barthou, D. |
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SCOPUS |
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410 |
algorithm recognition by static analysis and its application in students submissions assessment |
Taherkhani, A., Malmi, L., Korhonen, A. |
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411 |
algorithm recognition for programming tutoring based on flow graph parsing |
Kim, S., Kim, J.H. |
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SCOPUS |
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412 |
algorithmic concept recognition support for automatic parallelization a case study on loop optimization and parallelization |
Di Martino, B. |
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SCOPUS |
❌ |
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413 |
algorithmic concept recognition support for skeleton based parallel programming |
Di Martino, B., Bonifacio, A. |
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SCOPUS |
❌ |
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414 |
algorithmic concept recognition to support high performance code reengineering |
Di Martino, B. |
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SCOPUS |
❌ |
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415 |
algorithmic verification of procedural programs in the presence of code variability |
Soleimanifard, S., Gurov, D. |
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SCOPUS |
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416 |
algorithms of data processing in the residual classes system |
Yanko, A., Koshman, S., Krasnobayev, V. |
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SCOPUS |
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417 |
alias annotations for program understanding |
Jonathan Aldrich, Valentin Kostadinov, Craig Chambers |
ACM |
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SCOPUS |
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❌ |
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418 |
all empirical study on limits of clone unification using generics |
Basit, H.A., Rajapakse, D.C., Jarzabek, S. |
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SCOPUS |
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❌ |
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419 |
alma versus ddd |
da Cruz, D., Henriques, P.R., João, M.V.P. |
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SCOPUS |
❌ |
❌ |
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420 |
almabte a solver of the space–time dependent boltzmann transport equation for phonons in structured materials |
Carrete, J., Vermeersch, B., Katre, A., van Roekeghem, A., Wang, T., Madsen, G.K.H., Mingo, N. |
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SCOPUS |
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421 |
alternatives to the knowledge discovery metamodel an investigation |
Arcelli Fontana, F., Raibulet, C., Zanoni, M. |
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SCOPUS |
❌ |
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422 |
amap automatically mining abbreviation expansions in programs to enhance software maintenance tools |
Emily Hill, Zachary P. Fry, Haley Boyd, Giriprasad Sridhara, Yana Novikova, Lori Pollock, K. Vijay-Shanker |
ACM |
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SCOPUS |
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❌ |
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423 |
ames approach to application understanding a case study |
Boldyreff, C., Burd, E.L., Hather, R.M., Mortimer, R.E., Munro, M., Younger, E.J. |
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SCOPUS |
❌ |
❌ |
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424 |
amorphous program slicing |
Mark Harman, David Binkley, Sebastian Danicic |
ACM |
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SCOPUS |
❌ |
❌ |
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425 |
an 8 year old educational robotics program structure, methodology and goals |
Da Rocha Neves Jr., O., Da Mota Alves, J.B., Ramos, J.J.G. |
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SCOPUS |
❌ |
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426 |
an abstract interpretation framework for termination |
Cousot, P., Cousot, R. |
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SCOPUS |
❌ |
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427 |
an adaptable and extensible code smell detection approach |
Jacob, T.P., Pravin, A., Rajakumar, R. |
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SCOPUS |
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❌ |
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428 |
an aggregated coupling measure for the analysis of objectoriented software systems |
Czibula, I.G., Czibula, G., Miholca, D.-L., Onet-Marian, Z. |
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SCOPUS |
✔️ |
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429 |
an agnostic and efficient approach to identifying features from execution traces |
Chun-Tung Li, Jiannong Cao, Chao Ma, Jiaxing Shen, Ka Ho Wong |
ACM |
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SCOPUS |
❌ |
❌ |
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430 |
an algebraic query method for static program analysis and measurement |
Ghanbari, H., Constantinides, C. |
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SCOPUS |
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431 |
an algorithm for computing loop functions |
Mili, A., Aharon, S., Nadkarni, C. |
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SCOPUS |
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432 |
an algorithm of program comprehension and visual representation for objectoriented program |
Gu, H., Lin, D. |
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SCOPUS |
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❌ |
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433 |
an algorithm of program structure adjustment base on interactive disassembly |
F. Tian; Y. Zhang; D. Ma |
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IEEE |
SCOPUS |
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❌ |
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434 |
an analysis of goal orientation pattern and selfefficacy for explanation of programming plans |
Chung-Cheng Tseng, Po-Yao Chao, K. Robert Lai |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
435 |
an analysis of machine learning algorithms for condensing reverse engineered class diagrams |
Mohd Hafeez Osman, Michel R. V. Chaudron, Peter van der Putten |
ACM |
IEEE |
SCOPUS |
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❌ |
❌ |
436 |
an analysis of some commercial pl/i programs |
J. L. Elshoff |
ACM |
IEEE |
SCOPUS |
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❌ |
❌ |
437 |
an analysis of the variability in forty preprocessorbased software product lines |
Liebig, J., Apel, S., Lengauer, C., Kästner, C., Schulze, M. |
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SCOPUS |
✔️ |
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438 |
an analysis scheme to interpret students cognitive process in error finding test |
Liu, L., Liu, W., Li, X., Xu, J., Cheng, W. |
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SCOPUS |
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439 |
an analytic framework for detailed resource profiling in large and parallel programs and its application for memory use |
Finkler, U. |
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SCOPUS |
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440 |
an android security case study with bauhaus |
Bernhard J. Berger, Michaela Bunke, Karsten Sohr |
ACM |
IEEE |
SCOPUS |
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❌ |
❌ |
441 |
an application of fuzzy reasoning to support automated program comprehension |
I. Burnstein, F. Saner |
ACM |
IEEE |
SCOPUS |
✔️ |
❌ |
❌ |
442 |
an application of latent dirichlet allocation to analyzing software evolution |
Linstead, E., Lopes, C., Baldi, P. |
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SCOPUS |
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❌ |
❌ |
443 |
an approach for detecting execution phases of a system for the purpose of program comprehension |
Heidar Pirzadeh, Akanksha Agarwal, Abdelwahab Hamou-Lhadj |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
444 |
an approach for evaluating and suggesting method names using ngram models |
Takayuki Suzuki, Kazunori Sakamoto, Fuyuki Ishikawa, Shinichi Honiden |
ACM |
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SCOPUS |
✔️ |
❌ |
❌ |
445 |
an approach for mapping features to code based on static and dynamic analysis |
Abhishek Rohatgi, Abdelwahab Hamou-Lhadj, Juergen Rilling |
ACM |
IEEE |
SCOPUS |
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❌ |
❌ |
446 |
an approach of concurrent objectoriented program slicing based on ltl property |
Zhang, G., Rong, M. |
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SCOPUS |
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❌ |
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447 |
an approach to animation of software specifications |
Sugihara, K., Takeda, K., Inaba, M. |
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SCOPUS |
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❌ |
❌ |
448 |
an approach to automatically assess method names |
R. S. Alsuhaibani; C. D. Newman; M. J. Decker; M. L. Collard; J. I. Maletic |
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IEEE |
SCOPUS |
✔️ |
❌ |
❌ |
449 |
an approach to helping developers learn open source projects based on machine learning |
Zhiyu Sun, Fang Peng, Junrui Guan, Yanchun Sun |
ACM |
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SCOPUS |
❌ |
❌ |
❌ |
450 |
an approach to limit the wynot problem |
G. Antoniol, A. Cimitile, M. Tortorella, G. Casazza |
ACM |
|
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❌ |
❌ |
❌ |
451 |
an approach to predict software maintenance cost based on ripple complexity |
Hirota, T., Tohki, M., Overstreet, C.M., Hashimoto, M., Cherinka, R. |
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SCOPUS |
❌ |
❌ |
❌ |
452 |
an approach to program understanding by natural language understanding |
Letha H. Etzkorn, Lisa L. Bowen, Carl G. Davis |
ACM |
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SCOPUS |
✔️ |
❌ |
❌ |
453 |
an approach to understanding program comprehensibility using spatial complexity, concept assignment and typographical style |
Andrew Mohan, Nicolas Gold, Paul Layzell |
ACM |
IEEE |
SCOPUS |
✔️ |
❌ |
❌ |
454 |
an ar/tuisupported debugging teaching environment |
Resnyansky, D., Billinghurst, M., Dey, A. |
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SCOPUS |
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❌ |
455 |
an architecture for enforcing javascript randomization in web2.0 applications |
Athanasopoulos, E., Krithinakis, A., Markatos, E.P. |
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SCOPUS |
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❌ |
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456 |
an architecture for interoperable program understanding tools |
S. Woods, L. O'Brien, T. Lin, K. Gallagher, A. Quilici |
ACM |
IEEE |
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❌ |
❌ |
457 |
an argument in favor of mechanized software production |
G. -C. Roman |
ACM |
IEEE |
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❌ |
❌ |
458 |
an assessment methodology for trace reduction techniques |
Cornelissen, B., Moonen, L., Zaidman, A. |
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SCOPUS |
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❌ |
459 |
an automated approach for constructing framework instantiation documentation |
De Queiroz Lafetá, R.F., De Queiroz Lafetá, T.F., De Almeida Maia, M. |
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SCOPUS |
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460 |
an automated approach for noise identification to assist software architecture recovery techniques |
Constantinou, E., Kakarontzas, G., Stamelos, I. |
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SCOPUS |
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461 |
an automated assessment system for analysis of coding convention violations in java programming assignments* |
Chen, H.-M., Chen, W.-H., Lee, C.-C. |
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SCOPUS |
❌ |
❌ |
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462 |
an automated procedure for identifying poorly documented object oriented software components |
Parag C. Pendharkar |
ACM |
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SCOPUS |
❌ |
❌ |
❌ |
463 |
an automatic assistant for program understanding |
V. Gafni |
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IEEE |
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✔️ |
❌ |
❌ |
464 |
an automatic interprocedural analysis for the understanding of scientific application programs |
Blazy, S., Facon, P. |
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SCOPUS |
✔️ |
❌ |
❌ |
465 |
an automatical and efficient image classification based on improved genetic programming |
Yang, L., He, F., Dai, L., Zhang, L. |
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SCOPUS |
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❌ |
❌ |
466 |
an automaton decomposition method for program structure simplification |
Hirakawa, Y., Okada, K. |
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SCOPUS |
❌ |
❌ |
❌ |
467 |
an early investigation on the contribution of class and sequence diagrams in source code comprehension |
Giuseppe Scanniello, Carmine Gravino, Genoveffa Tortora |
ACM |
IEEE |
SCOPUS |
✔️ |
❌ |
❌ |
468 |
an eclipse based environment to define and execute processes with application to the reverse engineering |
De Lucia, A., Fasano, F., Risi, M., Scanniello, G. |
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SCOPUS |
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❌ |
❌ |
469 |
an eclipse plugin for the automated reverseengineering of software programs |
Philippe Dugerdil, David Kony, Javier Belmonte |
ACM |
IEEE |
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❌ |
❌ |
470 |
an effective tool for optimizing the number of test paths in data flow testing for anomaly detection |
Prabu, M., Narasimhan, D., Raghuram, S. |
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SCOPUS |
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471 |
an efficient algorithm for computing mhp information for concurrent java programs |
Naumovich, G., Avrunin, G.S., Clarke, L.A. |
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SCOPUS |
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472 |
an efficient approach to mine high utility path patterns from software executing traces |
Ren, J., Zhou, Y., Wang, J., Xu, C., Yue, L. |
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SCOPUS |
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❌ |
❌ |
473 |
an efficient code structure and search strategy for stochastic coding at 8 kb/s |
D. E. Veeneman; B. Mazor |
|
IEEE |
SCOPUS |
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❌ |
❌ |
474 |
an efficient code structure of block coded modulations with iterative viterbi decoding algorithm |
H. -B. Li; R. Kohno |
|
IEEE |
SCOPUS |
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❌ |
❌ |
475 |
an efficient joint dynamic detection technique for wireless transmission of jpeg2000 encoded images |
Hu, Y., Boukerche, A., Pazzi, R.W.N. |
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SCOPUS |
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❌ |
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476 |
an efficient ldpc code structure combined with the concept of difference family |
Yuan-Jih Chu, Sau-Gee Chen |
ACM |
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SCOPUS |
❌ |
❌ |
❌ |
477 |
an efficient variablenode xfem for modeling multiple crack growth a matlab objectoriented implementation |
Ding, J., Yu, T., Yang, Y., Bui, T.Q. |
|
|
SCOPUS |
❌ |
❌ |
❌ |
478 |
an empirical analysis of c preprocessor use |
Michael D. Ernst, Greg J. Badros, David Notkin |
ACM |
|
SCOPUS |
❌ |
❌ |
❌ |
479 |
an empirical analysis of the distribution of unit test smells and their impact on software maintenance |
Bavota, G., Qusef, A., Oliveto, R., De Lucia, A., Binkley, D. |
|
|
SCOPUS |
❌ |
❌ |
❌ |
480 |
an empirical comparison of java and c# programs in following naming conventions |
Shouki A. Ebad, Danish Manzoor |
ACM |
|
|
✔️ |
❌ |
❌ |
481 |
an empirical comparison of techniques for extracting concept abbreviations from identifiers |
Feild, H., Binkley, D., Lawrie, D. |
|
|
SCOPUS |
✔️ |
❌ |
❌ |
482 |
an empirical comparison of textual and graphical data structure documentation for cobol programs |
J. A. Lehman |
ACM |
|
|
❌ |
❌ |
❌ |
483 |
an empirical evaluation of dependence analysis in parallel program comprehension |
Douglas M. Monk |
ACM |
|
|
❌ |
❌ |
❌ |
484 |
an empirical evaluation of highlevel synthesis languages and tools for database acceleration |
Arcas-Abella, O., Ndu, G., Sonmez, N., Ghasempour, M., Armejach, A., Navaridas, J., Song, W., Mawer, J., Cristal, A., Lujan, M. |
|
|
SCOPUS |
❌ |
❌ |
❌ |
485 |
an empirical evaluation of machine learning techniques to classify code comprehension based on eeg data |
Lucian José Gonçales, Kleinner Farias, Lucas Silveira Kupssinskü, Matheus Segalotto |
ACM |
|
SCOPUS |
❌ |
❌ |
❌ |
486 |
an empirical exploration of regularities in opensource software lexicons |
Pierret, D., Poshyvanyk, D. |
|
|
SCOPUS |
✔️ |
❌ |
❌ |
487 |
an empirical investigation into the design of auditory cues to enhance computer program comprehension |
Stefik, A., Hundhausen, C., Patterson, R. |
|
|
SCOPUS |
✔️ |
❌ |
❌ |
488 |
an empirical investigation of how and why developers rename identifiers |
Anthony Peruma, Mohamed Wiem Mkaouer, Michael J. Decker, Christian D. Newman |
ACM |
|
SCOPUS |
✔️ |
❌ |
❌ |
489 |
an empirical investigation of the influence of a type of side effects on program comprehension |
J. J. Dolado, M. Harman, M. C. Otero, L. Hu |
ACM |
IEEE |
SCOPUS |
✔️ |
❌ |
❌ |
490 |
an empirical investigation on the relation between analysis models and source code comprehension |
Carmine Gravino, Genoveffa Tortora, Giuseppe Scanniello |
ACM |
|
SCOPUS |
✔️ |
❌ |
❌ |
491 |
an empirical study assessing source code readability in comprehension |
J. Johnson; S. Lubo; N. Yedla; J. Aponte; B. Sharif |
|
IEEE |
SCOPUS |
✔️ |
❌ |
❌ |
492 |
an empirical study in software verification tools |
Jiang, M., Li, X., Xie, X., Zhang, Y. |
|
|
SCOPUS |
❌ |
❌ |
❌ |
493 |
an empirical study of abbreviations and expansions in software artifacts |
C. D. Newman; M. J. Decker; R. S. Alsuhaibani; A. Peruma; D. Kaushik; E. Hill |
|
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
494 |
an empirical study of amorphous slicing as a program comprehension support tool |
David Binkley, L. Ross Raszewski, Christopher Smith, Mark Harman |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
495 |
an empirical study of blindness and program comprehension |
Ameer Armaly, Collin McMillan |
ACM |
IEEE |
SCOPUS |
❌ |
❌ |
❌ |
496 |
an empirical study of identifier splitting techniques |
Emily Hill, David Binkley, Dawn Lawrie, Lori Pollock, K. Vijay-Shanker |
ACM |
|
SCOPUS |
✔️ |
❌ |
❌ |
497 |
an empirical study of method chaining in java |
Nakamaru, T., Matsunaga, T., Yamazaki, T., Akiyama, S., Chiba, S. |
|
|
SCOPUS |
❌ |
❌ |
❌ |
498 |
an empirical study of novice program comprehension in the imperative and objectoriented styles |
Vennila Ramalingam, Susan Wiedenbeck |
ACM |
|
SCOPUS |
✔️ |
❌ |
❌ |
499 |
an empirical study of static call graph extractors |
Gail C. Murphy, David Notkin, Erica S.-C. Lan |
ACM |
|
|
❌ |
❌ |
❌ |
500 |
an empirical study of the effect of semantic differences on programmer comprehension |
David Binkley |
ACM |
|
SCOPUS |
✔️ |
❌ |
❌ |