Table of Contents

• Towards recovering and maintaining trace links for model sketches across interactive displaysMarkus Kleffmann, Matthias Book, Volker Gruhn. [doi]
• Why innovation processes need to support traceabilityThomas Beyhl, Gregor Berg, Holger Giese. 1-4 [doi]
• Decision-Centric Traceability of architectural concernsJane Cleland-Huang, Mehdi Mirakhorli, Adam Czauderna, Mateusz Wieloch. 5-11 [doi]
• Getting more from requirements traceability: Requirements testing progressCelal Ziftci, Ingolf Krüger. 12-18 [doi]
• Using traceability links to identifying potentially erroneous artifacts during regulatory reviewsWuwei Shen, Chung-Ling Ling, Andrian Marcus. 19-22 [doi]
• Ontology-based trace retrievalYonghua Li, Jane Cleland-Huang. 30-36 [doi]
• Human recoverability index: A TraceLab experimentAlex Dekhtyar, Michael Hilton. 37-43 [doi]
• Trace Matrix Analyzer (TMA)Wenbin Li, Jane Huffman Hayes, Fan Yang, Ken Imai, Jesse Yannelli, Chase Carnes, Maureen Doyle. 44-50 [doi]
• Towards an eye-tracking enabled IDE for software traceability tasksBraden Walters, Michael Falcone, Alexander Shibble, Bonita Sharif. 51-54 [doi]
• Backward propagation of code refinements on transformational code generation environmentsVictor Guana, Eleni Stroulia. 55-60 [doi]
• REquirements TRacing On target (RETRO) enhanced with an automated thesaurus builder: An empirical studySandeep Pandanaboyana, Shreeram Sridharan, Jesse Yannelli, Jane Huffman Hayes. 61-67 [doi]
• Establishing content traceability for software applications: An approach based on structuring and tracking of configuration elementsPadmalata Nistala, Priyanka Kumari. 68-71 [doi]
• Enabling traceability reuse for impact analyses: A feasibility study in a safety contextMarkus Borg, Orlena Gotel, Krzysztof Wnuk. 72-78 [doi]
• A tracelab-based solution for identifying traceability links using LSINouh Alhindawi, Omar Meqdadi, Brian Bartman, Jonathan I. Maletic. 79-82 [doi]
• The role of artefact corpus in LSI-based traceability recoveryGabriele Bavota, Andrea De Lucia, Rocco Oliveto, Annibale Panichella, Fabio Ricci, Genoveffa Tortora. 83-89 [doi]
• Traceability Challenge 2013: Statistical analysis for traceability experiments: Software verification and validation research laboratory (SVVRL) of the University of KentuckyMark Hays, Jane Huffman Hayes, Arnold J. Stromberg, Arne C. Bathke. 90-94 [doi]
• Traceability Challenge 2013: Query+ enhancement for semantic tracing (QuEST): Software verification and validation research laboratory (SVVRL) of the University of KentuckyWenbin Li, Jane Huffman Hayes. 95-99 [doi]
• Towards feature-aware retrieval of refinement tracesPatrick Rempel, Patrick Mäder, Tobias Kuschke. 100-104 [doi]
• Configuring topic models for software engineering tasks in TraceLabBogdan Dit, Annibale Panichella, Evan Moritz, Rocco Oliveto, Massimiliano Di Penta, Denys Poshyvanyk, Andrea De Lucia. 105-109 [doi]
• Trace-by-classification: A machine learning approach to generate trace links for frequently occurring software artifactsMateusz Wieloch, Sorawit Amornborvornwong, Jane Cleland-Huang. 110-114 [doi]