Abstract is missing.
- Aspect-oriented application-level scheduling for J2EE serversKenichi Kourai, Hideaki Hibino, Shigeru Chiba. 1-13 [doi]
- Framework specialization aspectsAndré L. Santos, Antónia Lopes, Kai Koskimies. 14-24 [doi]
- An aspect-oriented approach to bypassing middleware layersÖmer Erdem Demir, Premkumar T. Devanbu, Eric Wohlstadter, Stefan Tai. 25-35 [doi]
- Semantics-based composition for aspect-oriented requirements engineeringRuzanna Chitchyan, Awais Rashid, Paul Rayson, Robert Waters. 36-48 [doi]
- From aspect-oriented design to aspect-oriented programs: tool-supported translation of JPDDs into codeStefan Hanenberg, Dominik Stein, Rainer Unland. 49-62 [doi]
- A static aspect language for checking design rulesClint Morgan, Kris De Volder, Eric Wohlstadter. 63-72 [doi]
- Expressive programs through presentation extensionAndrew David Eisenberg, Gregor Kiczales. 73-84 [doi]
- A graph-based approach to modeling and detecting composition conflicts related to introductionsWilke Havinga, István Nagy, Lodewijk Bergmans, Mehmet Aksit. 85-95 [doi]
- Debugging with control-flow breakpointsRick Chern, Kris De Volder. 96-106 [doi]
- Open bisimulation for aspectsRadha Jagadeesan, Corin Pitcher, James Riely. 107-120 [doi]
- Tribe: a simple virtual class calculusDave Clarke, Sophia Drossopoulou, James Noble, Tobias Wrigstad. 121-134 [doi]
- Fully abstract semantics of additive aspects by translationS. B. Sanjabi, C.-H. Luke Ong. 135-148 [doi]
- Conservative aspect-orientated programming with the ::::e:::: languageMatan Vax. 149-160 [doi]
- SCoPE: an AspectJ compiler for supporting user-defined analysis-based pointcutsTomoyuki Aotani, Hidehiko Masuhara. 161-172 [doi]
- Declarative failure recovery for sensor networksRamakrishna Gummadi, Nupur Kothari, Todd D. Millstein, Ramesh Govindan. 173-184 [doi]
- cJ: enhancing java with safe type conditionsShan Shan Huang, David Zook, Yannis Smaragdakis. 185-198 [doi]
- Simple crosscutting concerns are not so simple: analysing variability in large-scale idioms-based implementationsMagiel Bruntink, Arie van Deursen, Maja D'Hondt, Tom Tourwé. 199-211 [doi]
- Using natural language program analysis to locate and understand action-oriented concernsDavid Shepherd, Zachary P. Fry, Emily Hill, Lori L. Pollock, K. Vijay-Shanker. 212-224 [doi]
- Efficiently mining crosscutting concerns through random walksCharles Zhang, Hans-Arno Jacobsen. 226-238 [doi]