Stem comprehend$ (all stems)

24 papers:

ICSME-2015-NittaM #abstraction #why

Delta extraction: An abstraction technique to comprehend why two objects could be related (NN, TM), pp. 61–70.

MoDELS-2014-Reinhartz-BergerFH #feature model #modelling

Comprehending Feature Models Expressed in CVL (IRB, KF, ØH), pp. 501–517.

ASPLOS-2014-YuHZX #execution #performance

Comprehending performance from real-world execution traces: a device-driver case (XY, SH, DZ, TX), pp. 193–206.

VISSOFT-2013-FittkauWWH #approach #scalability #visualisation

Live trace visualization for comprehending large software landscapes: The ExplorViz approach (FF, JW, CW, WH), pp. 1–4.

ICSE-2012-RoehmTKM #developer #how #question

How do professional developers comprehend software? (TR, RT, RK, WM), pp. 255–265.

ICPC-2010-AmouiLOT #adaptation #metamodelling #towards

Towards Developing a Meta-model for Comprehending Software Adaptability (MA, SL, EAOJ, LT), pp. 56–57.

KDD-2010-SundaravaradanHSSVHR #biology #modelling

Extracting temporal signatures for comprehending systems biology models (NS, KSMTH, VS, DJS, JPCV, LSH, NR), pp. 453–462.

ICSE-2010-WuYR #dependence

Comprehending module dependencies and sharing (YW, RHCY, RR), pp. 89–98.

PPDP-2008-ChitilD #algorithm #debugging #finite #functional #higher-order #source code

Comprehending finite maps for algorithmic debugging of higher-order functional programs (OC, TD), pp. 205–216.

ICPC-2007-LuccaSFSH #aspect-oriented #challenge #roadmap #source code

Comprehending Aspect-Oriented Programs: Challenges and Open Issues (GADL, MS, BF, ES, HJH), pp. 286–292.

HIMI-IIE-2007-VuCGCSNPP #how #policy #privacy

How Users Read and Comprehend Privacy Policies (KPLV, VC, FPG, BC, JS, DN, RP, RWP), pp. 802–811.

CSMR-2006-SalahMAP #dynamic analysis #scalability

Scenario-Driven Dynamic Analysis for Comprehending Large Software Systems (MS, SM, GA, MDP), pp. 71–80.

ICSM-2005-SalahMAP #dynamic analysis #towards

Towards Employing Use-Cases and Dynamic Analysis to Comprehend Mozilla (MS, SM, GA, MDP), pp. 639–642.

IWPC-2003-Cordy03a #automation #industrial #maintenance

Comprehending Reality — Practical Barriers to Industrial Adoption of Software Maintenance Automation (JRC), pp. 196–206.

IWPC-2003-HopfnerSG #graph #visualisation #xml

Comprehending and Visualizing Software Based on XML — Representations and Call Graphs (MH, DS, JWvG), pp. 290–291.

WCRE-2003-SalahM #distributed #towards

Toward an environment for comprehending distributed systems (MS, SM), pp. 238–247.

IWPC-2002-LuccaFPTC #approach #clustering #web

Comprehending Web Applications by a Clustering Based Approach (GADL, ARF, FP, PT, UdC), pp. 261–270.

IWPC-2000-Gallagher #comprehension #tool support

Tools for Program Comprehension: Building a Comprehender’s Workbench (KBG), p. 255.

IWPC-2000-Mittermeir #distance

Comprehending by varying Focal Distance (RM), pp. 3–4.

CSMR-1999-KrikhaarPZ #resource management

Employing Use-cases and Domain Knowledge for Comprehending Resource Usage (RLK, MP, JZ), pp. 14–21.

IWPC-1999-SneedD #distributed #object-oriented

Comprehending a Complex, Distributed, Object-Oriented Software System a Report from the Field (HMS, TD), pp. 218–225.

ICSE-1991-FischerHR #reuse #tool support

Cognitive tools for locating and comprehending software objects for reuse (GF, SH, DFR), pp. 318–328.

LFP-1990-Wadler #monad

Comprehending Monads (PW), pp. 61–78.

HT-1987-Charney

Comprehending Non-Linear Text: The Role of Discourse Cues and Reading Strategies (DC), pp. 109–120.