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Patrick Mäder
Patrick Maeder
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- affiliation (PhD 2009): TU Ilmenau, Institute for Computer and Systems Engineering, Germany
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2020 – today
- 2024
- [j34]Julian Brückner, Maximilian Rohe, Dominik Walther, Jörg Hildebrand, Jean Pierre Bergmann, Patrick Mäder:
Detektion von Prozessunregelmäßigkeiten beim MSG-Schweißen durch Analyse des Luftschallsignals mittels Convolutional Neural Network (CNN). Autom. 72(10): 991-1001 (2024) - [j33]Mihaela Todorova Tomova, Martin Hofmann, Constantin Hütterer, Patrick Mäder:
Assessing the utility of text-to-SQL approaches for satisfying software developer information needs. Empir. Softw. Eng. 29(1): 15 (2024) - [c76]Amin Abouee, Ashwanth Ravi, Lars Hinneburg, Mateusz Dziwulski, Florian Ölsner, Jürgen Hess, Stefan Milz, Patrick Mäder:
Weakly Supervised End2End Deep Visual Odometry. CVPR Workshops 2024: 858-865 - [c75]Marius Schlegel
, Daniel Scheliga, Kai-Uwe Sattler, Marco Seeland, Patrick Mäder:
Collaboration Management for Federated Learning. ICDEW 2024: 291-300 - [c74]Kai Fischer, Martin Simon, Stefan Milz, Patrick Mäder:
MagneticPillars: Efficient Point Cloud Registration through Hierarchized Birds-Eye-View Cell Correspondence Refinement. WACV 2024: 7371-7380 - [i24]Johannes Viehweg, Dominik Walther, Patrick Mäder:
Temporal Convolution Derived Multi-Layered Reservoir Computing. CoRR abs/2407.06771 (2024) - 2023
- [j32]Dominik Walther, Johannes Viehweg, Jens Haueisen, Patrick Mäder:
A systematic comparison of deep learning methods for EEG time series analysis. Frontiers Neuroinformatics 17 (2023) - [j31]Johannes Viehweg, Karl Worthmann
Parameterizing echo state networks for multi-step time series prediction. Neurocomputing 522: 214-228 (2023) - [j30]Mario Janke
${\text{FS}^{3}}_{\text{change}}$FS3change: A Scalable Method for Change Pattern Mining. IEEE Trans. Software Eng. 49(6): 3616-3629 (2023) - [c73]Daniel Scheliga, Patrick Maeder, Marco Seeland:
Dropout Is NOT All You Need to Prevent Gradient Leakage. AAAI 2023: 9733-9741 - [c72]Tim Sonnekalb, Christopher-Tobias Knaust, Bernd Gruner
A Static Analysis Platform for Investigating Security Trends in Repositories. SVM 2023: 1-5 - [i23]Tim Sonnekalb, Christopher-Tobias Knaust, Bernd Gruner, Clemens-Alexander Brust, Lynn von Kurnatowski, Andreas Schreiber, Thomas S. Heinze, Patrick Mäder:
A Static Analysis Platform for Investigating Security Trends in Repositories. CoRR abs/2304.01725 (2023) - [i22]Sambit Mohapatra, Senthil Kumar Yogamani, Varun Ravi Kumar, Stefan Milz, Heinrich Gotzig, Patrick Mäder:
LiDAR-BEVMTN: Real-Time LiDAR Bird's-Eye View Multi-Task Perception Network for Autonomous Driving. CoRR abs/2307.08850 (2023) - [i21]Daniel Scheliga, Patrick Mäder, Marco Seeland:
Privacy Preserving Federated Learning with Convolutional Variational Bottlenecks. CoRR abs/2309.04515 (2023) - 2022
- [j29]Tim Sonnekalb
Deep security analysis of program code. Empir. Softw. Eng. 27(1): 2 (2022) - [j28]Hui Gao
Propagating frugal user feedback through closeness of code dependencies to improve IR-based traceability recovery. Empir. Softw. Eng. 27(2): 41 (2022) - [j27]Varun Ravi Kumar
SVDistNet: Self-Supervised Near-Field Distance Estimation on Surround View Fisheye Cameras. IEEE Trans. Intell. Transp. Syst. 23(8): 10252-10261 (2022) - [j26]Philipp Teutsch, Patrick Mäder:
Flipped Classroom: Effective Teaching for Time Series Forecasting. Trans. Mach. Learn. Res. 2022 (2022) - [j25]Martin Hofmann
Synaptic Scaling - An Artificial Neural Network Regularization Inspired by Nature. IEEE Trans. Neural Networks Learn. Syst. 33(7): 3094-3108 (2022) - [j24]Mario Janke
Graph Based Mining of Code Change Patterns From Version Control Commits. IEEE Trans. Software Eng. 48(3): 848-863 (2022) - [c71]Sambit Mohapatra, Thomas Mesquida, Mona Hodaei, Senthil Kumar Yogamani, Heinrich Gotzig, Patrick Maeder:
SpikiLi: A Spiking Simulation of LiDAR based Real-time Object Detection for Autonomous Driving. EBCCSP 2022: 1-5 - [c70]Hui Gao
Using Consensual Biterms from Text Structures of Requirements and Code to Improve IR-Based Traceability Recovery. ASE 2022: 114:1 - [c69]Tim Sonnekalb
Generalizability of Code Clone Detection on CodeBERT. ASE 2022: 143:1-143:3 - [c68]Sambit Mohapatra, Mona Hodaei, Senthil Kumar Yogamani, Stefan Milz, Heinrich Gotzig, Martin Simon, Hazem Rashed, Patrick Maeder:
LiMoSeg: Real-time Bird's Eye View based LiDAR Motion Segmentation. VISIGRAPP (5: VISAPP) 2022: 828-835 - [c67]Kai Fischer, Martin Simon, Stefan Milz, Patrick Mäder:
StickyLocalization: Robust End-To-End Relocalization on Point Clouds using Graph Neural Networks. WACV 2022: 307-316 - [c66]Daniel Scheliga, Patrick Mäder, Marco Seeland:
PRECODE - A Generic Model Extension to Prevent Deep Gradient Leakage. WACV 2022: 3605-3614 - [i20]Mohamed Shawki Elamir, Heinrich Gotzig, Raoul Zoellner, Patrick Maeder:
A deep learning approach for direction of arrival estimation using automotive-grade ultrasonic sensors. CoRR abs/2202.12684 (2022) - [i19]Sandeep Pandey, Philipp Teutsch, Patrick Mäder, Jörg Schumacher:
Direct data-driven forecast of local turbulent heat flux in Rayleigh-Bénard convection. CoRR abs/2202.13129 (2022) - [i18]Sambit Mohapatra, Thomas Mesquida, Mona Hodaei, Senthil Kumar Yogamani, Heinrich Gotzig, Patrick Mäder:
SpikiLi: A Spiking Simulation of LiDAR based Real-time Object Detection for Autonomous Driving. CoRR abs/2206.02876 (2022) - [i17]Johan Linåker, Patrick Rempel, Björn Regnell, Patrick Mäder:
How Firms Adapt and Interact in Open Source Ecosystems: Analyzing Stakeholder Influence and Collaboration Patterns. CoRR abs/2208.02628 (2022) - [i16]Daniel Scheliga, Patrick Mäder, Marco Seeland:
Combining Variational Modeling with Partial Gradient Perturbation to Prevent Deep Gradient Leakage. CoRR abs/2208.04767 (2022) - [i15]Daniel Scheliga, Patrick Mäder, Marco Seeland:
Dropout is NOT All You Need to Prevent Gradient Leakage. CoRR abs/2208.06163 (2022) - [i14]Tim Sonnekalb, Bernd Gruner, Clemens-Alexander Brust, Patrick Mäder:
Generalizability of Code Clone Detection on CodeBERT. CoRR abs/2208.12588 (2022) - [i13]Hui Gao, Hongyu Kuang
Using Consensual Biterms from Text Structures of Requirements and Code to Improve IR-Based Traceability Recovery. CoRR abs/2209.01734 (2022) - [i12]Philipp Teutsch, Patrick Mäder:
Flipped Classroom: Effective Teaching for Time Series Forecasting. CoRR abs/2210.08959 (2022) - 2021
- [j23]Varun Ravi Kumar
OmniDet: Surround View Cameras Based Multi-Task Visual Perception Network for Autonomous Driving. IEEE Robotics Autom. Lett. 6(2): 2830-2837 (2021) - [j22]Patrick Mäder
Reactive Auto-Completion of Modeling Activities. IEEE Trans. Software Eng. 47(7): 1431-1451 (2021) - [c65]Martin Rabe, Stefan Milz, Patrick Mäder:
Development Methodologies for Safety Critical Machine Learning Applications in the Automotive Domain: A Survey. CVPR Workshops 2021: 129-141 - [c64]Kai Fischer, Martin Simon, Florian Ölsner, Stefan Milz, Horst-Michael Gross, Patrick Mäder:
StickyPillars: Robust and Efficient Feature Matching on Point Clouds Using Graph Neural Networks. CVPR 2021: 313-323 - [c63]Varun Ravi Kumar, Senthil Kumar Yogamani, Stefan Milz, Patrick Mäder:
FisheyeDistanceNet++: Self-Supervised Fisheye Distance Estimation with Self-Attention, Robust Loss Function and Camera View Generalization. Autonomous Vehicles and Machines 2021: 1-11 - [c62]Sambit Mohapatra, Senthil Kumar Yogamani, Heinrich Gotzig, Stefan Milz, Patrick Mäder:
BEVDetNet: Bird's Eye View LiDAR Point Cloud based Real-time 3D Object Detection for Autonomous Driving. ITSC 2021: 2809-2815 - [c61]Varun Ravi Kumar, Marvin Klingner, Senthil Kumar Yogamani, Stefan Milz, Tim Fingscheidt
SynDistNet: Self-Supervised Monocular Fisheye Camera Distance Estimation Synergized with Semantic Segmentation for Autonomous Driving. WACV 2021: 61-71 - [i11]Varun Ravi Kumar, Senthil Kumar Yogamani, Hazem Rashed, Ganesh Sistu, Christian Witt, Isabelle Leang, Stefan Milz, Patrick Mäder:
OmniDet: Surround View Cameras based Multi-task Visual Perception Network for Autonomous Driving. CoRR abs/2102.07448 (2021) - [i10]Varun Ravi Kumar, Marvin Klingner, Senthil Kumar Yogamani, Markus Bach, Stefan Milz, Tim Fingscheidt, Patrick Mäder:
SVDistNet: Self-Supervised Near-Field Distance Estimation on Surround View Fisheye Cameras. CoRR abs/2104.04420 (2021) - [i9]Sambit Mohapatra, Senthil Kumar Yogamani, Heinrich Gotzig, Stefan Milz, Patrick Mäder:
BEVDetNet: Bird's Eye View LiDAR Point Cloud based Real-time 3D Object Detection for Autonomous Driving. CoRR abs/2104.10780 (2021) - [i8]Daniel Scheliga, Patrick Mäder, Marco Seeland:
PRECODE - A Generic Model Extension to Prevent Deep Gradient Leakage. CoRR abs/2108.04725 (2021) - [i7]Sambit Mohapatra, Mona Hodaei, Senthil Kumar Yogamani, Stefan Milz, Patrick Maeder, Heinrich Gotzig, Martin Simon, Hazem Rashed:
LiMoSeg: Real-time Bird's Eye View based LiDAR Motion Segmentation. CoRR abs/2111.04875 (2021) - 2020
- [j21]David Boho, Michael Rzanny
Flora Capture: a citizen science application for collecting structured plant observations. BMC Bioinform. 21(1): 576 (2020) - [j20]Tim Sonnekalb, Thomas S. Heinze, Patrick Mäder:
Erste Überlegungen zur Erklärbarkeit von Deep-Learning-Modellen für die Analyse von Quellcode. Softwaretechnik-Trends 40(2): 39-40 (2020) - [c60]Varun Ravi Kumar, Sandesh Athni Hiremath
FisheyeDistanceNet: Self-Supervised Scale-Aware Distance Estimation using Monocular Fisheye Camera for Autonomous Driving. ICRA 2020: 574-581 - [c59]Varun Ravi Kumar, Senthil Kumar Yogamani, Markus Bach, Christian Witt, Stefan Milz, Patrick Mäder:
UnRectDepthNet: Self-Supervised Monocular Depth Estimation using a Generic Framework for Handling Common Camera Distortion Models. IROS 2020: 8177-8183 - [c58]Michael Rath, Patrick Mäder:
Request for comments: conversation patterns in issue tracking systems of open-source projects. SAC 2020: 1414-1417 - [c57]Michael Rath, Mihaela Todorova Tomova, Patrick Mäder:
SpojitR: Intelligently Link Development Artifacts. SANER 2020: 652-656 - [i6]Varun Ravi Kumar, Senthil Kumar Yogamani, Markus Bach, Christian Witt, Stefan Milz, Patrick Mäder:
UnRectDepthNet: Self-Supervised Monocular Depth Estimation using a Generic Framework for Handling Common Camera Distortion Models. CoRR abs/2007.06676 (2020) - [i5]Varun Ravi Kumar, Marvin Klingner, Senthil Kumar Yogamani, Stefan Milz, Tim Fingscheidt, Patrick Maeder:
SynDistNet: Self-Supervised Monocular Fisheye Camera Distance Estimation Synergized with Semantic Segmentation for Autonomous Driving. CoRR abs/2008.04017 (2020)
2010 – 2019
- 2019
- [j19]Marco Seeland
Image-based classification of plant genus and family for trained and untrained plant species. BMC Bioinform. 20(1): 4:1-4:13 (2019) - [j18]Martin Hofmann
Efficiently Annotating Object Images with Absolute Size Information Using Mobile Devices. Int. J. Comput. Vis. 127(2): 207-224 (2019) - [j17]Michael Rath
Structured information in bug report descriptions - influence on IR-based bug localization and developers. Softw. Qual. J. 27(3): 1315-1337 (2019) - [c56]Hongyu Kuang
Using frugal user feedback with closeness analysis on code to improve IR-based traceability recovery. ICPC 2019: 369-379 - [c55]Michael Rath
Selecting Open Source Projects for Traceability Case Studies. REFSQ 2019: 229-242 - [c54]Paola Spoletini, Patrick Mäder:
Preface. REFSQ Workshops 2019 - [c53]Michael Rath, Jacob Rendall, Jin L. C. Guo, Jane Cleland-Huang, Patrick Mäder:
Traceability in the Wild: Automatically Augmenting Incomplete Trace Links. SE/SWM 2019: 63 - [c52]Mohamed-Elamir Mohamed, Heinrich Gotzig, Raoul Zoellner, Patrick Maeder:
A Machine Learning Approach for Detecting Ultrasonic Echoes in Noisy Environments. VTC Spring 2019: 1-6 - [e4]Paola Spoletini, Patrick Mäder, Daniel M. Berry, Fabiano Dalpiaz, Maya Daneva, Alessio Ferrari, Xavier Franch, Sarah Gregory, Eduard C. Groen, Andrea Herrmann, Anne Hess, Frank Houdek, Oliver Karras, Anne Koziolek, Kim Lauenroth, Cristina Palomares, Mehrdad Sabetzadeh, Norbert Seyff, Marcus Trapp, Andreas Vogelsang, Thorsten Weyer:
Joint Proceedings of REFSQ-2019 Workshops, Doctoral Symposium, Live Studies Track, and Poster Track co-located with the 25th International Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2019), Essen, Germany, March 18th, 2019. CEUR Workshop Proceedings 2376, CEUR-WS.org 2019 [contents] - [i4]Varun Ravi Kumar, Sandesh Athni Hiremath, Stefan Milz, Christian Witt, Clément Pinard, Senthil Kumar Yogamani, Patrick Mäder:
FisheyeDistanceNet: Self-Supervised Scale-Aware Distance Estimation using Monocular Fisheye Camera for Autonomous Driving. CoRR abs/1910.04076 (2019) - 2018
- [j16]Hans Christian Wittich, Marco Seeland, Jana Wäldchen, Michael Rzanny
Recommending plant taxa for supporting on-site species identification. BMC Bioinform. 19(1): 190:1-190:17 (2018) - [j15]Jana Wäldchen
Automated plant species identification - Trends and future directions. PLoS Comput. Biol. 14(4) (2018) - [j14]Michael Rath, Maksim Goman, Patrick Mäder:
State of the Art of Traceability in Open-Source Projects. Softwaretechnik-Trends 38(1): 8-11 (2018) - [j13]Mihaela Todorova Tomova, Michael Rath, Patrick Mäder:
Preprocessing Texts in Issue Tracking Systems to improve IR Techniques for Trace Creation. Softwaretechnik-Trends 38(1): 17-20 (2018) - [j12]Maksim Goman, Michael Rath, Patrick Mäder:
Lessons Learned from Analyzing Requirements Traceability using a Graph Database. Softwaretechnik-Trends 38(1): 27-30 (2018) - [c51]Michael Rath, Patrick Mäder:
Influence of Structured Information in Bug Report Descriptions on IR-Based Bug Localization. SEAA 2018: 26-32 - [c50]Rohan Krishnamurthy, Michael Meinel, Carina Haupt, Andreas Schreiber
DLR secure software engineering: position and vision paper. SEAD@ICSE 2018: 49-50 - [c49]Mihaela Todorova Tomova, Michael Rath, Patrick Mäder:
Use of trace link types in issue tracking systems. ICSE (Companion Volume) 2018: 181-182 - [c48]Michael Rath, Jacob Rendall, Jin L. C. Guo, Jane Cleland-Huang, Patrick Mäder:
Traceability in the wild: automatically augmenting incomplete trace links. ICSE 2018: 834-845 - [c47]Michael Rath, David Lo
Analyzing requirements and traceability information to improve bug localization. MSR 2018: 442-453 - [i3]Michael Rath, Jacob Rendall, Jin L. C. Guo, Jane Cleland-Huang, Patrick Maeder:
Traceability in the Wild: Automatically Augmenting Incomplete Trace Links. CoRR abs/1804.02433 (2018) - 2017
- [j11]Patrick Mäder, Rocco Oliveto, Andrian Marcus
Empirical studies in software and systems traceability. Empir. Softw. Eng. 22(3): 963-966 (2017) - [j10]Patrick Rempel, Patrick Mäder:
Preventing Defects: The Impact of Requirements Traceability Completeness on Software Quality. IEEE Trans. Software Eng. 43(8): 777-797 (2017) - [c46]Tobias Kuschke, Patrick Mäder:
RapMOD - in situ auto-completion for graphical models: poster. ICSE (Companion Volume) 2017: 303-304 - [c45]Michael Rath, Patrick Rempel, Patrick Mäder:
The IlmSeven Dataset. RE 2017: 516-519 - [c44]Michael Rath, David Akehurst, Christoph Borowski, Patrick Mäder:
Are Graph Query Languages Applicable for Requirements Traceability Analysis? REFSQ Workshops 2017 - [c43]Hongyu Kuang
Analyzing closeness of code dependencies for improving IR-based Traceability Recovery. SANER 2017: 68-78 - [e3]Eric Knauss, Angelo Susi, David Ameller, Daniel M. Berry, Fabiano Dalpiaz, Maya Daneva, Marian Daun
Joint Proceedings of REFSQ-2017 Workshops, Doctoral Symposium, Research Method Track, and Poster Track co-located with the 22nd International Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2017), Essen, Germany, February 27, 2017. CEUR Workshop Proceedings 1796, CEUR-WS.org 2017 [contents] - 2016
- [c42]Patrick Rempel, Patrick Mäder:
Continuous assessment of software traceability. ICSE (Companion Volume) 2016: 747-748 - [c41]Johan Linåker
How Firms Adapt and Interact in Open Source Ecosystems: Analyzing Stakeholder Influence and Collaboration Patterns. REFSQ 2016: 63-81 - [c40]Patrick Rempel, Patrick Mäder:
A quality model for the systematic assessment of requirements traceability. Software Engineering 2016: 37-38 - [c39]Patrick Mäder, Alexander Egyed:
Do developers benefit from requirements traceability when evolving and maintaining a software system? Software Engineering 2016: 109-110 - 2015
- [j9]Patrick Mäder, Alexander Egyed:
Do developers benefit from requirements traceability when evolving and maintaining a software system? Empir. Softw. Eng. 20(2): 413-441 (2015) - [j8]Hongyu Kuang
Can method data dependencies support the assessment of traceability between requirements and source code? J. Softw. Evol. Process. 27(11): 838-866 (2015) - [j7]Patrick Mäder, Jane Cleland-Huang:
From Raw Project Data to Business Intelligence. IEEE Softw. 32(4): 22-25 (2015) - [c38]Patrick Rempel, Patrick Mäder:
A quality model for the systematic assessment of requirements traceability. RE 2015: 176-185 - [c37]Patrick Rempel, Patrick Mäder:
Estimating the Implementation Risk of Requirements in Agile Software Development Projects with Traceability Metrics. REFSQ 2015: 81-97 - [c36]Sugandha Lohar, Jane Cleland-Huang, Alexander Rasin, Patrick Mäder:
Live Study Proposal: Collecting Natural Language Trace Queries. REFSQ Workshops 2015: 207-210 - [c35]Patrick Rempel, Patrick Mäder, Tobias Kuschke, Jane Cleland-Huang:
Traceability Gap Analysis for Assessing the Conformance of Software Traceability to Relevant Guidelines. Software Engineering & Management 2015: 120-121 - [e2]Patrick Mäder, Rocco Oliveto:
8th IEEE/ACM International Symposium on Software and Systems Traceability, SST 2015, Florence, Italy, May 17, 2015. IEEE Computer Society 2015, ISBN 978-0-7695-5593-5 [contents] - [i2]Jane Cleland-Huang, Sanjai Rayadurgam, Patrick Mäder, Wilhelm Schäfer:
Software and Systems Traceability for Safety-Critical Projects (Dagstuhl Seminar 15162). Dagstuhl Reports 5(4): 76-97 (2015) - 2014
- [c34]Jane Cleland-Huang, Orlena Gotel, Jane Huffman Hayes, Patrick Mäder, Andrea Zisman:
Software traceability: trends and future directions. FOSE 2014: 55-69 - [c33]Patrick Rempel, Patrick Mäder, Tobias Kuschke, Jane Cleland-Huang:
Mind the gap: assessing the conformance of software traceability to relevant guidelines. ICSE 2014: 943-954 - [c32]Tobias Kuschke, Patrick Mäder:
Pattern-based auto-completion of UML modeling activities. ASE 2014: 551-556 - [c31]Jane Cleland-Huang, Mona Rahimi, Patrick Mäder:
Achieving lightweight trustworthy traceability. SIGSOFT FSE 2014: 849-852 - 2013
- [j6]Patrick Mäder, Paul L. Jones, Yi Zhang
Strategic Traceability for Safety-Critical Projects. IEEE Softw. 30(3): 58-66 (2013) - [j5]Patrick Mäder, Jane Cleland-Huang:
A visual language for modeling and executing traceability queries. Softw. Syst. Model. 12(3): 537-553 (2013) - [c30]Patrick Rempel, Patrick Mäder, Tobias Kuschke:
Towards feature-aware retrieval of refinement traces. TEFSE@ICSE 2013: 100-104 - [c29]Tobias Kuschke, Patrick Mäder, Patrick Rempel:
Recommending Auto-completions for Software Modeling Activities. MoDELS 2013: 170-186 - [c28]Mehdi Mirakhorli, Julia Carvalho, Jane Cleland-Huang, Patrick Mäder:
A domain-centric approach for recommending architectural tactics to satisfy quality concerns. TwinPeaks@RE 2013: 1-8 - [c27]Patrick Rempel, Patrick Mäder, Tobias Kuschke:
An empirical study on project-specific traceability strategies. RE 2013: 195-204 - [c26]Patrick Rempel, Patrick Mäder, Tobias Kuschke, Ilka Philippow:
Requirements Traceability across Organizational Boundaries - A Survey and Taxonomy. REFSQ 2013: 125-140 - [c25]Elke Bouillon, Patrick Mäder, Ilka Philippow:
A Survey on Usage Scenarios for Requirements Traceability in Practice. REFSQ 2013: 158-173 - [e1]Nan Niu, Patrick Mäder:
7th International Workshop on Traceability in Emerging Forms of Software Engineering, TEFSE 2013, 19 May, 2013, San Francisco, CA, USA. IEEE Computer Society 2013 [contents] - [i1]Patrick Mäder:
Interactive Traceability Querying and Visualization for Coping With Development Complexity. CoRR abs/1301.5363 (2013) - 2012
- [j4]Patrick Mäder, Orlena Gotel:
Towards automated traceability maintenance. J. Syst. Softw. 85(10): 2205-2227 (2012) - [c24]Patrick Mäder, Alexander Egyed:
Assessing the effect of requirements traceability for software maintenance. ICSM 2012: 171-180 - [c23]Hongyu Kuang
Do data dependencies in source code complement call dependencies for understanding requirements traceability? ICSM 2012: 181-190 - [c22]Jane Cleland-Huang, Patrick Mäder, Mehdi Mirakhorli, Sorawit Amornborvornwong:
Breaking the big-bang practice of traceability: Pushing timely trace recommendations to project stakeholders. RE 2012: 231-240 - [c21]Jane Cleland-Huang, Mats Per Erik Heimdahl, Jane Huffman Hayes, Robyn R. Lutz
Trace Queries for Safety Requirements in High Assurance Systems. REFSQ 2012: 179-193 - [c20]Mehdi Mirakhorli, Patrick Mäder, Jane Cleland-Huang:
Variability points and design pattern usage in architectural tactics. SIGSOFT FSE 2012: 52 - [p4]Orlena Gotel, Jane Cleland-Huang, Jane Huffman Hayes, Andrea Zisman, Alexander Egyed, Paul Grünbacher
Traceability Fundamentals. Software and Systems Traceability 2012: 3-22 - [p3]Orlena Gotel, Patrick Mäder:
Acquiring Tool Support for Traceability. Software and Systems Traceability 2012: 43-68 - [p2]Patrick Mäder, Orlena Gotel:
Ready-to-Use Traceability on Evolving Projects. Software and Systems Traceability 2012: 173-194 - 2011
- [c19]Alexander Egyed, Andreas Demuth, Achraf Ghabi, Roberto Erick Lopez-Herrejon, Patrick Mäder, Alexander Nöhrer, Alexander Reder:
Fine-Tuning Model Transformation: Change Propagation in Context of Consistency, Completeness, and Human Guidance. ICMT@TOOLS 2011: 1-14 - [c18]Jane Cleland-Huang, Adam Czauderna, Alex Dekhtyar, Olly Gotel, Jane Huffman Hayes, Ed Keenan, Greg Leach, Jonathan I. Maletic, Denys Poshyvanyk
Grand challenges, benchmarks, and TraceLab: developing infrastructure for the software traceability research community. EFSE@ICSE 2011: 17-23 - [c17]Ghulam Rasool, Patrick Mäder:
Flexible design pattern detection based on feature types. ASE 2011: 243-252 - [c16]Patrick Mäder, Alexander Egyed:
Do software engineers benefit from source code navigation with traceability? - An experiment in software change management. ASE 2011: 444-447 - [c15]Ghulam Rasool, Patrick Maeder, Ilka Philippow:
Evaluation of design pattern recovery tools. WCIT 2011: 813-819 - 2010
- [b1]Patrick Mäder:
Rule-based maintenance of post-requirements traceability. Technische Universität Ilmenau, Germany, 2010, ISBN 978-3-86991-093-2, pp. 1-229 - [j3]Ghulam Rasool, Ilka Philippow, Patrick Mäder:
Design pattern recovery based on annotations. Adv. Eng. Softw. 41(4): 519-526 (2010) - [c14]Paula Laurent, Patrick Mäder, Jane Cleland-Huang, Adam Steele:
A Taxonomy and Visual Notation for Modeling Globally Distributed Requirements Engineering Projects. ICGSE 2010: 35-44 - [c13]Patrick Mäder, Jane Cleland-Huang:
A Visual Traceability Modeling Language. MoDELS (1) 2010: 226-240 - [c12]Ghulam Rasool, Patrick Maeder, Ilka Philippow:
Design Pattern Recovery based on Pattern Features. Software Engineering Research and Practice 2010: 154-160
2000 – 2009
- 2009
- [c11]Patrick Mäder, Orlena Gotel, Ilka Philippow:
Enabling Automated Traceability Maintenance through the Upkeep of Traceability Relations. ECMDA-FA 2009: 174-189 - [c10]Patrick Mäder, Orlena Gotel, Ilka Philippow:
Getting back to basics: Promoting the use of a traceability information model in practice. TEFSE@ICSE 2009: 21-25 - [c9]Patrick Mäder, Orlena Gotel, Ilka Philippow:
Semi-automated traceability maintenance: An architectural overview of traceMaintainer. ICSE Companion 2009: 425-426 - [c8]Patrick Mäder, Orlena Gotel, Ilka Philippow:
Motivation Matters in the Traceability Trenches. RE 2009: 143-148 - [c7]Orlena Gotel, Patrick Mäder:
How to Select a Requirements Management Tool: Initial Steps. RE 2009: 365-367 - [p1]Patrick Mäder:
(Halb-)Automatische Pflege von Anforderungs-Traceability. Ausgezeichnete Informatikdissertationen 2009: 131-140 - 2008
- [c6]Patrick Mäder, Orlena Gotel, Ilka Philippow:
Enabling Automated Traceability Maintenance by Recognizing Development Activities Applied to Models. ASE 2008: 49-58 - [c5]Patrick Mäder, Orlena Gotel, Ilka Philippow:
Rule-Based Maintenance of Post-Requirements Traceability Relations. RE 2008: 23-32 - [c4]Patrick Mäder, Orlena Gotel, Tobias Kuschke, Ilka Philippow:
traceMaintainer - Automated Traceability Maintenance. RE 2008: 329-330 - 2007
- [c3]Patrick Mäder, Ilka Philippow, Matthias Riebisch:
Customizing Traceability Links for the Unified Process. QoSA 2007: 53-71 - [c2]Patrick Maeder, Ilka Philippow, Matthias Riebisch:
A Traceability Link Model for the Unified Process. SNPD (3) 2007: 700-705 - 2006
- [j2]Patrick Mäder, Matthias Riebisch, Ilka Philippow:
Aufrechterhaltung von Traceability Links während evolutionärer Softwareentwicklung. Softwaretechnik-Trends 26(2) (2006) - [c1]Patrick Maeder, Matthias Riebisch, Ilka Philippow:
Traceability for Managing Evolutionary Change. SEDE 2006: 1-8
1990 – 1999
- 1995
- [j1]Patrick Maeder:
EDI und UN/EDIFACT: Noch ist Zeit zum Agieren. Electron. Mark. 5(3): 17 (1995)
Coauthor Index
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Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from ,
, and
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and
to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from .
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last updated on 2024-10-31 20:15 CET by the dblp team
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