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Disambiguation of "Wehrmeister, Marco A."

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Sensorial Testbed for High-Voltage Tower Inspection with UAVs.

, , , , , , , , and . ROBOT (2), volume 590 of Lecture Notes in Networks and Systems, page 353-364. Springer, (2022)

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Marco Aurélio Wehrmeister

An aspect-oriented model-driven engineering approach for distributed embedded real-time systems. Uni Paderborn, (2009)

Eva Wehrmeister

Dierk Wehrmeister

Thomas Wehrmeister

Wolfgang Wehrmeister

 

Other publications of authors with the same name

Automatic Execution of Test Cases on UML Models of Embedded Systems., and . IESS, volume 403 of IFIP Advances in Information and Communication Technology, page 39-48. Springer, (2013)Using Data Mining and Mobile Devices to Assist the Interactive Automotive Diagnostics., , and . IESS, volume 576 of IFIP Advances in Information and Communication Technology, page 101-113. Springer, (2019)Reflective middleware for heterogeneous sensor networks., , , and . ARM, page 49-50. ACM, (2008)GenERTiCA: A Tool for Code Generation and Aspects Weaving., , , and . ISORC, page 234-238. IEEE Computer Society, (2008)Real-time support in adaptable middleware for heterogeneous sensor networks., , , and . IMCSIT, page 593-600. IEEE, (2008)A Comparison of Fiducial Markers Pose Estimation for UAVs Indoor Precision Landing., , , , , , and . OL2A (1), volume 1981 of Communications in Computer and Information Science, page 18-33. Springer, (2023)Optimizing the generation of object-oriented real-time embedded applications based on the real-time specification for Java., , and . DATE, page 806-811. European Design and Automation Association, Leuven, Belgium, (2006)Framework to Simulate the Behavior of Embedded Real-Time Systems Specified in UML Models., , and . SBESC, page 1-7. IEEE Computer Society, (2011)Optimizing Real-Time Embedded Systems Development Using a RTSJ-Based API., , and . OTM Workshops, volume 3292 of Lecture Notes in Computer Science, page 292-302. Springer, (2004)Artificial Intelligence Architecture Based on Planar LiDAR Scan Data to Detect Energy Pylon Structures in a UAV Autonomous Detailed Inspection Process., , , , , , , , and . OL2A, volume 1488 of Communications in Computer and Information Science, page 430-443. Springer, (2021)