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Actuator Placement in Adaptive Structures for Static Compensation – Minimizing Displacements Versus Minimizing Actuator Forces. 2023 IEEE/ASME International Conference on Advanced Intelligent Mechatronics (AIM), 1055-1060, IEEE, June 2023. [PUMA: SFB1244_B02 SFB1244_A06]
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A Genetic and a Greedy-Genetic Algorithm for Steady-State Disturbance Compensability Actuator Placement for Adaptive Structures. American Control Conference (ACC), IEEE, Atlanta, USA, June 2022. [PUMA: sfb1244_a06]
Homogenizability of Element Utilization in Adaptive Structures. IEEE International Conference on Automation Science and Engineering (CASE), IEEE, August 2019. [PUMA: sfb1244_a06]
Optimal Static Load Compensation with Fault Tolerance in Nonlinear Adaptive Structures under Input and State Constraints. Frontiers of Built Environment, 2020. [PUMA: sfb1244_a06 sfb1244_b04]
Modellierung aktiver Strukturelemente als Erweiterung zum klassischen Workflow der FE-Analyse. Baustatik -- Baupraxis 14, Universität Stuttgart, 2020. [PUMA: sfb1244_a06]
On steady-state disturbance compensability for actuator placement in adaptive structures. at - Automatisierungstechnik, 2018. [PUMA: sfb1244_a06 sfb1244_b04]
Gramian-Based Actuator Placement for Static Load Compensation in Adaptive Structures. GACM Colloquium on Computational Mechanics, Stuttgart, Germany, October 2017. [PUMA: sfb1244_a06]
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Gramian-based Actuator Placement with Spillover Reduction for Active Damping of Adaptive Structures. IEEE International Conference on Advanced Intelligent Mechatronics, 904--909, IEEE, Munich, Germany, July 2017. [PUMA: sfb1244_a06]
Modellierung, Systemanalyse und Regelung adaptiver Tragwerke am Beispiel von Seilfassaden. 2018. [PUMA: sfb1244_a06 sfb1244_b04]
The implementation of adaptive elements into an experimental high-rise building. Steel Construction, (11)2:109--117, 2018. [PUMA: sfb1244_a01 sfb1244_a06 sfb1244_b04 sfb1244_c02 sfb1244_z01]
Anforderungsermittlung für adaptive Stützen und Aussteifungselemente in Tragkonstruktionen. Konstruktion, (73)10VDI Verlag, October 2021. [PUMA: sfb1244_a01 sfb1244_a06 sfb1244_c02 sfb1244_z01]
A Genetic and a Greedy-Genetic Algorithm for Steady-State Disturbance Compensability Actuator Placement for Adaptive Structures. 2022. [PUMA: SFB1244_A06 from:sfb1244_pubman]
Actuation concepts for adaptive high-rise structures subjected to static wind loading. Enginieering Structures, (267)114670:1-12, September 2022. [PUMA: SFB1244_A06 from:sfb1244_pubman]
Analysis of the inherent adaptability of basic truss and frame modules by means of an extended method of influence matrices. Engineering Structures, (266)114588:1-8, September 2022. [PUMA: SFB1244_A06 from:sfb1244_pubman]
Analysis of the inherent adaptability of basic truss and frame modules by means of an extended method of influence matrices. Engineering Structures, (266)114588:1-8, September 2022. [PUMA: SFB1244_A06]
Actuation concepts for adaptive high-rise structures subjected to static wind loading. Enginieering Structures, (267)114670:1-12, September 2022. [PUMA: SFB1244_A06]
A Genetic and a Greedy-Genetic Algorithm for Steady-State Disturbance Compensability Actuator Placement for Adaptive Structures. 2022. [PUMA: SFB1244_A06]