Performance analysis of the segment alignment control system for the ten-meter telescope
Automatica (Journal of IFAC)
Automatica (Journal of IFAC)
Evolutionary neurocontrollers for autonomous mobile robots
Neural Networks - Special issue on neural control and robotics: biology and technology
Adaptive control of space structures via recurrent neural networks
Dynamics and Control
Modern Control Systems
Smart Structures: Analysis and Design
Smart Structures: Analysis and Design
Intelligent Structures: A New Direction in Structural Control
Artificial Intelligence in Structural Engineering, Information Technology for Design, Collaboration, Maintenance, and Monitoring.
Self-learning fuzzy control of civil structures
ISUMA '95 Proceedings of the 3rd International Symposium on Uncertainty Modelling and Analysis
The damping of a truss structure with a piezoelectric transducer
Computers and Structures
International Journal of Computer Applications in Technology
Active tensegrity: A control framework for an adaptive civil-engineering structure
Computers and Structures
Control and simulation of a tensegrity-based mobile robot
Robotics and Autonomous Systems
Computational aspects of structural shape control
Computers and Structures
A unified formulation to assess multilayered theories for piezoelectric plates
Computers and Structures
Steerable miniature jumping robot
Autonomous Robots
Configuration of control system for damage tolerance of a tensegrity bridge
Advanced Engineering Informatics
No free lunch theorems for optimization
IEEE Transactions on Evolutionary Computation
Automatica (Journal of IFAC)
Seismic motion control of structures: A developed adaptive backstepping approach
Computers and Structures
Direct simulation of the tensioning process of cable-stayed bridges
Computers and Structures
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An active structure is an engineering structure containing sensors and actuators that, when active, modify the response of the structure to its environment. Research into active structural control is growing due to factors such as new challenges in extreme environments (space, undersea, polar), contaminated contexts (nuclear, chemical, biological) and increasing awareness of earthquake risks. Advances in theory and practice of active control technology have modified the general perception of structures. This paper provides an overview of advances enabling feasible applications of active structures. Computing challenges that are important to the creation of the next generation of active structures are identified.