Reconfigurable Modular Bar Structure

Phocas, Marios C.; Matheou, Maria; Müller, Andreas; Christoforou, Eftychios G.

doi:10.20898/j.iass.2019.199.028

Cited by 4 publications

(1 citation statement)

References 18 publications

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“…Some of the most used and analyzed units are presented in Figure 4, such as 3-strut and 4-strut, commonly used to generate tensegrity chains. Within the TSs, there is a subclass called tensegrity cluster, characterized by continuously grouping cables [35], decreasing the number of cables in the construction stage and bringing advantages in their performance [36]. Also, their natural frequency is lower compared to traditional structures, giving them greater flexibility, but as a consequence, them are weaker [37] [38].…”

Section: Initial Considerationsmentioning

confidence: 99%

Untitled

2023

JESTR

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Tensegrity is composed of structures that are characterized by compressive elements (bars) and tension elements (cables) that work together to transmit and/or withstand forces in an efficient and balanced manner. Their kinetic analysis, design, and control are study topics with various methods still being explored. Furthermore, research and development have been conducted in different areas such as architecture, engineering, biomechanics and robotics, exploring lightweight and resilient tensegrity structures for more flexible and adaptable movements. Tensegrity is a structure increasingly used and studied in different areas, thanks to its ability to transmit forces efficiently and its versatility in the application of designs and solutions in different areas. So, this review presents initial definitions of this area, as well as recent methods and applications that have been developed and are the focus of study for future advances.

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Section: Initial Considerationsmentioning

confidence: 99%

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2023

JESTR

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Reconfigurable linkage structures and photovoltaics integration

Phocas

Christoforou

Theokli

et al. 2021

Journal of Building Engineering

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Automated Optimal Motion Sequence of a 9-Bar Linkage

Matheou

Kallioras

Lagaros

et al. 2020

Front. Built Environ.

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Automated optimization-driven analyses may lead to an emersion of innovative design approaches, while investigating the potentials in design, analysis and control of highperformance engineering structures, and adaptive architecture. In the present study, an optimum motion sequence for the reconfiguration of a 9-bar linkage is succeeded through a robust automated optimization-driven approach of the metaheuristic algorithm, Pity Beetle Algorithm (PBA). The project explores the load-bearing behavior of the planar structure in different states of the "effective 4-bar" reconfiguration sequences considering its self-weight and a uniform distributed vertical load. Each motion step of the 9-bar linkage uses only one degree-of-freedom (DOF), in which four joints of the primary members are unlocked and the remaining joints are controlled by the brakes. The system is actuated by only one geared electrical motor detached from the structure and positioned on the ground. Different intermediate configurations of the 9-bar linkage are selected through the automated optimization-driven analysis, in such a way that all the joints are adjusted to the desired values and therefore to the target position. Hence, the objective of the optimization process focused at minimizing the brake torques in the locked joints of the structure through all the motion steps. The work-minimization problem has been solved by the metaheuristic algorithm, PBA, while the algorithm has the ability to search into large spaces for possible solutions regardless of the scale. Based on the aggregation behavior of the beetle Pityogenes chalcographus, the metaheuristic algorithm is able to find the global optimum solution among the plethora of possible solutions. The numerical studies of different possible motion sequences have been conducted with the software MATLAB and Simulink for a Model Based-Design. The obtained results demonstrate that the design of reconfigurable engineering structures and adaptive architecture can benefit from an automated optimization-driven analysis of the reconfiguration determination, in view of achieving improved performance and energy efficiency.

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Reconfigurable Modular Bar Structure

Cited by 4 publications

References 18 publications

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Reconfigurable linkage structures and photovoltaics integration

Automated Optimal Motion Sequence of a 9-Bar Linkage

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