论文信息 - Employing L-systems to generate mass-spring networks for morphological computing

Employing L-systems to generate mass-spring networks for morphological computing

Robot arms equipped with an additional network of masses and springs enable a facilitation of control by the exploitation of morphological properties. Typically, these mass-spring networks are being generated randomly. This approach comes in its basic form unhandy when the network should obey specific constraints, such as spring lengths, angles between springs or, e.g., the physical expansion range of the network. We present an approach of emulating a growth process on the basis of L-systems. Therefore, we have developed a simulation environment to define L-systems and instructions to translate the produced strings into mass-spring networks.

[1] Fumiya Iida,et al. The challenges ahead for bio-inspired 'soft' robotics , 2012, CACM.

[2] Przemyslaw Prusinkiewicz,et al. The Algorithmic Beauty of Plants , 1990, The Virtual Laboratory.

[3] Helmut Hauser,et al. The role of feedback in morphological computation with compliant bodies , 2012, Biological Cybernetics.

[4] Helmut Hauser,et al. Moving a robot arm by exploiting its complex compliant morphology , 2011 .

[5] Helmut Hauser,et al. Morphological Computation and Morphological Control: Steps Toward a Formal Theory and Applications , 2013, Artificial Life.

[6] Aristid Lindenmayer,et al. Mathematical Models for Cellular Interactions in Development , 1968 .

[7] L. Munari. How the body shapes the way we think — a new view of intelligence , 2009 .

[8] Cecilia Laschi,et al. Soft robotics: a bioinspired evolution in robotics. , 2013, Trends in biotechnology.

[9] Helmut Hauser,et al. Towards a theoretical foundation for morphological computation with compliant bodies , 2011, Biological Cybernetics.

[10] Ian D. Walker,et al. Soft robotics: Biological inspiration, state of the art, and future research , 2008 .

[11] R. Pfeifer,et al. Self-Organization, Embodiment, and Biologically Inspired Robotics , 2007, Science.