In the context of embodied artificial intelligence, morphological computation refers to processes, which are conducted by the body (and environment) that otherwise would have to be performed by the brain. Exploiting environmental and morphological properties are an important feature of embodied systems. The main reason is that it allows to significantly reduce the controller complexity. An important aspect of morphological computation is that it cannot be assigned to an embodied system per se, but that it is, as we show, behavior and state dependent. In this work, we evaluate two different measures of morphological computation that can be applied in robotic systems and in computer simulations of biological movement. As an example, these mea...
One key idea behind morphological computation is that many difficul-ties of a control problem can be...
The vision of morphological computation proposes that the complexity of compliant bodies of biologic...
Embodiment has led to a revolution in robotics by not thinking of the robot body and its controller ...
The question how an agent is affected by its embodiment has attracted growing attention in recent ye...
The generation of robust periodic movements of complex nonlinear robotic systems is inherently diffi...
Traditionally, in robotics, artificial intelligence and neuroscience, there has been a focus on the ...
There are numerous examples that show how the exploitation of the body’s physical properties can lif...
The field of embodied intelligence emphasises the importance of the morphology and environment with ...
Traditionally, in robotics, artificial intelligence, and neuroscience, there has been a focus on the...
\u3cp\u3eThe contribution of the body to cognition and control in natural and artificial agents is i...
The control of compliant robots is, due to their often nonlinear and complex dynamics, inherently di...
Motor control systems in the brain of humans and mammals are hierarchically organised, with each lev...
The contribution of the body to cognition and control in natural and artificial agents is increasing...
It has been shown that sensory morphology and sensory-motor coordination enhance the capabilities of...
Keynote lectureToday, the concept of morphological computation, i.e. the idea that the control of a ...
One key idea behind morphological computation is that many difficul-ties of a control problem can be...
The vision of morphological computation proposes that the complexity of compliant bodies of biologic...
Embodiment has led to a revolution in robotics by not thinking of the robot body and its controller ...
The question how an agent is affected by its embodiment has attracted growing attention in recent ye...
The generation of robust periodic movements of complex nonlinear robotic systems is inherently diffi...
Traditionally, in robotics, artificial intelligence and neuroscience, there has been a focus on the ...
There are numerous examples that show how the exploitation of the body’s physical properties can lif...
The field of embodied intelligence emphasises the importance of the morphology and environment with ...
Traditionally, in robotics, artificial intelligence, and neuroscience, there has been a focus on the...
\u3cp\u3eThe contribution of the body to cognition and control in natural and artificial agents is i...
The control of compliant robots is, due to their often nonlinear and complex dynamics, inherently di...
Motor control systems in the brain of humans and mammals are hierarchically organised, with each lev...
The contribution of the body to cognition and control in natural and artificial agents is increasing...
It has been shown that sensory morphology and sensory-motor coordination enhance the capabilities of...
Keynote lectureToday, the concept of morphological computation, i.e. the idea that the control of a ...
One key idea behind morphological computation is that many difficul-ties of a control problem can be...
The vision of morphological computation proposes that the complexity of compliant bodies of biologic...
Embodiment has led to a revolution in robotics by not thinking of the robot body and its controller ...