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1998 (1)
1Author    Rolf Pfeifer, Christian ScheierRequires cookie*
 Title    Representation in Natural and Artificial Agents: An Embodied Cognitive Science Perspective  
 Abstract    The goal of the present paper is to provide an em bodied cognitive science view on repre­ sentation. Using the fundamental task of category learning, we will demonstrate that this perspective enables us to shed new light on many pertinent issues and opens up new pros­ pects for investigation. The main focus of this paper is on the prerequisites to acquire repre­ sentations of objects in the real world. We suggest that the main prerequisite is embodiment which allows an agent -human, animal or robot -to manipulate its sensory input such that invariances are generated. These invariances, in turn, are the basis o f representation forma­ tion. In other words, the paper does not focus on representations per se, but rather discusses the various processes involved in order to make learning and representation acquisition pos­ sible. The argument structure is as follows. First we introduce two new perspectives on represen­ tation, namely frame-of-reference, and com plete agent. Then we elaborate the complete agent perspective and focus in particular on em bodim ent and situatedness. We argue that embodiment has two main aspects, a dynamic and an information theoretic one. Focusing on the latter, there are a number of implications: Representation can only be understood if the embedding of the neural substrate in the physical agent is known, which includes morphology (shape), positioning and nature of sensors. Because an autonom ous mobile agent in the real world is exposed to a continuously changing high-dimensional stream of sensory stimulation, if it is to learn category distinctions, it first needs a focus o f attention mechanism, and then it must have a way to reduce the dimensionality o f this high-dimensional sensory stream. Learning is very hard because the invariances are typically not found in the sensory data directly -the classical problem of object constancy: it is a so-called type 2 problem. Rather than trying to improve the learning algorithms -which is the standard approach -the em bodied cognitive science view suggests a different approach which focuses on the nature of the data: the agent is not passively exposed to a given data distribution, but, by exploiting its body and through the interaction with the environm ent, it can actually generate the data. More specifically, it can generate correlated data that has the property that it can be easily learned. This learnability is due to redundancies resulting from the appropriate interactions with the environment. Through such interactions, the former type 2 problem is transformed into a type 1 problem, thus reducing the complexity o f the learning task by orders o f magni­ tude. By observing the frame-of-reference problem we will discuss to what extent these in­ variances are reflected -represented -in the "neural substrate", i.e. the internal mechanisms of the agent. It is concluded, that representation is not a concept that can be studied in the abstract, but should be elaborated in the context of concrete agent-environment interactions. These ideas are all illustrated with examples of natural agents and artificial agents. In particu­ lar, we will present a suite of experiments on simulated and real-world artificial agents in­ stantiating the main arguments. 
  Reference    Z. Naturforsch. 53c, 480 (1998); received May 18 1998 
  Published    1998 
  Keywords    E m bodied Cognitive Science, Representation, Sensory-M otor Coordination, Self-Generated Data, Morphology 
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 TEI-XML for    default:Reihe_C/53/ZNC-1998-53c-0480.pdf 
 Identifier    ZNC-1998-53c-0480 
 Volume    53