A formal language approach for the specification of ALife models is presented. "Relational Growth Grammars" incorporate rulebased, procedural and object-oriented concepts. By enabling parametric Lindenmayer systems to rewrite multiscaled graphs, it becomes possible to represent genes, plant organs and populations as well as developmental aspects of these entities in a common formal framework. Genetic operators (mutation, crossing-over, selection) take the form of simple graph rewrite rules. This is illustrated using Richard Dawkins' "biomorphs", whereas other applications are briefly sketched. The formalism is implemented as part of an interactive software platform
The genotype-phenotype map is an essential object to understand organismal complexity and adaptabili...
Parallel rewrite systems in the form of string based L-systems are used for modeling and visualizing...
The concept of relational growth grammars (RGG) is a recent effort to address the needs of functiona...
Parallel rewrite systems in the form of stringbased L-systems are used for modeling and visualizing ...
The relationship between the genotype and phenotype of organisms plays a key role in the evolutionar...
Models of plant architecture allow us to explore how genotype environment interactions effect the de...
Application of Genetic Programming and L-System method for the development of parallel rewrite syste...
The large quantity and ready availability of developmental-genetic data, coupled with increased rigo...
Abstract. Growth grammars in the form of parallel rewrite systems (Lsystems) are used to model morph...
Application of Genetic Programming and L-System method for the development of parallel r...
Many newly observed phenotypes are first described, then experimentally manipulated. These language-...
This thesis explores how to improve L-system plant generation using evolutionary algorithms (EAs). T...
Many algorithms of grammatical inference were developed for several types of grammars. The grammatic...
An L-system or Lindenmayer system consists of a grammar and an interpreter. The grammar contains an ...
This essay concerns two approaches to mathematical modelling of plant morphogenesis: the traditional...
The genotype-phenotype map is an essential object to understand organismal complexity and adaptabili...
Parallel rewrite systems in the form of string based L-systems are used for modeling and visualizing...
The concept of relational growth grammars (RGG) is a recent effort to address the needs of functiona...
Parallel rewrite systems in the form of stringbased L-systems are used for modeling and visualizing ...
The relationship between the genotype and phenotype of organisms plays a key role in the evolutionar...
Models of plant architecture allow us to explore how genotype environment interactions effect the de...
Application of Genetic Programming and L-System method for the development of parallel rewrite syste...
The large quantity and ready availability of developmental-genetic data, coupled with increased rigo...
Abstract. Growth grammars in the form of parallel rewrite systems (Lsystems) are used to model morph...
Application of Genetic Programming and L-System method for the development of parallel r...
Many newly observed phenotypes are first described, then experimentally manipulated. These language-...
This thesis explores how to improve L-system plant generation using evolutionary algorithms (EAs). T...
Many algorithms of grammatical inference were developed for several types of grammars. The grammatic...
An L-system or Lindenmayer system consists of a grammar and an interpreter. The grammar contains an ...
This essay concerns two approaches to mathematical modelling of plant morphogenesis: the traditional...
The genotype-phenotype map is an essential object to understand organismal complexity and adaptabili...
Parallel rewrite systems in the form of string based L-systems are used for modeling and visualizing...
The concept of relational growth grammars (RGG) is a recent effort to address the needs of functiona...