AbstractSpatial dynamics receive increasing attention in Systems Biology and require suitable modeling and simulation approaches. So far, modeling formalisms have focused on population-based approaches or place and move individuals relative to each other in space. SpacePi extends the π calculus by time and space. π processes are embedded into a vector space and move individually. Only processes that are sufficiently close can communicate. The operational semantics of SpacePi defines the interplay between movement, communication, and time-triggered events. A model describing the phototaxis of the Euglena micro-organism is presented as a practical example. The formalism's use and generality is discussed with respect to the modeling of molecul...
Abstract Systems biology aims at integrating processes at various time and spatial scales into a sin...
Abstract Background The biophysics of an organism span multiple scales from subcellular to organisma...
Motivation: Many biochemical networks involve reactions localized on the cell membrane. This can gi...
AbstractSpatial dynamics receive increasing attention in Systems Biology and require suitable modeli...
We present a bio-inspired calculus for describing 3D shapes moving in a space. A shape forms a 3D pr...
AbstractThe Calculus of Looping Sequences (CLS) enables the description of biological systems and of...
AbstractRecent technological and theoretical advances are only now allowing the simulation of detail...
Mathematical models of dynamical systems in 6 the life sciences typically assume that biological sys...
This paper presents Spatial CLS, an extension of the Calculus of Looping Sequences (CLS) with spatia...
AbstractThe Shape Calculus is a bio-inspired timed and spatial calculus for describing 3D geometrica...
Abstract: Cell signaling dynamics are driven by complicated processes in time and space. One classic...
For cell-biological processes, it is the complex interaction of their biochemical components, affect...
AbstractBiomolecular systems, composed of networks of proteins, underlie the major functions of livi...
We introduce a spatial extension of stochastic pi-calculus that provides a formalism to model system...
Cells use signaling networks consisting of multiple interacting proteins to respond to changes in th...
Abstract Systems biology aims at integrating processes at various time and spatial scales into a sin...
Abstract Background The biophysics of an organism span multiple scales from subcellular to organisma...
Motivation: Many biochemical networks involve reactions localized on the cell membrane. This can gi...
AbstractSpatial dynamics receive increasing attention in Systems Biology and require suitable modeli...
We present a bio-inspired calculus for describing 3D shapes moving in a space. A shape forms a 3D pr...
AbstractThe Calculus of Looping Sequences (CLS) enables the description of biological systems and of...
AbstractRecent technological and theoretical advances are only now allowing the simulation of detail...
Mathematical models of dynamical systems in 6 the life sciences typically assume that biological sys...
This paper presents Spatial CLS, an extension of the Calculus of Looping Sequences (CLS) with spatia...
AbstractThe Shape Calculus is a bio-inspired timed and spatial calculus for describing 3D geometrica...
Abstract: Cell signaling dynamics are driven by complicated processes in time and space. One classic...
For cell-biological processes, it is the complex interaction of their biochemical components, affect...
AbstractBiomolecular systems, composed of networks of proteins, underlie the major functions of livi...
We introduce a spatial extension of stochastic pi-calculus that provides a formalism to model system...
Cells use signaling networks consisting of multiple interacting proteins to respond to changes in th...
Abstract Systems biology aims at integrating processes at various time and spatial scales into a sin...
Abstract Background The biophysics of an organism span multiple scales from subcellular to organisma...
Motivation: Many biochemical networks involve reactions localized on the cell membrane. This can gi...