Fisher, Jasmin; Henzinger, Thomas AIST Austria
Computational modeling of biological systems is becoming increasingly common as scientists attempt to understand biological phenomena in their full complexity. Here we distinguish between two types of biological models mathematical and computational - according to their different representations of biological phenomena and their diverse potential. We call the approach of constructing computational models of biological systems executable biology, as it focuses on the design of executable computer algorithms that mimic biological phenomena. We give an overview of the main modeling efforts in this direction, and discuss some of the new challenges that executable biology poses for computer science and biology. We argue that for executable biology to reach its full potential as a mainstream biological technique, formal and algorithmic approaches must be integrated into biological research, driving biology towards a more precise engineering discipline.
1675 - 1682
WSC: Winter Simulation Conference
Fisher J, Henzinger TA. Executable biology. In: IEEE; 2006:1675-1682. doi:10.1109/WSC.2006.322942
Fisher, J., & Henzinger, T. A. (2006). Executable biology (pp. 1675–1682). Presented at the WSC: Winter Simulation Conference, IEEE. https://doi.org/10.1109/WSC.2006.322942
Fisher, Jasmin, and Thomas A Henzinger. “Executable Biology,” 1675–82. IEEE, 2006. https://doi.org/10.1109/WSC.2006.322942.
J. Fisher and T. A. Henzinger, “Executable biology,” presented at the WSC: Winter Simulation Conference, 2006, pp. 1675–1682.
Fisher J, Henzinger TA. 2006. Executable biology. WSC: Winter Simulation Conference, 1675–1682.
Fisher, Jasmin, and Thomas A. Henzinger. Executable Biology. IEEE, 2006, pp. 1675–82, doi:10.1109/WSC.2006.322942.