Cryptobiosis represents the state of a living organism when it shows no visible signs of metabolic life, but maintains a capacity to return to an active, metabolic state. This peculiar state, although known from a wide variety of organisms, has received little attention from a theoretically biological perspective. A description based on a Petri net setting and a time based security model is proposed. In order to protect against a prolonged exposure time, the pathways for chemical reactions involved must fulfil their actions during a limited detection and response time to fulfil the protected state of entering/leaving cryptobiosis.
|Status||Publicerad - 2008|
|Evenemang||1st International Conference on Bio-Inspired Systems and Signal Processing - |
Varaktighet: 1980-jan-01 → …
|Konferens||1st International Conference on Bio-Inspired Systems and Signal Processing|
|Period||80-01-01 → …|
- Teknik (2)