The IRMA Community
Newsletters
Research IRM
Click a keyword to search titles using our InfoSci-OnDemand powered search:
|
Measuring Information Propagation and Processing in Biological Systems
Abstract
In this chapter the authors study the propagation and processing of information in dynamical systems. Various information management systems can be represented as dynamical systems of interconnected information processing units. Here they focus mostly on genetic regulatory networks that are information processing systems that process and propagate information stored in genome. Boolean networks are used as a dynamical model of regulation, and different ways of parameterizing the dynamical behavior are studied. What are called critical networks are in particular under study, since they have been hypothesized as being the most effective under evolutionary pressure. Critical networks are also present in man-made systems, such as the Internet, and provide a candidate application area for findings on the theory of dynamical networks in this chapter. The authors present approaches of annealed approximation and find that avalanche size distribution data supports criticality of regulatory networks. Based on Shannon information, they then find that a mutual information measure quantifying the coordination of pairwise element activity is maximized at criticality. An approach of algorithmic complexity, the normalized compression distance (NCD), is shown to be applicable to both dynamical and topological features of regulatory networks. NCD can also be seen to enable further utilization of measurement data to estimate information propagation and processing in biological networks.
Related Content
Christine Kosmopoulos.
© 2022.
22 pages.
|
Melkamu Beyene, Solomon Mekonnen Tekle, Daniel Gelaw Alemneh.
© 2022.
21 pages.
|
Rajkumari Sofia Devi, Ch. Ibohal Singh.
© 2022.
21 pages.
|
Ida Fajar Priyanto.
© 2022.
16 pages.
|
Murtala Ismail Adakawa.
© 2022.
27 pages.
|
Shimelis Getu Assefa.
© 2022.
17 pages.
|
Angela Y. Ford, Daniel Gelaw Alemneh.
© 2022.
22 pages.
|
|
|