Incorporating time-delays in S-System model for reverse engineering genetic networks

This paper provides a brief introduction to learning Bayesian networks from gene-expression data. The method is contrasted with other approaches to the reverse engineering of biochemical networks, and the Bayesian learning paradigm is briefly described. The article demonstrates an application to a simple synthetic toy problem and evaluates the inference performance in terms of ROC (receiver operator characteristic) curves.

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Stochastic Memristive Quaternion-Valued Neural Networks with Time Delays: An Analysis on Mean Square Exponential Input-to-State Stability

Mathematics ◽

10.3390/math8050815 ◽

2020 ◽

Vol 8 (5) ◽

pp. 815 ◽

Cited By ~ 4

Author(s):

Usa Humphries ◽

Grienggrai Rajchakit ◽

Pramet Kaewmesri ◽

Pharunyou Chanthorn ◽

Ramalingam Sriraman ◽

...

Keyword(s):

Neural Networks ◽

Continuous Time ◽

Lyapunov Functional ◽

Time Delays ◽

System Model ◽

Mean Square ◽

New Class ◽

Quaternion Multiplication ◽

The Mean ◽

Theoretical Results

In this paper, we study the mean-square exponential input-to-state stability (exp-ISS) problem for a new class of neural network (NN) models, i.e., continuous-time stochastic memristive quaternion-valued neural networks (SMQVNNs) with time delays. Firstly, in order to overcome the difficulties posed by non-commutative quaternion multiplication, we decompose the original SMQVNNs into four real-valued models. Secondly, by constructing suitable Lyapunov functional and applying It o ^ ’s formula, Dynkin’s formula as well as inequity techniques, we prove that the considered system model is mean-square exp-ISS. In comparison with the conventional research on stability, we derive a new mean-square exp-ISS criterion for SMQVNNs. The results obtained in this paper are the general case of previously known results in complex and real fields. Finally, a numerical example has been provided to show the effectiveness of the obtained theoretical results.

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A reverse engineering algorithm for mining a causal system model from system data

International Journal of Production Research ◽

10.1080/00207543.2016.1213913 ◽

2016 ◽

Vol 55 (3) ◽

pp. 828-844 ◽

Cited By ~ 5

Author(s):

Nong Ye

Keyword(s):

Reverse Engineering ◽

System Model ◽

Causal System ◽

System Data

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Reverse engineering genetic networks using nonlinear saturation kinetics

Biosystems ◽

10.1016/j.biosystems.2019.103977 ◽

2019 ◽

Vol 182 ◽

pp. 30-41

Author(s):

Ahammed Sherief Kizhakkethil Youseph ◽

Madhu Chetty ◽

Gour Karmakar

Keyword(s):

Reverse Engineering ◽

Genetic Networks ◽

Nonlinear Saturation ◽

Saturation Kinetics

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Reverse engineering of genetic networks through multicriterion optimization

10.1117/12.469464 ◽

2002 ◽

Cited By ~ 1

Author(s):

Eugene P. van Someren ◽

Lodewyk F. A. Wessels ◽

Marcel J. T. Reinders ◽

Eric Backer

Keyword(s):

Reverse Engineering ◽

Genetic Networks ◽

Multicriterion Optimization

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An Efficient, Computer-Oriented Method for Stability Analysis of Large Multivariable Linear Systems

Journal of Basic Engineering ◽

10.1115/1.3424987 ◽

1970 ◽

Vol 92 (2) ◽

pp. 279-286 ◽

Cited By ~ 3

Author(s):

W. C. Wright ◽

T. W. Kerlin

Keyword(s):

Stability Analysis ◽

Linear Systems ◽

Time Delays ◽

Computational Procedure ◽

System Model ◽

Order Model ◽

Variable Model ◽

State Variable ◽

Large Systems ◽

State Variable Model

A computer-oriented procedure for efficient stability analysis of very large systems was developed by modifying a method due to Mikhailov. The method allows pure time delays in the system model. The state variable model of the system is used, and the computational procedure is tailored to take advantage of the sparesness of the system matrices that are applicable for many systems. The practicality of the procedure has been demonstrated in the analysis of several systems, the largest of which consisted of a 553rd order model of a multistage flash evaporator plant.

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