Effect of Sectoral Optimization on Structural Stability of a Single-Period Dynamic Input-Output System

Nitrogen starvation induces developmental transitions in cyanobacteria. Whereas complex multicellular cyanobacteria of the order Nostocales can differentiate specialized cells that perform nitrogen fixation in the presence of oxygenic photosynthesis, non-diazotrophic unicellular strains, such as <i>Synechococcus elongatus</i> or <i>Synechocystis</i> PCC 6803, undergo a transition into a dormant non-growing state. Due to loss of pigments during this acclimation, the process is termed chlorosis. Cells maintain viability in this state for prolonged periods of time, until they encounter a useable nitrogen source, which triggers a highly coordinated awakening process, termed resuscitation. The minimal set of cellular activity that maintains the viability of cells during chlorosis and ensures efficient resuscitation represents the organism’s equivalent of the BIOS, the basic input/output system of a computer, that helps “booting” the operation system after switching on. This review summarizes the recent research in the resuscitation of cyanobacteria, representing a powerful model for the awakening of dormant bacteria.

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The JIAWG input/output system (JIOS)

10.1109/naecon.1990.112916 ◽

2002 ◽

Author(s):

J. Newport ◽

C. Roark

Keyword(s):

Input Output ◽

Output System

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Input-Output Analysis of Environmental Protection Industry

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1073-1076.2700 ◽

2014 ◽

Vol 1073-1076 ◽

pp. 2700-2703

Author(s):

Lei Jiang ◽

Shou Zhong Hu ◽

Xiao Xiao Xu

Keyword(s):

Environmental Protection ◽

Singular Systems ◽

Linear Matrix ◽

Matrix Inequality ◽

Input Output ◽

Output Analysis ◽

Input Output Analysis ◽

Sufficient Stability Condition ◽

Sufficient Stability ◽

Output System

This paper investigates the run of environmental protection industry input-output model. A new mathematic method is applied to study this kind of singular input-output system. With this new method, we need not convert singular systems into general linear systems. A sufficient stability condition under which an environmental protection industry input-output model is stable is proved. This condition is in the form of linear matrix inequality and can be easily tested by computers.

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Estimation of gravity field parameters by a multiple input/output system

Physics and Chemistry of the Earth Part A Solid Earth and Geodesy ◽

10.1016/s1464-1895(00)00007-7 ◽

2000 ◽

Vol 25 (1) ◽

pp. 39-46 ◽

Cited By ~ 5

Author(s):

V.D. Andritsanos ◽

I.N. Tziavos

Keyword(s):

Gravity Field ◽

Input Output ◽

Multiple Input ◽

Output System

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Control of arrivals to a stochastic input–output system

Advances in Applied Probability ◽

10.2307/1426752 ◽

1980 ◽

Vol 12 (4) ◽

pp. 972-999 ◽

Cited By ~ 48

Author(s):

Søren Glud Johansen ◽

Shaler Stidham

Keyword(s):

Markov Decision Process ◽

Decision Process ◽

Input Output ◽

Distinctive Features ◽

Control Models ◽

Special Cases ◽

Non Linear ◽

Markov Decision ◽

Output System ◽

Stochastic Input

The problem of controlling input to a stochastic input-output system by accepting or rejecting arriving customers is analyzed as a semi-Markov decision process. Included as special cases are a GI/G/1 model and models with compound input and/or output processes, as well as several previously studied queueing-control models. We establish monotonicity of socially and individually optimal acceptance policies and the more restrictive nature of the former, with random rewards for acceptance and both customer-oriented and system-oriented non-linear waiting costs. Distinctive features of our analysis are (i) that it allows dependent interarrival times and (ii) that the monotonicity proofs do not rely on the standard concavity-preservation arguments.

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A Dynamic Interindustry Model for the Economic Analysis of Pollution Abatement

Environment and Planning A Economy and Space ◽

10.1068/a060321 ◽

1974 ◽

Vol 6 (3) ◽

pp. 321-338 ◽

Cited By ~ 14

Author(s):

A Rose

Keyword(s):

Linear Programming ◽

Structural Changes ◽

Environmental Control ◽

Pollution Abatement ◽

Primary Component ◽

Component Model ◽

Input Output ◽

Two Component ◽

Output System ◽

Policy And Planning

A two-component model is presented for the analysis of the economic impact of pollution abatement. The primary component is a dynamic input-output system in which the structure of the economy is related to the level of environmental control as well as to time. A submodel, which consists of the various abatement activities within each industry, is used to explore the underlying nature of structural changes which take place as a result of changes in environmental regulations. The usefulness of the overall model for policy and planning purposes is illustrated by an example in which the submodel is transformed into a linear-programming format.

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