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1

Electronic Resource

The role of management history in the management curriculum: 1997 (1999)

Gibson, Jane Whitney ; Hodgetts, Richard M. ; Blackwell, Charles W.

Bingley : Emerald

Journal of management history 5 (1999), S. 277-285

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ISSN: 1355-252X

Source: Emerald Fulltext Archive Database 1994-2005

Topics: Economics

Notes: This paper reports the results of a Management History Division survey within the Academy of Management which investigated the current status and future direction of management history teaching in the management curriculum and the role and direction of the Management History Division in general. Comparisons were made to a similar 1989 survey. While management history as a separate course remains elusive, management history continues to be taught in other mainstream management courses. The role of the Management History Division is seen as critical in encouraging others to teach management history. Significant accomplishments have been made in this area since the earlier survey including an expanded Executive Committee, a revised newsletter, new awards for service in the field, and the initiation of the Journal of Management History as an outlet for publication in the field.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1108/13552529910282268

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Effect of the Coagulation Bath on the Structure and Mechanical Properties of Gel-Spun Lignin/Poly(vinyl alcohol) Fibers (2017)

Lu, Chunhong ; Blackwell, Charles ; Ren, Qingyuan ; [et al.]

American Chemical Society

In: ACS Sustainable Chemistry & Engineering. 2017; 5(4): 2949-2959. Published 2017 Feb 24. doi: 10.1021/acssuschemeng.6b02423.

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Publication Date: 2017-02-24

Electronic ISSN: 2168-0485

Topics: Chemistry and Pharmacology , Process Engineering, Biotechnology, Nutrition Technology

Published by American Chemical Society

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The impact of breast cancer screening on survival: A 5- to 10-year follow-up study (1986)

Rodes, Ned D. ; Lopez, Marvin J. ; Pearson, Dinah K. ; [et al.]

Wiley

In: Cancer. 1986; 57(3): 581-585. Published 1986 Feb 01. doi: 10.1002/1097-0142(19860201)57:3〈581::aid-cncr2820570331〉3.0.co;2-x.

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Publication Date: 1986-02-01

Print ISSN: 0008-543X

Electronic ISSN: 1097-0142

Topics: Biology , Medicine

Published by Wiley on behalf of American Cancer Society.

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The Impact of Deviation from Michaelis-Menten Saturation on Mathematical Model Stability Properties (1998)

Blackwell, Charles ; Kliss, Mark

In: Other Sources

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Publication Date: 2019-07-18

Description: Based on purely abstract ecological theory, it has been argued that a system composed of two or more consumers competing for the same resource cannot persist. By analysis on a Monod format mathematical model, Hubble and others demonstrated that this assertion is true for all but very special cases of such competing organisms which are determined by an index formed by a grouping of. the parameters which characterize the biological processes of the competing organisms. In the laboratory, using a bioreactor, Hansen and Hubble obtained confirmatory results for several cases of two competing species, and they characterized it as "qualitative confirmation" of the assertion. This result is amazing, since the analysis required the exact equality of the hey index, and it seems certain that no pair of organism species could have exactly equal values. It is quite plausible, however, that pairs of organism species could have approximately equal indices, and the question of how different they could be and still have coexistence of the two (or more) presents itself. In this paper, the pursuit of this question and a compatible resolution is presented.

Keywords: Theoretical Mathematics

Type: International Society for Ecological Modelling Conference; Aug 02, 1998 - Aug 06, 1998; Baltimore, MD; United States

Format: text

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The Dynamics of Cascaded Monod System Models Through Five Levels (1998)

Kliss, Mark ; Blackwell, Charles

In: Other Sources

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Publication Date: 2019-07-18

Description: In the context of this paper, a Monod system model is a set of ordinary differential equations in which the terms resemble those which Motion presented in his 1949 paper. Attention is directed to the multiple trophic level case in which each trophic level exploits only one of the trophic levels for its perpetuation, and no two trophic entities exploit the same trophic level (cascaded). The treatment expands from a primary producer progressively through five trophic levels. Types of stability are identified and are related to persistence, and the consequences of some intuitive scaling structures are developed. These considerations are relevant to some theoretical questions in ecology and to applications such as bioreactor operation.

Keywords: Numerical Analysis

Type: International Society for Ecological Modelling Conference; Aug 02, 1998 - Aug 06, 1998; Baltimore, MD; United States

Format: text

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The Dynamics of Cascaded Monod System Models Through Five Levels (1998)

Blackwell, Charles C. ; Kliss, Mark

In: Other Sources

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Publication Date: 2019-07-18

Description: A Monod system model is a set of ordinary differential equations where the terms resemble those which Monod described in his 1949 paper. We focus on the multiple trophic level case in which each trophic level uses only one of the trophic levels for its perpetuation, and no two trophic entities use the same trophic cascaded level. The treatment derives from a primary producer progressively through five trophic levels. Stability types are identified and are related to persistence, and the consequences of some intuitive scaling structures are developed. These considerations are useful to some theoretical questions in ecology and to applications such as bioreactor operation.

Keywords: Numerical Analysis

Type: International Society for Ecological Modelling (ISEM ''98); Aug 02, 1998 - Aug 06, 1998; Baltimore, MD; United States

Format: text

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Controlling Microbial Byproducts using Model-Based Substrate Monitoring and Control Strategies (2000)

Mancinelli, Rocco L. ; Smernoff, David T. ; Blackwell, Charles ; [et al.]

In: Other Sources

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Publication Date: 2019-07-17

Description: We have developed a computer-controlled bioreactor system to study various aspects of microbially-mediated nitrogen cycling. The system has been used to investigate methods for controlling microbial denitrification (the dissimilatory reduction of nitrate to N2O and N2) in hydroponic plant growth chambers. Such chambers are key elements of advanced life support systems being designed for use on long duration space missions, but nitrogen use efficiency in them is reduced by denitrification. Control software architecture was designed which permits the heterogeneous control of system hardware using traditional feedback control, and quantitative and qualitative models of various system features. Model-based feed forward control entails prediction of future systems in states and automated regulation of system parameters to achieve desired and avoid undesirable system states. A bacterial growth rate model based on the classic Monod model of saturation kinetics was used to evaluate the response of several individual denitrifying species to varying environmental conditions. The system and models are now being applied to mixed microbial communities harvested from the root zone of a hydroponic growth chamber. The use of a modified Monod organism interaction model was evaluated as a means of achieving more accurate description of the dynamic behavior of the communities. A minimum variance parameter estimation routine was also' used to calibrate the constant parameters in the model by iterative evaluation of substrate (nitrate) uptake and growth kinetics. This representation of processes and interactions aids in the formulation of control laws. The feed forward control strategy being developed will increase system autonomy, reduce crew intervention and limit the accumulation of undesirable waste products (NOx).

Keywords: Life Sciences (General)

Type: Intersociety Conference on Environmental Systems; France

Format: text

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Modeling Separate and Combined Atmospheres in BIO-Plex (2000)

Finn, Cory ; Luna, Bernadette ; Kwauk, Xianmin ; [et al.]

In: Other Sources

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Publication Date: 2019-07-17

Description: We modeled BIO-Plex designs with separate or combined atmospheres and then simulated controlling the atmosphere composition. The BIO-Plex is the Bioregenerative Planetary Life Support Systems Test Complex, a large regenerative life support test facility under development at NASA Johnson Space Center. Although plants grow better at above-normal carbon dioxide levels, humans can tolerate even higher carbon dioxide levels. Incinerator exhaust has very high levels of carbon dioxide. An elaborate BIO-Plex design would maintain different atmospheres in the crew and plant chambers and isolate the incinerator exhaust in the airlock. This design easily controls the crew and plant carbon dioxide levels but it uses many gas processors, buffers, and controllers. If all the crew's food is grown inside BIO-Plex, all the carbon dioxide required by the plants is supplied by crew respiration and the incineration of plant and food waste. Because the oxygen mass flow must balance in a closed loop, the plants supply all the oxygen required by the crew and the incinerator. Using plants for air revitalization allows using fewer gas processors, buffers, and controllers. In the simplest design, a single combined atmosphere was used for the crew, the plant chamber, and the incinerator. All gas processors, buffers, and controllers were eliminated. The carbon dioxide levels were necessarily similar for the crew and plants. If most of the food is grown, carbon dioxide can be controlled at the desired level by scheduling incineration. An intermediate design uses one atmosphere for the crew and incinerator chambers and a second for the plant chamber. This allows different carbon dioxide levels for the crew and plants. Better control of the atmosphere is obtained by varying the incineration rate. Less gas processing storage and control is needed if more food is grown.

Keywords: Man/System Technology and Life Support

Type: Life Support and Biosphere Science; Aug 06, 2000 - Aug 09, 2000; Baltimore, MD; United States

Format: text

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Modelling System Processes to Support Uncertainty Analysis and Robustness Evaluation (1996)

Blackwell, Charles ; Cuzzi, Jeffrey

In: Other Sources

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Publication Date: 2019-07-18

Description: In the use of advanced systems control techniques in the development of a dynamic system, results from effective mathematical modelling is required. Historically, in some cases the use of a model which only reflects the "expected" or "nominal" important -information about the system's internal processes has resulted in acceptable system performance, but it should be recognized that for those cases success was due to a combination of the remarkable inherent potential of feedback control for robustness and fortuitously wide margins between system performance requirements and system performance capability. In the cases of a CELSS development, no such fortuitous combinations should be expected, and it should be expected that the uncertainty in the information on the system's processes will have to be taken into account in order to generate a performance robust design. In this paper, we develop one perspective of the issue of providing robustness as mathematical modelling impacts it, and present some examples of model formats which serve the needed purpose.

Keywords: Numerical Analysis

Type: 31st Committee on Space Research (COSPAR) Scientific Committee Conference; Jul 15, 1996 - Jul 21, 1996; Birmingham; United Kingdom

Format: text

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10

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Modeling Separate and Combined Atmospheres in BIO-Plex (2000)

Jones, Harry ; Finn, Cory ; Luna, Bernadette ; [et al.]

In: Other Sources

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Publication Date: 2019-07-17

Description: We modeled BIO-Plex designs with separate or combined atmospheres and then simulated controlling the atmosphere composition. The BIO-Plex is the Bioregenerative Planetary Life Support Systems Test Complex, a large regenerative life support test facility under development at NASA Johnson Space Center. Although plants grow better at above-normal carbon dioxide levels, humans can tolerate even higher carbon dioxide levels. incinerator exhaust has very high levels of carbon dioxide. An elaborate BIO-Plex design would maintain different atmospheres in the crew and plant chambers and isolate the incinerator exhaust in the airlock. This design easily controls the crew and plant carbon dioxide levels but it uses many gas processors, buffers, and controllers. If all the crew's food is grown inside BIO-Plex, all the carbon dioxide required by the plants is supplied by crew respiration and the incineration of plant and food waste. Because the oxygen mass flow must balance in a closed loop, the plants supply all the oxygen required by the crew and the incinerator. Using plants for air revitalization allows using fewer gas processors, buffers, and controllers. In the simplest design, a single combined atmosphere was used for the crew, the plant chamber, and the incinerator. All gas processors, buffers, and controllers were eliminated. The carbon dioxide levels were necessarily similar for the crew and plants. If most of the food is grown, carbon dioxide can be controlled at the desired level by scheduling incineration. An intermediate design uses one atmosphere for the crew and incinerator chambers and a second for the plant chamber. This allows different carbon dioxide levels for the crew and plants. Better control of the atmosphere is obtained by varying the incineration rate. Less gas processing, storage, and control is needed if more food is grown.

Keywords: Life Sciences (General)

Type: International Conference on Environmental Systems; Jul 09, 2001 - Jul 12, 2001; Orlando, FL; United States

Format: text

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