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The fuzzy logic control of an active vehicle suspension /Barr, Andrew J. January 1996 (has links)
Thesis (M.S.)--Youngstown State University, 1996. / Includes bibliographical references (leaves 57-59)
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Ecological management of the Sussex South Downs : applications of GIS and landscape ecologyBurnside, Niall George January 2000 (has links)
The South Downs Area of Outstanding Natural Beauty is a nationally important conservation area, which contains a significant proportion (28%) of the South East calcareous grassland resource. The traditional calcareous grassland habitats characteristic of the Downland landscape have suffered significant losses since the Second World War, and the remaining sites are small, fragmented and confined to the more marginal areas, often the steeper slopes. The recreation and regeneration of these species-rich grasslands has become an important aim of regional conservation organisations, but the methods and mechanisms by which restoration sites could be identified has not been clarified. The work reported here aims, by the integration of landscape ecology and Geographical Information Systems, to develop a sound methodological approach for the targeting of sites for restoration and regeneration of calcareous grassland on the South Downs. The study examines temporal land use dynamics of the Downland and the predominant land conversion sequences are identified. Land management changes between 1971 and 1991 are assessed, and sites of unimproved grassland and those sites considered more marginal to modem intensive farming approaches are identified. The structure of the Downs landscape is investigated at the landscape, habitat and community level using fine-scale spatial data. Particular emphasis is placed upon the remaining calcareous resource and the extent of habitat loss and fragmentation is quantified. Analysis at the community level shows a clear relationship between community richness and habitat area. The analysis identifies key attributes of calcareous grassland sites and provides a baseline from which to formulate restoration targets and objectives. Finally, using fuzzy logic, a GIS-based Habitat Suitability Model is developed for use as a tool to support strategic landscape evaluation and to provide a method of identifying areas of search and site selection for targeted restoration. The approach models the relationships between specific grassland communities and landscape position, and is applied to the South Downs landscape in order to predict the nature of grassland communities likely to result from restoration efforts at specific sites.
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Dynamic learning behaviour of a rule-based self-organising controllerLembessis, Evangelos January 1984 (has links)
No description available.
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Humanist computing for knowledge discovery from ordered datasetsRossiter, Jonathan Michael January 1999 (has links)
No description available.
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Hard and soft computing techniques for non-linear modeling and control with industrial applicationsSoufian, Majeed January 2002 (has links)
No description available.
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Beam analysis for the safe and effective use of lasersLander, Rachel Jane January 1999 (has links)
No description available.
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Intelligent assembly from a tactile approachBancroft, C. N. January 1996 (has links)
No description available.
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An investigation into the merits of fuzzy logic control versus classical control.Florence, Stuart Douglas. January 1996 (has links)
A project report submitted to the Faculty of
Engineering, University of the
Witwatersrand, Johannesburg, in partial
fulfilment of the requirements for the degree
of Master of Science in Engineering. / Up to now the benefits and problems with fuzzy control have not been fully
identified and its role in the control domain needs investigation. The past trend has
been to show that a fuzzy controller can provide better control than classical
control, without examining what is actually being achieved. The aim in this project
report is to give a fair comparison between classical and fuzzy control. Robustness,
disturbance rejection, noise suppression" nonminimurn phase and dead time are
examined for both controllers. The comparison is performed through computer
simulation of classical and fuzzy controlled plant models. Fuzzy control has the
advantage of non-linear performance and the ability to capture linguistic
information. Translating quantitative information into the fuzzy domain is difficult;
therefore when the system is easily mathematically modelled and linear, classical
control is usually better. Which controller should be used depends on the
application, control designer and information available. / Andrew Chakane 2018
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Development of a hierarchical fuzzy model for the evaluation of inherent safetyGentile, Michela 15 November 2004 (has links)
Inherent safety has been recognized as a design approach useful to remove or reduce hazards at the source instead of controlling them with add-on protective barriers. However, inherent safety is based on qualitative principles that cannot easily be evaluated and analyzed, and this is one of the major difficulties for the systematic application and quantification of inherent safety in plant design. The present research introduces the use of fuzzy logic for the measurement of inherent safety by proposing a hierarchical fuzzy model. This dissertation establishes a novel conceptual framework for the analysis of inherent safety and proposes a methodology that addresses several of the limitations of the methodologies available for current inherent safety analysis. This research proposes a methodology based on a hierarchical fuzzy model that analyzes the interaction of variables relevant for inherent safety and process safety in general. The use of fuzzy logic is helpful for modeling uncertainty and subjectivities implied in evaluation of certain variables and it is helpful for combining quantitative data with qualitative information. Fuzzy logic offers the advantage of being able to model numerical and heuristic expert knowledge by using fuzzy IF-THEN rules. Safety is traditionally considered a subjective issue because of the high uncertainty associated with its significant descriptors and parameters; however, this research recognizes that rather than subjective, "safety" is a vague problem. Vagueness derives from the fact that it is not possible to define sharp boundaries between safe and unsafe states; therefore the problem is a "matter of degree". The proposed method is computer-based and process simulator-oriented in order to reduce the time and expertise required for the analysis. It is expected that in the future, by linking the present approach to a process simulator, process engineers can develop safety analysis during the early stages of the design in a rapid and systematic way. Another important aspect of inherent safety, rarely addressed, is transportation of chemical substances; this dissertation includes the analysis of transportation hazard by truck using a fuzzy logic-based approach.
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Development of a hierarchical fuzzy model for the evaluation of inherent safetyGentile, Michela 15 November 2004 (has links)
Inherent safety has been recognized as a design approach useful to remove or reduce hazards at the source instead of controlling them with add-on protective barriers. However, inherent safety is based on qualitative principles that cannot easily be evaluated and analyzed, and this is one of the major difficulties for the systematic application and quantification of inherent safety in plant design. The present research introduces the use of fuzzy logic for the measurement of inherent safety by proposing a hierarchical fuzzy model. This dissertation establishes a novel conceptual framework for the analysis of inherent safety and proposes a methodology that addresses several of the limitations of the methodologies available for current inherent safety analysis. This research proposes a methodology based on a hierarchical fuzzy model that analyzes the interaction of variables relevant for inherent safety and process safety in general. The use of fuzzy logic is helpful for modeling uncertainty and subjectivities implied in evaluation of certain variables and it is helpful for combining quantitative data with qualitative information. Fuzzy logic offers the advantage of being able to model numerical and heuristic expert knowledge by using fuzzy IF-THEN rules. Safety is traditionally considered a subjective issue because of the high uncertainty associated with its significant descriptors and parameters; however, this research recognizes that rather than subjective, "safety" is a vague problem. Vagueness derives from the fact that it is not possible to define sharp boundaries between safe and unsafe states; therefore the problem is a "matter of degree". The proposed method is computer-based and process simulator-oriented in order to reduce the time and expertise required for the analysis. It is expected that in the future, by linking the present approach to a process simulator, process engineers can develop safety analysis during the early stages of the design in a rapid and systematic way. Another important aspect of inherent safety, rarely addressed, is transportation of chemical substances; this dissertation includes the analysis of transportation hazard by truck using a fuzzy logic-based approach.
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