Theories of function in design: Difference between revisions

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He will be conducting research into how a system’s attributes influence its capacity to function under uncertain operating conditions. These systems can be of many different kinds, including technical systems (e.g. machines and software), biological systems (e.g. organisms and ecologies) and social systems (e.g. institutions and regulations). These system types can also be combined into hybrid systems, including socio-technical systems (e.g. airports, cities and power systems). All these system types operate under uncertain conditions, whether that uncertainty relates to the environment in which the system must function, the state of the system itself or the demands that are placed upon it. Across different types of system, there are recurring system attributes that can be observed to influence a system’s capacity to function under uncertain operating conditions. These attributes are often described by terms such as ‘modularity’, ‘redundancy’, ‘scalability’, ‘robustness’, and so on. He will be working to identify, define and classify such system attributes, and explore how they apply to different system types and different kinds of uncertainty.
He will be conducting research into how a system’s attributes influence its capacity to function under uncertain operating conditions. These systems can be of many different kinds, including technical systems (e.g. machines and software), biological systems (e.g. organisms and ecologies) and social systems (e.g. institutions and regulations). These system types can also be combined into hybrid systems, including socio-technical systems (e.g. airports, cities and power systems). All these system types operate under uncertain conditions, whether that uncertainty relates to the environment in which the system must function, the state of the system itself or the demands that are placed upon it. Across different types of system, there are recurring system attributes that can be observed to influence a system’s capacity to function under uncertain operating conditions. These attributes are often described by terms such as ‘modularity’, ‘redundancy’, ‘scalability’, ‘robustness’, and so on. He will be working to identify, define and classify such system attributes, and explore how they apply to different system types and different kinds of uncertainty.
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Revision as of 06:55, 6 September 2013

Nathan Crilly has been appointed to the Crausaz Wordsworth Interdisciplinary Fellowship in Philosophy at CRASSH, where he will be exploring the topic:

How System Attributes Influence System Function

He will be conducting research into how a system’s attributes influence its capacity to function under uncertain operating conditions. These systems can be of many different kinds, including technical systems (e.g. machines and software), biological systems (e.g. organisms and ecologies) and social systems (e.g. institutions and regulations). These system types can also be combined into hybrid systems, including socio-technical systems (e.g. airports, cities and power systems). All these system types operate under uncertain conditions, whether that uncertainty relates to the environment in which the system must function, the state of the system itself or the demands that are placed upon it. Across different types of system, there are recurring system attributes that can be observed to influence a system’s capacity to function under uncertain operating conditions. These attributes are often described by terms such as ‘modularity’, ‘redundancy’, ‘scalability’, ‘robustness’, and so on. He will be working to identify, define and classify such system attributes, and explore how they apply to different system types and different kinds of uncertainty.