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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Connected mechanical engineering curriculum through a fundamental learning integration platform

Feldhausen, Thomas January 1900 (has links)
Master of Science / Department of Mechanical and Nuclear Engineering / Bruce Babin / To keep students engaged in the learning process, educational engineering institutions need to enhance their curricula. Courses within an undergraduate curriculum need to be connected in a way that is meaningful and promotes student engagement through hands-on learning. Courses are currently designed like silos of knowledge with no connection between them, yet, there needs to be a realistic and practical tie between them. Prior research that addresses course integration, hands-on learning and student engagement has guided the development of this thesis. Building on prior research, a Fundamental Learning Integration Platform (FLIP) has been developed that uses a physical object to integrate traditionally mechanical engineering taught courses with the use of a single ubiquitous object. This learning platform has three desired outcomes: 1) it connects the entire curriculum, 2) it creates a physical connection between theoretical and practical engineering concepts, and 3) it engages and includes every student in the learning process. After identifying research to guide the development of the FLIP as well as identifying courses in a mechanical engineering curriculum, a desktop steam engine was developed and is shown that it is applicable to each course. This physical object acts as the FLIP. Ultimately, it will create a physical connection between theoretical and practical engineering concepts while integrating courses together and actively engaging each student in the learning process. Utilizing the same assessment methods used in the identified research, higher retention rates, increased passing rates of the Fundamentals of Engineering exam, and increased student inclusion in the classroom are all desired measurables of the FLIP. The results of this research have provided a well-developed FLIP that utilizes a physical object to increase student engagement while integrating traditional mechanical engineering courses together.
2

Seeking to control enterprise with architecture : the limits and value of an engineering approach from the perspective of an enterprise architect

Brahm, Mikkel January 2017 (has links)
In this thesis, I challenge assumptions underlying my discipline of enterprise architecture that led to two choices facing practitioners: either to work with tools and techniques which predict and control changes towards predetermined ends or to accept informal processes that are unpredictable and wasteful. Orthodox enterprise architecture defines an enterprise as an organisation, which is a system, and prescribes methods that seek to provide control over the transformation of an organisation into a desired state of affairs by achieving complete knowledge of the system before initiating the desired transformation. Drawing on complexity sciences, I offer a different perspective on organisation and claim that organising what we do is an aspect of doing what we do. Organising is process. I furthermore claim that the people who are organising what we do can act spontaneously and surprise both themselves and others, but often they act habitually. Habitual ways of acting allow us to anticipate to some extent how others are likely to respond to us and, as we grow up, we learn how to behave ourselves, that is, how to adjust our behaviour to what we judge socially acceptable to increase the likelihood of being able to garner support and collaboration. I posit that social control is exercised in this way as mutual self-adjustment that forms what is normal and valued conduct. In other words, our shared social norms and values thus paradoxically and simultaneously form individuals and their conduct and are formed by individuals and their conduct. I claim that in this way we have partial, but never full, knowledge of how others generally respond to certain behaviour of ours. We can ever have only partial knowledge of that which is - in the words of Mannheim - in the process of becoming. I therefore reject the central assumptions upon which orthodox enterprise architecture is based. In organisations, we engineer and exploit mechanical mechanisms that can conduct certain action more effectively and efficiently than people can. Materiality, objects in the world, can resist attempts to shape them to suit our needs but do so without intentionality or spontaneity. Accommodating material resistance is thus repeatable. Enterprise architecture as a discipline grew out of engineering of physical mechanisms and assumes a similar repeatability and predictability when working with the social, which I find to be an unwarranted assumption. I argue against the claim of orthodox enterprise architecture that we can bring about a pre-determined state in a controlled fashion and against the claim that without such control we have informal processes that are inevitably unpredictable and wasteful. I posit that what emerges is paradoxically stable instabilities of socially enabled and constrained recognisable patterns of behaviour. When devising a mechanism in a physical object, such as a software programme, a repertoire of scripted action is transcribed into it which remains constant until transcription is renewed. Transcription has a tendency to render action less fluid. Some members of an organisation may judge particular scripted action to be awkward or detrimental while others may judge the same scripted action to be efficient and beneficial. Thus, determining which scripted action to transcribe into mechanisms is a highly political decision which attracts the attention of skilful political players. Enterprise architects can have a valuable role to play, since we have a better than average partial knowledge about technology, and since technology is increasingly important for many enterprises. I posit that becoming more aware of power and power plays, developing a feel for the game, and becoming more detached about our involvement will allow us to play into what is emerging socially with more political awareness and expertise.

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