(systems engineering course) select a large complex system example and explain h
ID: 1885297 • Letter: #
Question
(systems engineering course)select a large complex system example and explain how the engineering systems approach could provide useful solutions that would have wide acceptance across many communities.
at least one page description-you can use graphics. explain your system approach step by step.
for example you can choose: factory, university, airport (systems engineering course)
select a large complex system example and explain how the engineering systems approach could provide useful solutions that would have wide acceptance across many communities.
at least one page description-you can use graphics. explain your system approach step by step.
for example you can choose: factory, university, airport (systems engineering course)
at least one page description-you can use graphics. explain your system approach step by step.
for example you can choose: factory, university, airport at least one page description-you can use graphics. explain your system approach step by step.
for example you can choose: factory, university, airport
Explanation / Answer
our system engineering training provides an integreted approach to the set of management and technical disciplines that combine to optimize system effectiveness , enhance project success and redusce risk . a single system is then taken in workshop format through all process areas.
A New Syatem Approach to Sustainability : University Responsibility for Teaching Sustainability in Contexts - A systems theory approach to sustainability in five contexts—social/cultural, economic, environmental, technical, and individual—is a realistic and useful approach to researching and teaching sustainability in the university. As a springboard for social change, the university needs to develop values-based sustainability content for classes across disciplines, and especially address the careful assessment and evaluation of both human and technical factors for solving sustainability problems.
1 ) Social and Cultural Sustainability - Social sustainability refers to the ongoing human and institutional balance and prosperity that characterize a healthy social unit, and includes justice, equity, fairness, the role of individuals, relationships among social groups, the family, collective behavior, social class, race and ethnicity, medicine, education, and the role of institutions in society. Cultural factors include the shared values, attitudes, beliefs, behaviors, and social practices that characterize human knowledge and action (e.g., fine arts, humanities,the social sciences,the transmission
and communication of knowledge, shared everyday way of life) . How the design and marketing of products, processes, and services tend to change how we live often requires changes in design to assess and evaluate their effect on human factors and to predict the results. An awareness of these factors may drive the decision as whether or not to develop or market a product, implement a business process, or provide a service. Again, this requires a greater understanding of the tension, reciprocal influences, and ethics among profit,power, and human well-being.
2) Economic Sustainability
Beyond the necessary profit
-making policies and strategies related to the design and development of a process, product, or service,economic sustainability addresses factors in design that influence the economic health and profile of communities including the standard of living, the business climate, employment, and the productive role of the corporation in the life of a community. Sustainable economic and business practices most certainly have an influence on the sustainability of products and industrial processes produced but, as importantly, on the internal employee practices that promote and protect individual well-being, opportunity, and productivity. In short, corporations need to develop a community and global consciousness,and the awareness to determine how internal economic policies and practices can promote sustainable local, regional, and global communities. Considering themselves a part of a larger economic system,rather than competing with each other, might ensure the survival of corporations by contributing to a healthy economic system.It is imperative that corporations function as “corporate citizens” who have a civic stake in the community,embrace the accompanying ethical responsibility that goes beyond competition and their own financial or political interests, and relinquish caveat emptor as an excuse for economic abuse.
3) Environmental Sustainability - Environmental sustainability is an approach to the engineering of processes, products, and structure which has as, indefinitely, a less negative or neutral, or a benign effect on all environmental systems. Sustainable design tends to produce products in which nature is not subject to continual increased use of natural resources, increases in substances produced by society, and increases in waste products and the effects of their degradation. Often, decisions related to promoting environmental sustainability have traditionally required trade-offs among market forces, resource availability, and technology, but largely ignore the integrity of the Natural World. They may include the consideration of some human factors - but often ignore or deemphasize quality of life issues related to the economic, social, and cultural well - being of a population.Determining the sustainability of a product, process, or human community depends upon the careful and complete assessment and evaluation of a range of technical and human factors that may (or may not) be influenced by a particular design. For example, the oft-used life-cycle analysis approach must include societal factors, not simply those related to the environment or useful life of a product or process.Too often, profit is considered before the value and health of environmental conditions related to a project. One cannot be too frank on this topic; it is quite clear that our values as a people are far too often related to financial gain than to the health and welfare of our peoples and those who will follow us. Our global conversations more often focus on economic development and not often enough on human prosperity and survival. We have certainly reached a point in our treatment of global biological systems that we can no longer rely on prospective future advances in technology to solve our current problems, nor can we trust those whose values do not promote human well-being. Few of our political, corporate, or religious leaders are truly exempt from this characterization.
4 ) Technical Sustainability - Technical sustainability addresses a wide variety of mechanical and technical factors that constitute the design and manufacture of products, especially the 1) scientific research and appropriate technology (compared to alternatives) supporting product design,function, and development; 2) ease and efficiency of durable construction and use; 3) maintenance and functioning capabilities that meet the objectives for which a product is designed; 4) material selection; and 5) reduction, recovery, reuse, or disposal of parts and unused materials.Technical sustainability promotes manufacturing processes and industrial practices that are less invasive or destructive to environmental, social, or economic contexts and yield, ideally, a neutralor positive effect on these contexts. Although technical design is not considered a “human factor” in design, one’sapproach to learning and applying technical design skills must reflect an understanding of and sensitivity to the manufacturing and production contexts in which these skills will be employed (including user interface), and products and processes that result.
5) Individual Sustainability - An important context missing from most discussions of sustainability,especially with in academia (or society in general), is individual sustainability. Living a sustainable lifestyle includes creating harmony, interconnection, and relatively high levels of awareness in one’s values, thoughts,and behaviors,as well as maintaining an increasing control over one’s physical, emotional,social, philosophical,environmental,and intellectual life. The general dispositions that support individual sustainability are awareness, motivation, and the ability to engage in intentional self-development. As well,individual sustainability includes possessing a well-developed and demonstrated value system that acknowledges the interconnectedness of all global biological systems and our appropriate place in the Natural World. Individual sustainability is likely the most important factor influencing the success of activities in the other four contexts.If one understands the complexities and interconnectedness of one’s own individual sustainability contexts, then he or she might well transfer this systems knowledge to understanding community and global sustainability.
Related Questions
Navigate
Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.