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yabo登录GUOJIXITONGGONGCHENGXIEHUIYUANSHI、HUATIELUDAXUEKeith W. HipelJIAOSHOUXUESHUBAOGAO

发布时间: 2009-10-21|浏览次数:

报告题目: Trade versus the Environment: Strategic Settlement from a Systems Engineering Perspective (从系统工程的角度谈经济与环境可持续战略发展)

报告人: 国际系统工程协会院士、滑铁卢大学Keith W. Hipel教授

报告时间: 2008年10月23日上午9: 00

报告地点: 三江楼  15楼报告厅

主办单位:yabo登录

个人简介: KEITH W. HIPEL: 滑铁卢大学资深正教授、IEEE院士、国际系统工程协会院士、加拿大工程院院士、加拿大工程研究院院士、加拿大皇家科学院院士、美国水利资源协会院士。

YOUXIANG: kwhipel@uwaterloo.ca

GERENZHUYE: ww.systems.uwaterloo.ca/Faculty/Hipel/Keith W. Hipel

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报告主要内容:

The key goal of this research is to employ a Systems Engineering approach to conflict resolution to clearly identify the ubiquitous conflict taking place at the local, national and global levels between the basic values underlying trading agreements and those principles providing the foundations for environmental stewardship, and to suggest solutions as to how this most basic of disputes can be responsibly resolved. Subsequent to outlining the current situation involving free trade among nations and associated environmental problems, the positions of both sides in this chronic dispute between trade and the environment are summarized. Supporting the stance of free trade is the fundamental driving forces of profit maximization, while in direct opposition to this market-driven value system are the principles of maintaining a healthy environment and related social welfare objectives. Accordingly, this global clash of values is systematically studied as a game in which the values of the Global Market-Driven Economy (GMDE) are in confrontation with those of a Sustainable Ecosystem (SES) philosophy. A Systems Engineering tool for strategic analysis, called the Graph Model for Conflict, is utilized for realistically capturing the key characteristics of this type of complex conflict and for providing strategic insights regarding its potential resolution. In particular, a systematic Graph Model investigation reveals that the environment and social standards will continue to deteriorate if the entrenched positions and related value systems of both camps persist. However, based on the strategic understanding gained from this formal conflict study, a number of positive proposals are put forward for resolving this conflict from a win/win perspective, at least in the long run. To highlight inherent advantages of employing a formal Systems Engineering tool for addressing strategic conflict problems, the application is used for illustrating how the Graph Model can be conveniently applied to a specific dispute and comments regarding the capabilities and benefits of the conflict methodology are provided at each step in the modeling and analysis procedure.

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