This chapter challenges the capability of the ecosystem service to obtain sustainable development beyond awareness raising, based on the urgency to deliver sound results for implementation versus the large uncertainties inherent in the different research fields involved and their integration. The authors identify ten main sources of uncertainty that may affect policy and management decisions, and propose three independent strategies for individual researchers, commissioners and stakeholders to account for methodological risks and best practices in methodologies, dissemination, or application of results, even under restricted budgets or project goals. The chapter argues for a clear and transparent ecosystem services research policy on methodology development, uncertainty acknowledgment, and communication.
This chapter challenges the capability of the ecosystem service to obtain sustainable development beyond awareness raising, based on the urgency to deliver sound results for implementation versus the large uncertainties inherent in the different research fields involved and their integration. The authors identify ten main sources of uncertainty that may affect policy and management decisions, and propose three independent strategies for individual researchers, commissioners and stakeholders to account for methodological risks and best practices in methodologies, dissemination, or application of results, even under restricted budgets or project goals. The chapter argues for a clear and transparent ecosystem services research policy on methodology development, uncertainty acknowledgment, and communication.
The term “control theory” refers to the body of results - theoretical, numerical and algorithmic - which have been developed to influence the evolution of the state of a given system in order to meet a prescribed performance criterion. Systems of interest to control theory may be of very different natures. This monograph is concerned with models that can be described by partial differential equations of evolution. It contains five major contributions and is connected to the CIME Course on Control of Partial Differential Equations that took place in Cetraro (CS, Italy), July 19 - 23, 2010. Specifically, it covers the stabilization of evolution equations, control of the Liouville equation, control in fluid mechanics, control and numerics for the wave equation, and Carleman estimates for elliptic and parabolic equations with application to control. We are confident this work will provide an authoritative reference work for all scientists who are interested in this field, representing at the same time a friendly introduction to, and an updated account of, some of the most active trends in current research.
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