452 research outputs found
Framing Climate Policy Debates: Science, Network, and U.S. Congress, 1976-2007
Debates on global climate change (GCC) have been heavily influenced by such factors as scientific evidence, media coverage, public concerns, partisan interest, and so forth. Focusing on the linkages among the congressional committees, hearings, and invited witnesses (and their sectors), this study investigates the relational conditions under which congressional committees have mobilized climate expertise to discuss climate change issues for the past decades in U.S. Congress. Our findings show that agenda setting and witness selection by the committees significantly differed across the party lines: more environmental scientists were invited to define GCC as a threat in Democratic Congresses, whereas industrial scientists, to search for solutions in Republican Congresses. Except for a few proactive committees, committee jurisdiction was limitedly exercised. Our findings presents strong evidence along which climate policy debates have been framed based on a biased input of climate expertise
A Unified Framework for Testing High Dimensional Parameters: A Data-Adaptive Approach
High dimensional hypothesis test deals with models in which the number of
parameters is significantly larger than the sample size. Existing literature
develops a variety of individual tests. Some of them are sensitive to the dense
and small disturbance, and others are sensitive to the sparse and large
disturbance. Hence, the powers of these tests depend on the assumption of the
alternative scenario. This paper provides a unified framework for developing
new tests which are adaptive to a large variety of alternative scenarios in
high dimensions. In particular, our framework includes arbitrary hypotheses
which can be tested using high dimensional -statistic based vectors. Under
this framework, we first develop a broad family of tests based on a novel
variant of the -norm with . We then combine these
tests to construct a data-adaptive test that is simultaneously powerful under
various alternative scenarios. To obtain the asymptotic distributions of these
tests, we utilize the multiplier bootstrap for -statistics. In addition, we
consider the computational aspect of the bootstrap method and propose a novel
low-cost scheme. We prove the optimality of the proposed tests. Thorough
numerical results on simulated and real datasets are provided to support our
theory
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