3,683 research outputs found

    Radiometric correction procedure study

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    A comparison of MSS radiometric processing techniques identified as a preferred radiometric processing technique a procedure which equalizes the mean and standard deviation of detector-specific histograms of uncalibrated scene data. Evaluation of MSS calibration data demonstrated that the relationship between detector responses is essentially linear over the range of intensities typically observed in MSS data, and that the calibration wedge data possess a high degree of temporal stability. An analysis of the preferred radiometric processing technique showed that it could be incorporated into the MDP-MSS system without a major redesign of the system, and with minimal impact on system throughput

    Thematic mapper design parameter investigation

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    This study simulated the multispectral data sets to be expected from three different Thematic Mapper configurations, and the ground processing of these data sets by three different resampling techniques. The simulated data sets were then evaluated by processing them for multispectral classification, and the Thematic Mapper configuration, and resampling technique which provided the best classification accuracy were identified

    Achieving Foundation Accountability and Transparency: Lessons From the Robert Wood Johnson Foundation’s \u3ci\u3eScorecard\u3c/i\u3e

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    · The purpose of this article is to help foundations in their accountability and transparency efforts by sharing lessons from one foundation’s journey to develop a scorecard. · A commitment to funding and sharing the results from rigorous evaluations set the tone for Robert Wood Johnson Foundation (RWJF) accountability. · The Scorecard is a powerful tool for RWJF to set goals, track organizational effectiveness, and motivate responses to shortcomings. · Foundations can tailor their scorecard to include what best serves their needs. · With its Scorecard, RWJF found that comparative and quantitative measures are the most powerful forces to motivate change. · Setting targets motivates staff to focus their efforts on certain areas and make improvements

    Some Proposed Changes to the Florida Constitution

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    A Mathematical Modeling Framework for Analysis of Functional Clothing

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    In the analysis and design of functional clothing systems, it is helpful to quantify the effects of a system on a wearer’s physical performance capabilities. Toward this end, a clothing modeling framework for quantifying the mechanical interactions between a given clothing system design and a specific wearer performing defined physical tasks is proposed. The modeling framework consists of three interacting modules: (1) a macroscale fabric mechanics/dynamics model; (2) a collision detection and contact correction module; and (3) a human motion module. In the proposed framework, the macroscopic fabric model is based on a rigorous large deformation continuum-degenerated shell theory representation. Material models that capture the stress-strain behavior of different clothing fabrics are used in the continuum shell framework. The collision and contact module enforces the impenetrability constraint between the fabric and human body and computes the associated contact forces between the two. The human body is represented in the current framework as an assemblage of overlapping ellipsoids that undergo rigid body motions consistent with human motions while performing actions such as walking, running, or jumping. The transient rigid body motions of each ellipsoidal body segment in time are determined using motion capture technology. The integrated modeling framework is then exercised to quantify the resistance that the clothing exerts on the wearer during the specific activities under consideration. Current results from the framework are presented and its intended applications are discussed along with some of the key challenges remaining in clothing system modeling
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