10,174 research outputs found
Refinement of Earth's gravity field with Topex GPS measurements
The NASA Ocean Topography Experiment satellite TOPEX will carry a microwave altimeter accurate to a few centimeters for the measurement of ocean height. The capability can be fully exploited only if TOPEX altitude can be independently determined to 15 cm or better. This in turn requires an accurate gravity model. The gravity will be tuned with selected nine 10-day arcs of laser ranging, which will be the baseline tracking data type, collected in the first six months of TOPEX flight. TOPEX will also carry onboard an experimental Global Positioning System (GPS) flight receiver capable of simultaneously observing six GPS satellites above its horizon to demonstrate the capability of GPS carrier phase and P-code pseudorange for precise determination of the TOPEX orbit. It was found that subdecimeter orbit accuracy can be achieved with a mere two-hour arc of GPS tracking data, provided that simultaneous measurements are also made at six of more ground tracking sites. The precision GPS data from TOPEX are also valuable for refining the gravity model. An efficient technique is presented for gravity tuning using GPS measurements. Unlike conventional global gravity tuning, this technique solves for far fewer gravity parameters in each filter run. These gravity parameters yield local gravity anomalies which can later be combined with the solutions over other parts of the earth to generate a global gravity map. No supercomputing power will be needed for such combining. The approaches used in this study are described and preliminary results of a covariance analysis presented
A network centrality method for the rating problem
We propose a new method for aggregating the information of multiple reviewers
rating multiple products. Our approach is based on the network relations
induced between products by the rating activity of the reviewers. We show that
our method is algorithmically implementable even for large numbers of both
products and consumers, as is the case for many online sites. Moreover,
comparing it with the simple average, which is mostly used in practice, and
with other methods previously proposed in the literature, it performs very well
under various dimension, proving itself to be an optimal trade--off between
computational efficiency, accordance with the reviewers original orderings, and
robustness with respect to the inclusion of systematically biased reports.Comment: 25 pages, 8 figure
REPdenovo: Inferring De Novo Repeat Motifs from Short Sequence Reads.
Repeat elements are important components of eukaryotic genomes. One limitation in our understanding of repeat elements is that most analyses rely on reference genomes that are incomplete and often contain missing data in highly repetitive regions that are difficult to assemble. To overcome this problem we develop a new method, REPdenovo, which assembles repeat sequences directly from raw shotgun sequencing data. REPdenovo can construct various types of repeats that are highly repetitive and have low sequence divergence within copies. We show that REPdenovo is substantially better than existing methods both in terms of the number and the completeness of the repeat sequences that it recovers. The key advantage of REPdenovo is that it can reconstruct long repeats from sequence reads. We apply the method to human data and discover a number of potentially new repeats sequences that have been missed by previous repeat annotations. Many of these sequences are incorporated into various parasite genomes, possibly because the filtering process for host DNA involved in the sequencing of the parasite genomes failed to exclude the host derived repeat sequences. REPdenovo is a new powerful computational tool for annotating genomes and for addressing questions regarding the evolution of repeat families. The software tool, REPdenovo, is available for download at https://github.com/Reedwarbler/REPdenovo
Revenue Sharing and Control Rights in Team Production: Theories and Evidence from Joint Ventures.*
This paper presents a model of the joint venture that is grounded in the stylized facts we found from a sample of 200 joint venture contracts. The model incorporates the revenue-sharing contract into the incomplete contract frameworks of Grossman-Hart-Moore Property Rights Theory and the Transaction Cost Theory of the firm, and emphasizes the impact of expropriation. Joint control can be optimal as well as unilateral control. Our econometric analysis of the revenue-sharing and control arrangements o?ers strong support to our Property-Rights-Theory motivated model with self investment but rejects that with cooperative investment. The Transaction-Cost-Theory motivated model leaves some important empirical findings unexplained. Our findings also reject some of the existing theories of joint ownership.http://deepblue.lib.umich.edu/bitstream/2027.42/39948/2/wp563.pd
A new SOLT calibration method for leaky on-wafer measurements using a 10-term error model
We present a new Short-Open-Load-Thru (SOLT) calibration method for on-wafer S-parameter measurements. The new calibration method is based on a 10-term error model which is a simplified version of the 16-term error model. Compared with the latter, the former ignores all signal leakages except the ones between the probes. Experimental results show that this is valid for modern vector network analyzers (VNA). The advantage of using this 10-term error model is that the exact values of all error terms can be obtained by using the same calibration standards as the conventional SOLT method. This avoids not only the singularity problem with approximate methods, such as least squares, but also the usage of additional calibration standards. In this paper, we first demonstrate how the 10-term error model is developed and then the experimental verification of the theory is given. Finally, a practical application of the error model using a 10 dB attenuator from 140 GHz to 220 GHz is presented. Compared with the conventional SOLT calibration method without crosstalk corrections, the new method shows approximately 1 dB improvement in the transmission coefficients of the attenuator at 220 GHz
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