Probing the largest scale structure in the universe with polarization map of galaxy clusters

We introduce a new formalism to describe the polarization signal of galaxy clusters on the whole sky. We show that a sparsely sampled, half-sky map of the cluster polarization signal at $z\sim 1$ would allow to better characterize the very large scale density fluctuations. While the horizon length is smaller in the past, two other competing effects significantly remove the contribution of the small scale fluctuations from the quadrupole polarization pattern at $z\sim 1$. For the standard Lambda-CDM universe with vanishing tensor mode, the quadrupole moment of the temperature anisotropy probed by WMAP is expected to have a ~32% contribution from fluctuations on scales below 6.3h^{-1}Gpc. This percentage would be reduced to ~2% level for the quadrupole moment of polarization pattern at $z\sim 1$. A cluster polarization map at $z \sim 1$ would shed light on the potentially anomalous features of the largest scale structure in the observable universe.Comment: 5 pages, 2 figures, revised version, to appear in PR

LINEAR AND ANGULAR CONTRIBUTIONS TO BALL VELOCITY IN THE DELIVERY MOTION AMONG VARIOUS LEVELS OF BASEBALL INFIELDER

The purpose of this study was to investigate the linear and angular contributions to ball velocity of the delivery motion among junior high school (group J), high school (group H), and collegiate (group C) baseball infielders by using 3D videography. A total of 54 infielders were asked to throw a baseball quickly and accurately with full effort. Our results indicated that the ball velocity increased with progression in player level (group J, 28.3 m/s; group H, 31.8 m/s; group C, 33.2 m/s). Angle and height of ball release were significantly larger in group J than in groups H and C. Contributions of the forward and upward translations of the body to the ball velocity were, respectively, 6% and 10−15%, with the rest due to the rotations of the body. These results indicate that the rotations of the body are crucial for the increase of ball velocity

Coalition structure generation in cooperative games with compact representations

This paper presents a new way of formalizing the coalition structure generation problem (CSG) so that we can apply constraint optimization techniques to it. Forming effective coalitions is a major research challenge in AI and multi-agent systems. CSG involves partitioning a set of agents into coalitions to maximize social surplus. Traditionally, the input of the CSG problem is a black-box function called a characteristic function, which takes a coalition as input and returns the value of the coalition. As a result, applying constraint optimization techniques to this problem has been infeasible. However, characteristic functions that appear in practice often can be represented concisely by a set of rules, rather than treating the function as a black box. Then we can solve the CSG problem more efficiently by directly applying constraint optimization techniques to this compact representation. We present new formalizations of the CSG problem by utilizing recently developed compact representation schemes for characteristic functions. We first characterize the complexity of CSG under these representation schemes. In this context, the complexity is driven more by the number of rules than by the number of agents. As an initial step toward developing efficient constraint optimization algorithms for solving the CSG problem, we also develop mixed integer programming formulations and show that an off-the-shelf optimization package can perform reasonably well

Distribution of Diacylglycerylhydroxymethyltrimethyl-β-alanine (DGTA) and Phosphatidylcholine in Brown Algae

Lipids were analyzed in thirteen species of brown algae collected at the seashore near Tokyo, Japan. Diacylglycerylhydroxymethyltrimethyl-β-alanine (DGTA), a recently identified betaine lipid, was found as a major lipid component in eight species of brown algae examined, namely, Ishige okamurai, Dictyota dichotoma, Pachydictyon coriaceum, Padina arborescens, Hizikia fusiformis, Sargassum horneri, S. ringgoldianum and S. thunbergii. However, phosphatidylcholine (PC) was not detected in any of these algae except I. okamurai. By contrast, PC was found as a major lipid component in five other species, namely, Colpomenia sinuosa, Endarachne binghamiae, Scytosiphon lomentarius, Eisenia bicyclis, Undaria pinnatifida. These algae in turn did not contain detectable amounts of DGTA. The fatty acid composition of four selected species, S. lomentarius, U. pinnatifida, D. dichotoma and H. fusiformis, was also studied. The fatty acid components of DGTA in D. dichotoma and H. fusiformis were similar to those of PC in U. pinnatifida, the major components being 16:0, 18:2 and 20:4ω6 (also 16:1 in D. dichotoma

KINEMATICS OF MEN STRIKING MOTION IN EIGHTH DAN KENDO PLAYERS

The purpose of this study was to explore the time series kinematic variations during the men striking motion in eighth dan kendo players. Moreover, the magnitude of the individual difference and timing at which it appeared were investigated. Ten eighth dan kendo players performed men striking towards one of two targets (men or kote) with maximum effort immediately after an LED lamp was lighted. The motions were recorded using a motion capture system. This study examined the time series kinematic variations during the men striking motion, and revealed that the movements of the shinai (sword), right and left shoulders, and right hip differed substantially among individuals from each standard deviation

肩甲切痕のバリエーション-3DCT による検討

BACKGROUND:Although cadaveric studies have revealed suprascapular notch shape variations, few have investigated the association between suprascapular notch variation and age or gender. The purpose of this study was to investigate suprascapular notch shape variations by use of three-dimensional computed tomography (3DCT) and to determine if there was any association with age or gender.METHODS:Three-dimensional CT images of 762 shoulders of 762 patients were analyzed in this study. Participants comprised 404 men and 358 women, with an average age of 58.2 ± 19.1 years. Suprascapular notch shape variations were classified into six types on the basis of Rengachary's classification.RESULTS:Of the total study population, 11.4% were classified as type I, 23.5% as type II, 30.1% as type III, 14.8% as type IV, 15.9% as type V, and 4.3% as type VI. Average age was 56.5 ± 20.5 years for type I, 57.0 ± 19.5 years for type II, 55.5 ± 20.0 years for type III, 56.4 ± 18.5 years for type IV, 65.5 ± 14.4 years for type V, and 68.0 ± 13.4 years for type VI. Statistically significant age differences were found between types I-IV and V, between types I-IV and VI, and between the non-ossification group (types I-IV) and the ossification group (types V and VI). Male-to-female ratio among each type, and between the non-ossification group and the ossification group, were not statistically significantly different.CONCLUSIONS:Our results suggest that transverse scapular ligament ossification is associated with aging whereas individual variation explains differences among types I, II, III, and IV. Three-dimensional CT provides useful information for arthroscopic resection of the transverse scapular ligament, when the wide variety of suprascapular notch shape variations is considered.LEVEL OF EVIDENCE:Level IV.博士（医学）・乙第1361号・平成27年5月28日© Springer International Publishing AG, Part of Springer Science+Business Media. The definitive version is available at " http://dx.doi.org/10.1007/s00776-014-0636-x "© The Japanese Orthopaedic Association 201