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    Thoracostrongylus formosanus Shibata 1982

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    Thoracostrongylus formosanus Shibata, 1982 (Figs. 17, 53) Material examined. TAIWAN: Hualien County: 55 spec., Guanyuan (Mẉ), alt. 2200~ 2300 m, 24°11’12”N, 121°20’00”E // 27. VI.2006, Pitfall traps, with carrions, leg. Y.-F. Hsu (TARI); 4 spec., same data as above// Thoracostrongylus formosanus SHIBATA det Schillhamer ’10 (TARI); 7 spec., same data as above// 22~ 29. VIII. 2006, Pitfall traps, with carrions, leg. Y.-F. Hsu (TARI); 1 spec., same data as above// 22~ 29.VIII.2006, Pitfall traps with fruits, leg. L-H. Wang, J.-K. Wang, J.-J. Lyu, J.-H. Lin, M.-S. Sun (TARI); 5 spec., Pilu (āó), alt. 2100 m, 24°10’58”N, 121°23’16”E // 13~ 21.IX.2006, Pitfall traps with fruits, leg. J.-K. Wang, J.-H. Lin, M.-C. Ke, M.-S. Sun (TARI); 1 spec., same data as above// 20.VII.2006, Pitfall traps, with carrions, leg. Y.-F. Hsu (TARI); 12 spec., same data as above// 06. V5.2006, Pitfall traps with carrions, leg. Y.-F. Hsu (TARI); 2 spec., same data as above// Thoracostrongylus formosanus SHIBATA det Schillhamer ’10 (TARI); 14 spec., same locality as above but no coordinate, 28.II.2006, leg. Y.-F. Hsu (TARI); 4 spec., same data as above// Thoracostrongylus formosanus SHI- BATA det Schillhamer ’10 (TARI); 51 spec., same data as above except 06. V.2006, leg. Y.-F. Hsu (TARI); 2 spec., same data as above// Thoracostrongylus formosanus SHIBATA det Schillhamer ’10 (TARI); 1 spec., same data as above except 12. VI.2010, leg. W.-P. Chan (TARI); 3 spec., same data as above except 05.VII.2010, leg. W.-P. Chan (TARI); 3 spec., Biliu Shemu (āóė+), 6–27. V.2006, leg. Y.-F. Hsu // corpse (small white rat) trap [in Chinese] (TARI); 1 spec., Songcyuangang (Ẹẽà), alt. 2400~ 2500 m, 24°12’11”N, 121°17’17”E // 22~ 29.VIII.2006, Pitfall traps with fruits, leg. L.-H. Wang, J.-K. Wang, J.-J. Lyu, J.-H. Lin, M.-S. Sun (TARI); 1 spec., Dayuling (± Þ ờ), 6–27. V.2006, leg. Y.-F. Hsu // corpse (small white rat) trap [in Chinese] (TARI); 3 spec., Kuanyun (PĔ), 18.IX.2010, leg. W.-P. Chan (TARI); 1 spec., same data as above except 12. VI.2010 (TAIR); 1 spec., same data as above except 05.VII.2010 (TARI); 1 spec., Pulowan (ħüá) (2A-1), 13.III.2010, leg. W.-P. Chan (TARI); 1 spec., Ṅ 8 Ṛ [= Central Cross-Island Highway (ďǔḇƃŵớ)] 113.5~114K, 18.IX.2010, leg. W.-P. Chan (TARI); 1 spec., Ṅ 8 Ṛ [= Central Cross-Island Highway (ďǔḇƃŵớ)] 132~132.5K, 20.III.2010, leg. W.-P. Chan (TARI); 14 spec., Kalabao (卡 Ḥơ), Xiulin To., 24.1655, 121.4053, ca. 2000m, 15~ 17-VII-2019 leg. B. H. Ho by FIT (FSHc); 2 spec., same data as above except 05.VII.2010 (TARI); 3 spec., Ṅ 8 Ṛ [= Central Cross-Island Highway (ďǔḇƃŵớ)] 140.5~141K, 25.IX.2010, leg. W.P. Chan (TARI); 1 spec., same data as above except 18.IX.2010 (TARI); 9 spec., same data as above except 05.VII.2010 (TARI); 9 spec., same data as above except 27. VI.2010 (TARI); 1 spec., same data as above except 19. VI.2010 (TARI); 3 spec., Ṅ 8 Ṛ [= Central Cross-Island Highway (ď ǔḇƃŵớ)] 144.5~145K, 12. VI.2010, leg. W.-P. Chan (TARI); 1 spec., same data as above except 05.VII.2010 (TARI); 4 spec., same data as above except 27. VI.2010 (TARI); 6 spec., Ṅ 8 Ṛ [= Central Cross-Island Highway (ď ǔḇƃŵớ)] 149.5~150K, 12. VI.2010, leg. W.-P. Chan (TARI); 7 spec., same data as above except 05.VII.2010 (TARI); 3 spec., same data as above except 27. VI.2010 (TARI); 4 spec., same data as above except 12.VII.2010 (TARI); 2 spec., same data as above except 20.III.2010 (TARI); 1 spec., Ṅ 8 Ṛ [= Central Cross-Island Highway (ďǔḇƃŵớ)] 158~158.5K, 25.IX.2010, leg. W.P. Chan (TARI); 2 spec., same data as above except 05.X.2010 (TARI); 8 spec., same data as above except 12. VI.2010 (TARI); 1 spec., same data as above except 09.X.2010 (TAIR); 2 spec., same data as above except 05.VII.2010 (TARI); 1 spec., same data as above except 27. VI.2010 (TARI); 5 spec., same data as above except 20.III.2010 (TARI); 2 spec., same data as above except 19. VI.2010 (TARI); 3 spec., same data as above except 13.III.2010 (TARI); 1 spec., Ṅ 8 Ṛ [= Central Cross-Island Highway (ďǔḇƃŵớ)] 168K, 20.III.2010, leg. W.-P. Chan (TARI). Nantou County: 1 spec., Shalixian, Xinyi Township (ūoiẃ), 20.IV.2017 ~ 21. V.2017, by MLT, leg. H. T. Yeh (FSHc); 1 spec., Meifeng [đø], VII/18–VIII/6/2001, C. S. Lin & W. T. Yang, Malaise trap (KCN) [NMNS ENT 6014-1273] (NMNS); 1 spec., same data as above except IX/10–X/15/2002 [NMNS ENT 4913-72] (NMNS); 1 spec., same data as above except VIII/6–/ IX/11/2001 [NMNS ENT 6014-2201] (NMNS); 1 spec., same data as above except IV-9/ V-19/1998 [NMNS ENT 3243-175] (NMNS); 9 spec., Tatachia (mmẁ), 17–24.III.2007, leg. C.-S. Tung (TARI); 2 spec., Shitou [ữḆ], 7.IV.2005, leg. C.-F. Lee (TARI); 1 spec., same data as above// Thoracostrongylus formosanus SHIBATA det Schillhamer ’10 (TARI); 1 spec., Ṅ 14 ¬ Ṛ [= Central Cross-Island Highway (ďǔḇƃŵớ)] 40K, 19. VI.2010, leg. W.-P. Chan (TARI); 1 spec., Jenai Sungkang [Ḻṋ Ẹà], VI /17/1998, C.C. Lo (NMNS); 1 male, Bilu Mt. Trail (ąn'Ɯṃǎ), Renai To., ca. 2600m, 24.1901, 121.3138, 31-III-2020; leg. F. S. Hu & Y. J. Chen (on human dung) (FSHc); 1 male, Meifeng (đø), Renai To., ca. 2113m, 24.0973, 121.1764; 31-III-2020; leg. F. S. Hu & Y. J. Chen (sifting leaf litters) (FSHc); 1 male, same data as above except, 30-III~ 1-IV-2020 by pitfall trap (FSHc); 1 female, same data as above except by FIT (FSHc). Taichung City: 1 spec., Daxue Mt. Forest Trail 32k [±ũƜIJǎ 32k], 27-IV~ 01-V-2018, B. H. Ho leg. By FIT (FSHc); 1 spec., Daxue Mt. Forest Trail 31k [±ũƜIJǎ 31k], 01~ 19-V-2018, B. H. Ho leg. By FIT (FSHc); 26 spec., Daxue Mt. 33k, Heping District (±ũƜ 33k), 19. V.2018~ 09. VI.2018, by FIT, leg. Y. H. Ho (FSHc and FMNH); 1 spec., Daxue Mt. Forest Trail 34k [±ũƜIJǎ 34k], B. H. Ho leg. (in barking deer’s dung) (FSHc); 1 male, Daxue Mt. Forest Trail 31.7k (±ũƜIJǎ 31.7k), Heping Dist. 24.2255, 120.9764, alt. about 1950m; 27-IV-2019, leg. B. H. Ho (on human dung) (FSHc); 1 male, same data as above except 19-V-2018 ~ 02-VI- 2018, By FIT (FSHc). Yilan County: 1 male, 2 females, Taiping Mt. Jianqing Trail [ƍḃṃǎ], 29-IV-2018, F. S. Hu, leg. [on human dung] (FSHc); 1 male, 100 rd Forest Trail 17K (100 ṚIJǎ 17K), Datong To., 06-VII-2018, leg. F. S. Hu (on goat dung) (FMNH); 1 male, 100rd Forest Trail 15K (100 ṚIJǎ 15K), Datong To., 05-VII-2018, leg. F. S. Hu by FIT (FMNH). Diagnosis. Thoracostrongylus formosanus can be distinguished from T. miyakei from Taiwan by the absence of a reddish reflection on the surface of head, pronotum and elytra, relatively smaller eyes and wider elytra. Bionomics. Based on an import of locality name into Google Earth from collection data (Shibata 1982, Yang et al. 2011, this study), the distributional altitude of this species in Taiwan is from 700–2600 m. Specimens of T. formosanus were mainly collected by pitfall trap or flight interception trap. Some specimens were collected from the surface of fresh mammal dung or carrion. Distribution. Thoracostrongylus formosanus is known from mainland China (Sichuan, Zhejiang, Hunan, Fujian and Hubei) and Taiwan. The species is widespread on Taiwan island and is at present known from Hualien County, Nantou County, Taichung City and Yilan County (Shibata 1982, Yang et al. 2011, this study).Published as part of Hu, Fang-Shuo, 2020, New distributional records of Staphylinina in Taiwan, including a new species of Miobdelus Sharp (Coleoptera: Staphylinidae: Staphylininae: Staphylinini), pp. 334-360 in Zootaxa 4768 (3) on pages 348-349, DOI: 10.11646/zootaxa.4768.3.2, http://zenodo.org/record/378403

    Pemilihan Bandwidth Untuk Regresi Nonparametrik Kernel Dengan Metode Rule Of Thumb, Shibata Dan Cross Validation

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    The choice of bandwidth is crucial in the nonparametric estimation procedure. When bandwidth is too small, the resulting curve is too under smoothing. When bandwidth is too large, the resulting curve is over smoothing. In this research we study three existing bandwidth selectors for nonparametric kernel regression. The first method is based on Mean Squared Error estimate. With penalize Shibata and leave-one-out estimate, bias term of Mean Square Error cancel asymptotically. The other method is based on Q= E[rn11 (x)-m(x)f by combining bias and variance and then derive it to h, we obtained Rule of Thumb bandwidth selector hliOT. With illustrate three methods to the data we examine represent the voltage drops in the battery of a guided missile motor during its flight (Eubank, 1988). We obtained hopt Shibata 0.9500, huor 0,3402 and hopr Cross Validation 0,3050. The value of MSE and R2 is 0,0137 and 0,9978 for Cross Validation, 0,0617 and 0, 9898 for Rule of Thumb and 0,0727, 0,9878 for Shibata. ============================================================ Pemilihan bandwidth dalam estimasi nonparametrik merupakan sesuatu yang sangat krusial, jika ditetapkan bandwidth yang terlalu kecil, maka akan berakibat estimasi kurva regresi undersmoothing. Begitu juga sebaliknya jika ditetapkan bandwidth yang terlalu besar, maka akan menyebabkan estimasi kurva oversmoothing. Dalam penelitian ini kita mengkaji tiga metode pemilihan bandwidth untuk regresi nonparametrik kernel . Metode pertama berdasar pada estimasi Mean Square Error. Dengan menetapkan penalize Shibata dan leave-one-out estimate, maka bias dari Mean Square Error (MSE) akan terhapuskan. Metode lain berdasar pada Q=E[mh(x)-m(x)]2 dengan mengkombinasikan antara bias dan varians dan menurunkannya terhadap h didapatkan bandwidth Rule ofThumb hum . Dengan menerapkan ketiga metode tersebut ke dalam data penurunan voltage baterai dari motor peluru kendali selama waktu penerbangan (Eubank, 1988) diperoleh hopr Shibata sebesar 0.9500, Rule ofThumb sebesar 0,8170 dan Cross Validation sebesar 0,3050. Nilai MSE dan R2 masing-masing metode sebesar 0,0137 dan 0,9978 untuk Cross Validation, sedangkan untuk ROT sebesar 0,0617 dan 0,9898 serta Shibata sebesar 0,0727, dan 0,9878

    Variations on the Author

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    “Variations on the Author” discusses two of Eduardo Coutinho’s recent films (Um Dia na Vida, from 2010, and Últimas Conversas, posthumously released in 2015) and their contribution to the general question of documentary authorship. The director’s filmography is characterized by a consistent yet self-effacing form of authorial self-inscription: Coutinho often features as an interviewer that rather than express opinions propels discourses; an interviewer that is good at listening. This mode of self-inscription characterizes him as an author who is not expressive but who is nonetheless markedly present on the screen. In Um Dia na Vida, however, Coutinho is completely absent form the image, while Últimas Conversas, on the contrary, includes a confessional prologue that moves the director from the margins to the center of his films. This article examines the ways in which these works stand out in the filmography of a director who offers new insights into the notion of cinematic authorship

    An efficient implementation of Relief-F algorithm for Genome-Wide Association Studies.

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    Although Relief can be adapted for regression context, in this work we approach only for classification context.X-MEETING 2012

    [Newspaper Clipping: Author Claims Evidence of Second JFK Assassin #1]

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    Newspaper article titled "Author Claims Evidence of Second JFK Assassin." The article states that author Richard J. Whalen concluded "that there is circumstantial evidence to support the theory of a second assassin in the shooting of President John F. Kennedy.

    Nonspinning black hole-neutron star mergers: a model for the amplitude of gravitational waveforms

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    Black hole-neutron star binary mergers display a much richer phenomenology than black hole-black hole mergers, even in the relatively simple case - considered in this paper - in which both the black hole and the neutron star are nonspinning. When the neutron star is tidally disrupted, the gravitational wave emission is radically different from the black hole-black hole case and it can be broadly classified in two groups, depending on the spatial extent of the disrupted material. We present a phenomenological model for the gravitational waveform amplitude in the frequency domain that encompasses the three possible outcomes of the merger: no tidal disruption, "mild", and "strong" tidal disruption. The model is calibrated to general relativistic numerical simulations using piecewise polytropic neutron star equations of state. It should prove useful to extract information on the nuclear equation of state from future gravitational-wave observations, and also to obtain more accurate estimates of black hole-neutron star merger event rates in second- and third-generation interferometric gravitational-wave detectors. We plan to extend and improve the model as longer and more accurate gravitational waveforms become available, and we will make it publicly available online as a Mathematica package. We also present in appendix analytical fits of the projected KAGRA noise spectral density, that should be useful in data analysis applications

    Also By The Same Author: AKTiveAuthor, a Citation Graph Approach to Name Disambiguation

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    The desire for definitive data and the semantic web drive for inference over heterogeneous data sources requires co-reference resolution to be performed on those data. In particular, name disambiguation is required to allow accurate publication lists, citation counts and impact measures to be determined. This paper describes a graph-based approach to author disambiguation on large-scale citation networks. Using self-citation, co-authorship and document source analyses, AKTiveAuthor clusters papers, achieving precision of 0.997 and recall of 0.818 over a test group of eight surname clusters
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