Relevant bibliographies by topics / Pencoyd

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  2. Dissertations / Theses
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  4. Book chapters

Academic literature on the topic 'Pencoyd'

Author: Grafiati
Published: 4 June 2021
Last updated: 14 February 2022

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Journal articles on the topic "Pencoyd"

1

Antonelli, Joseph, and Michael J. Daniels. "Discussion of PENCOMP." Journal of the American Statistical Association 114, no. 525 (2019): 24–27. http://dx.doi.org/10.1080/01621459.2018.1537914.

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Zhou, Tingting, Michael R. Elliott, and Roderick J. A. Little. "Robust Causal Estimation from Observational Studies Using Penalized Spline of Propensity Score for Treatment Comparison." Stats 4, no. 2 (2021): 529–49. http://dx.doi.org/10.3390/stats4020032.

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Without randomization of treatments, valid inference of treatment effects from observational studies requires controlling for all confounders because the treated subjects generally differ systematically from the control subjects. Confounding control is commonly achieved using the propensity score, defined as the conditional probability of assignment to a treatment given the observed covariates. The propensity score collapses all the observed covariates into a single measure and serves as a balancing score such that the treated and control subjects with similar propensity scores can be directly compared. Common propensity score-based methods include regression adjustment and inverse probability of treatment weighting using the propensity score. We recently proposed a robust multiple imputation-based method, penalized spline of propensity for treatment comparisons (PENCOMP), that includes a penalized spline of the assignment propensity as a predictor. Under the Rubin causal model assumptions that there is no interference across units, that each unit has a non-zero probability of being assigned to either treatment group, and there are no unmeasured confounders, PENCOMP has a double robustness property for estimating treatment effects. In this study, we examine the impact of using variable selection techniques that restrict predictors in the propensity score model to true confounders of the treatment-outcome relationship on PENCOMP. We also propose a variant of PENCOMP and compare alternative approaches to standard error estimation for PENCOMP. Compared to the weighted estimators, PENCOMP is less affected by inclusion of non-confounding variables in the propensity score model. We illustrate the use of PENCOMP and competing methods in estimating the impact of antiretroviral treatments on CD4 counts in HIV+ patients.
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Naydenov, Artem E., Roman V. Yakovlev, Fernando C. Penco, and Victor V. Sinyaev. "New data on Neotropical Carpenter-Moths of Subfamily Hypoptinae Neumoegen & Dyar, 1894 (Lepidoptera: Cossidae). II. A review of the genus Dolecta Herrich-Schäffer, [1854], with description of seventeen new species." Ecologica Montenegrina 35 (October 11, 2020): 82–114. http://dx.doi.org/10.37828/em.2020.35.7.

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The article restores the status of the Neotropical genus Dolecta Herrich-Schäffer, [1854] (Cossidae), which includes 24 species. The previously known species are redescribed, 17 new species are described: Dolecta akhmatovae Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta bulgakovi Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta chekhovi Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta dostoevskyi Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta esenini Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta gertseni Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta gogoli Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta karamzini Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta lermontovi Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta nekrasovi Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta ostrovskyi Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta pushkini Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta rubtsovi Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta saltykovishchedrini Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta stanyukovichi Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta tolstoyi Naydenov, Yakovlev, Penco & Sinyaev sp. nov., Dolecta turgenevi Naydenov, Yakovlev, Penco & Sinyaev sp. nov. Four new combinations are established, Dolecta amanosa (Schaus, 1911) comb. nov., Dolecta aroa (Schaus, 1894) comb. nov., Dolecta egipan (Dognin, 1923) comb. nov., and Dolecta morosa (Schaus, 1911) comb. nov. The distributional map of all the species of the genus is provided.
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Yakovlev, Roman V., Artem E. Naydenov, and Fernando C. Penco. "New data on Neotropical Carpenter-Moths of Subfamily Hypoptinae Neumoegen & Dyar, 1894 (Lepidoptera: Cossidae). I. New taxa with bifurcated uncus." Ecologica Montenegrina 26 (December 6, 2019): 4–13. http://dx.doi.org/10.37828/em.2019.26.2.

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The article provides a revision of the subfamily Hypoptinae, characterized by a common feature – a deeply split bifurcated uncus. Six new genera are described: Uretiana Yakovlev, Naydenov & Penco, gen.n. (type species − Givira vicuñensis Ureta, 1957), Dogniniya Yakovlev, Naydenov & Penco, gen.n. (type species − Hypopta sterila Dognin, 1910), Qhichwaruna Yakovlev, Naydenov & Penco, gen.n. (Type species − Qhichwaruna pennata Yakovlev, Naydenov & Penco, sp.n.), Wiraqucha Yakovlev, Naydenov & Penco, gen.n. (type species − Wiraqucha equadorica Yakovlev, Naydenov & Penco, sp.n.), Thonyocossus Yakovlev, Naydenov & Penco, gen.n. (type species − Thonyocossus brasiliensis Yakovlev, Naydenov & Penco, sp.n.), Hastam Yakovlev, Naydenov & Penco, gen.n. (type species – Hastam gracilis Yakovlev, Naydenov & Penco, sp.n.) and eight new species: Uretiana tucumana Yakovlev, Naydenov & Penco, sp.n. (type locality − Argentina, prov. Tucuman), Dogniniya lemoulti Yakovlev, Naydenov & Penco, sp.n. (type locality − Uypiranga, Bresil), D. huanuco Yakovlev, Naydenov & Penco, sp.n. (type locality − Peru, prov. Huánuco, Yayapichis, ACP Panguana, 9°36″S / 74°56″W), Qhichwaruna argentinensis Yakovlev, Naydenov & Penco, sp.n. (type locality − Argentinien, Cafayate, Prov. Catamarca), Wiraqucha huberti Yakovlev, Naydenov & Penco, sp.n. (type locality − Brasilien, Minas Gerais Poté), W. equadorica Yakovlev, Naydenov & Penco, sp.n. (type locality − Ecuador oriente Napo Rte Cosanga-Tena PK 18), Thonyocossus brasiliensis Yakovlev, Naydenov & Penco, sp.n. (type locality − Brasilien, Minas Gerais Poté), Hastam gracilis Yakovlev, Naydenov & Penco, sp.n. (type locality − Brasilien, Esp. Santo, Santa Leopoldina, Boquerao). New combinations are established: Uretiana vicunensis (Ureta, 1957), comb.n., Uretiana infans (Dyar & Schaus, 1937), comb.n., Dogniniya sterila (Dognin, 1910), comb. n. and Dogniniya beatrix (Schaus, 1921), comb. n.
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Danandjaya, Gede Bagus, and I. Gede Arta Wibawa. "Development of Augmented Reality (AR) Based Trompong." JELIKU (Jurnal Elektronik Ilmu Komputer Udayana) 9, no. 3 (2021): 339. http://dx.doi.org/10.24843/jlk.2021.v09.i03.p04.

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In gamelan, one of the most important instruments is trompong. Trompong is an idiphones instrument that has 10 rows of round shaped metal called pencon. Every pencon has its own sound. As a traditional music instrument, of course gamelan especialy trompong must be preserved continuously. But unfortunately, playing Balinese gamelan with real instrument is hard to do because the difficulty to finding gamelan in the real world. By using technolgy such as Augmented Reality, playing trompong possible to do even without having the real instrument. Augmented Reality will be develop using Unity 3D software along with Vuforia SDK, and also this application using Android smartphone as a base of Augmented Reality application. This Augmented Reality application called TrompongAR and will be marker based Augmented Reality, by using a target marker will help Augmented Reality to place where the 3-dimensional trompong will placed. The 3-dimensional trompong will have 10 pencon that can played by tapping the pencon, the touched pencon will produce sound like the real instrument.
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Wilfredo Penco. "Wilfredo Penco." Nuevo Texto Crítico 23, no. 45-46 (2010): 30. http://dx.doi.org/10.1353/ntc.2010.0059.

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Lane, Amanda K., Chad E. Niederhuth, Lexiang Ji, and Robert J. Schmitz. "pENCODE: A Plant Encyclopedia of DNA Elements." Annual Review of Genetics 48, no. 1 (2014): 49–70. http://dx.doi.org/10.1146/annurev-genet-120213-092443.

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8

Yakovlev, Roman V., Artem E. Naydenov, and Fernando Penco. "Klagesiana gen. n. – new genus of Carpenter-Moths (Lepidoptera: Cossidae: Zeuzerinae) from Brazil." Ecologica Montenegrina 27 (January 19, 2020): 69–73. http://dx.doi.org/10.37828/em.2020.27.8.

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The article describes the new genus, Klagesiana Yakovlev, Naydenov, Penco gen. nov. (type species Klagesiana amazoniensis Yakovlev, Naydenov, Penco sp. nov.). The new genus differs well from the known Neotropical Zeuzerinae. The conclusions are illustrated.
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9

Iswanto, Iswanto, Herman Herman, Edi Widodo, and A'rasy Fahruddin. "Rancang Bangun Mesin Pencoak Pipa (Pipe Notcher) Multi Dimensi." Jurnal METTEK 6, no. 2 (2021): 111. http://dx.doi.org/10.24843/mettek.2020.v06.i02.p05.

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Mesin pencoak pipa (pipe notcher) yang ada di pasaran saat ini harganya cukup mahal sehingga banyak bengkel-bengkel kecil masih menggunakan cara konvensional untuk melakukan pencoakan pipa. Cara yang biasa digunakan adalah dengan menggunakan gerinda tangan, sehingga membutuhkan waktu yang lama dan hasilnya kurang presisi. Untuk itu pada penelitian ini dirancang mesin pencoak pipa dengan memanfaatkan sabuk amplas sebagai V-belt yang dihubungkan dengan poros dan digerakkan oleh motor listrik. Kemudian benda kerja didekatkan pada poros matras dan selanjutnya ditekan maju sampai terbentuk profil yang diinginkan. Rancang bangun mesin pencoak pipa multi dimensi ini terbagi dalam tiga tahap. Tahap pertama konsep desain dan perencanaan komponen, dilanjutkan dengan tahap pembuatan dan terakhir adalah pengujian mesin. Dari hasil rancang bangun diperoleh bahwa mesin pencoak pipa multi dimensi ini menggunakan motor listrik 0,5 HP dan putaran 1400 rpm sedangkan rangka mesin menggunakan besi siku ukuran 4 x 4 cm. Setelah dilakukan pengujian, mesin dapat bekerja dengan baik. Untuk mencoak pipa dengan diameter 3/4 inch dibutuhkan waktu selama 0,335 menit, sedangkan untuk pipa ukuran 1 inch membutuhkan waktu selama 1,075 menit. Sedangkan profil yang dibuat menggunakan mesin ini mampu membentuk sudut antara 0° sampai dengan 30°. Pipe notcher on the market today are quite expensive so that many small workshops still use the conventional method for cutting special pipe profiles. The method commonly used is to use hand grinding, so it takes a long time and the results are less precise. For this reason, in this study was designed a pipe notcher machine using the sandpaper belt as a V-belt connected to a shaft and driven by an electric motor. Then the workpiece is brought closer to the mattress axis and then pressed forward until the desired profile is formed. The design of this multidimensional pipe notcher engine is divided into three stages. The first stage is the design concept and component planning, followed by the manufacturing stage and the last stage is machine testing. From the design results, it is found that this multi-dimensional pipe notcher machine uses an electric motor 0.5 HP and a rotation of 1400 rpm while the engine frame uses 4 x 4 cm angle iron. After testing the machine can work properly. To check a 3/4 inch pipe it takes 0.335 minutes, while for a 1 inch pipe it takes 1.075 minutes. Meanwhile, the profiles made using this machine are capable of forming angles between 0 ° to 30 °.
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Pitt, Martin, and Ken Stein. "PenCHORD: Helping The NHS Make Informed Decisions Using Operational Research." Impact 2018, no. 1 (2018): 22–25. http://dx.doi.org/10.1080/2058802x.2018.1435487.

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Dissertations / Theses on the topic "Pencoyd"

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Herrera, Gálvez Camila. "Centro de interpretación y desarrollo cultural de Penco: refinería de azúcar de Penco: recuperación de arquitectura industrial en estado de abandono y reactivación de su entorno." Tesis, Universidad de Chile, 2013. http://www.repositorio.uchile.cl/handle/2250/114640.

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Arquitecto
Existe una cantidad importante de edificios abandonados en nuestro país. Son múltiples y variadas las razones para que eso ocurra, puede ser debido a desperfectos técnicos, por motivos económicos, funcionales, políticos, etc. Sea cual sea la razón , el resultado suele tener consecuencias negativas para su entorno. Muchas veces dichos edificios se transforman en focos de insalubridad e inseguridad, generando rechazo en la comunidad. Frente a ello se propone la recuperación de estos edificios como una solución a los problemas cotidianos y como una posibilidad de conservación de Arquitectura Industrial, muchas veces con valor patrimonial no declarado.
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Books on the topic "Pencoyd"

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Great Britain. Department of the Environment. List of buildings of special architectural or historic interest: District of South Herefordshire, Hereford and Worcester (parishes of Garway, Llandinabo, Llanwarne, Pencoyd, St. Weonards and Tretire with Michaelchurch). Department of the Environment, 1986.

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Thomas, Gareth. AN ATTITUDINAL STUDY OF INMATES IN HER MAJESTY'S YOUTH CUSTODY CENTRE, PENCOED, ON SPORT/P.E.. S.G.I.H.E., 1986.

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Ltd, Pencom. Pencom: UK Public Limited Company reports. Pencom, 1996.

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Claudio, Ernè, and Rumiz Paolo, eds. Francesco Penco fotografo: Il Novecento di Trieste. Comunicarte, 2009.

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Claudio, Ernè, ed. Francesco Penco: Trieste e Fiume in posa. Comunicarte, 2010.

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Penco, Gregorio. Il monachesimo fra spiritualità e cultura: Gregorio Penco. Jaca Book, 1991.

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Moreno, Alfredo Baquerizo. Tierra adentro: La novela de un viaje : Titania : El señor Penco : Luz. Círculo de Lectores, 1988.

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Righter, Kevin. Philadelphia's Pencoyd Iron Works: Forging along the Schuylkill River. Arcadia Publishing, 2020.

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Bridgend, Maesteg, Porthcawl, Pencoed and Pyle Street Atlas. Streetezee Town Plans, 2006.

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Streetezee Atlas of Bridgend, Maesteg, Porthcawl, Pyle and Pencoed. Streetezee Town Plans, 1999.

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Book chapters on the topic "Pencoyd"

1

McGuinness, Brian, and Gianluigi Oliveri. "Reply to Penco." In The Philosophy of Michael Dummett. Springer Netherlands, 1994. http://dx.doi.org/10.1007/978-94-015-8336-7_19.

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Gänzl, Kurt. "PENCO, Rosina (b Naples, 8 April 1823; d La Poretta, Italy, 2 November 1894)." In Victorian Vocalists. Routledge, 2017. http://dx.doi.org/10.4324/9781315102962-69.

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Brookeman, Christopher. "Pencey Preppy: Cultural Codes in The Catcher in the Rye." In New Essays on The Catcher in the Rye. Cambridge University Press, 1992. http://dx.doi.org/10.1017/cbo9780511624537.005.

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