12,326 research outputs found
Two new and one newly recorded species of Polypedilum Kieffer 1912 with DNA barcodes from Oriental China (Chironomidae: Diptera)
Yan, Chuncai, Song, Chao, Liu, Ting, Zhao, Guangjun, Hou, Ziyuan, Cao, Wei, Wang, Xinhua (2017): Two new and one newly recorded species of Polypedilum Kieffer 1912 with DNA barcodes from Oriental China (Chironomidae: Diptera). Zootaxa 4238 (1): 109-118, DOI: https://doi.org/10.11646/zootaxa.4238.1.
sj-pdf-1-tct-10.1177_15330338221143224 - Supplemental material for Machine Learning Radiomics Model for External and Internal Respiratory Motion Correlation Prediction in Lung Tumor
Supplemental material, sj-pdf-1-tct-10.1177_15330338221143224 for Machine Learning Radiomics Model for External and Internal Respiratory Motion Correlation Prediction in Lung Tumor by Xiangyu Zhang, Xinyu Song, Guangjun Li, Lian Duan, Guangyu Wang, Guyu Dai, Ying Song, Jing Li and Sen Bai in Technology in Cancer Research & Treatment</p
FIGURE 5A–D. P in Two new and one newly recorded species of Polypedilum Kieffer 1912 with DNA barcodes from Oriental China (Chironomidae: Diptera)
FIGURE 5A–D. P. (U.) paraconvictum Yamamoto, Yamamoto & Hirowatari. A—Body in ventral view; B—Dorsal view of hypopygium; C—Ventral view of hypopygium; D—Superior volsella.Published as part of Yan, Chuncai, Song, Chao, Liu, Ting, Zhao, Guangjun, Hou, Ziyuan, Cao, Wei & Wang, Xinhua, 2017, Two new and one newly recorded species of Polypedilum Kieffer 1912 with DNA barcodes from Oriental China (Chironomidae: Diptera), pp. 109-118 in Zootaxa 4238 (1) on page 116, DOI: 10.11646/zootaxa.4238.1.8, http://zenodo.org/record/34504
Distributed antenna systems in fractional-frequency-reuse-aided cellular networks
Distributed antenna system (DAS)-aided unity frequency reuse (UFR) and fractional frequency reuse (FFR) transmission scenarios are investigated in this paper, employing the classic multiobjective of nondominated sorting genetic algorithm II (NSGA-II) for maximizing cell throughput and the coverage. More specifically, coordinated multipoint (CoMP) cooperation is invoked among the distributed antennas (DAs) and the base station (BS) in support of the mobile stations (MSs) roaming at the cell edge, while considering a range of practical impairments. We demonstrate that the received signal-to-interference ratio (SIR) of non-CoMP transmissions follows the lognormal distribution by taking into account both fast fading and large-scale shadowing and path-loss effects. Our simulation results demonstrate that DAS-aided cooperation is capable of achieving a fivefold increased throughput over that of the traditional arrangement. Explicitly, an average throughput per channel of 6.61 bits/symbol may be achieved
Author Identification from Song Lyrics
Machine Learning (ML) tools have been used extensively in a wide variety of domains
recently. Due the enormous amount of data being produced, machine learning techniques
are being heavily used to make sense of data & derive meaningful results. Using machine
learning tools, we can turn the data into knowledge.
Music is one of the truest forms of art. Bangladesh has a great history of music with a
great tradition of song writing over centuries. Authorship attribution is the way of
identifying the author from a linguistic corpus.
This paper demonstrates a guideline to identify the author of a Bengali song from the
lyrics of that song using machine learning. This research work presents the first work on
machine learning approach for author attribution from the lyrics of a song. Here six
methods of machine learning are used for the author identification and high accuracies
have been achieved from these methods. It is observed that Naïve Bayes method provides
higher accuracy in comparison with the other methods
Song
Author attribution from Rudolph, 240. Printed on yellow paper with black ink. Set to the tune of "Happy land of Canaan". First line "You Rebels come along and listen to my song"
The Singer or the Song? Developments in Performers' Rights from the Perspective of a Cultural Economist
Over the last century, performers gradually acquired statutory protection of their economic and moral
rights. These rights are not copyright in the legal sense but neighboring rights and until recently, they
were mainly remuneration rights that are collectively administered. With the WPPT (WIPO
Performers and Phonograms Treaty), performers now have individual exclusive rights for digital
performances; this leads to the question: what has motivated this change – is it a change in the
perception of the value of performer or a change brought about by the changing technology of copying or,
indeed, a change that reflects different economic costs and benefits? The paper discusses the role of
copyright law as an incentive to performers and asks if the economic role of the performer is so different
from that of the author. The conclusion is that a complex interaction of the legal regulations, economic
conditions and institutional arrangements for administering these new rights will determine the outcome
Polypedilum (Tripodura) enshiense Song & Wang, sp. n.
Polypedilum (Tripodura) enshiense Song & Wang sp. n. (Figure1A–G, GenBank accession number KY370969) Type material. Holotype: ♂ (BDN No. CH 39). China: Hubei Province, Enshi autonomous prefecture, Qizimeishan National Nature Reserve, 109.82°E, 30.06°N, 10. VII. 2016, Song C, Sweeping net; Paratypes: 2♂♂, data as holotype. Etymology. Named after the type locality, Enshi autonomous prefecture. Diagnosis. The male adult can be separated from the previous recorded species of the subgenus by the following combination of characters: wing patterns (numbers and locations of wing plots), strong and long lateral projection of anal point and subrectangular superior volsella with one apical outer seta. Description. Male adult (n = 3). Total length 2.17–2.84, 2.50 mm. Wing length 1.50–1.60, 1.56 mm. Wing length /length of profemur 2.31– 2.48, 2.40. Coloration. Head, thorax and abdomen dark brown, except hypopygium yellowish. Wing with five spots. Legs yellowish except basal 2/3 of fermora brown (Figure 1A). Head. Frontal tubercles absent. AR 0.81–0.90, 0.86. Ultimate flagellomere 355–390, 380 µm long; temporal setae 8–11 including 4–6 inner verticals, 2–4 outer verticals and 2–3 postorbitals. Clypeus with 11–13 setae. Tentorium 92–98 µm long, 23–26 µm wide. Palpomere lengths (in µm): 25; 28–30, 29; 48–63, 55; 65–83, 74; 110– 115, 113. Length of palpal segment 5th/3rd 1.74–2.40, 2.07. Wing (Figure 1B). Anal lobe developed. VR 1.22–1.25, 1.23. Brachiolum with 1 seta, R with 12–16, 14; R1 with 7–10, 9; R4+5 with 9–13, 11 setae. Squama with 4–5 setae. 1 spot locates in basic part of cell r4+5, 1 in middle of cell m1+2, 1 in basic portion of cell m3+4, 1 in distal of cell cu adjacent to spot in cell m3+4 and 1 in middle of cell an. Thorax. Dorsocentrals 8–12; acrostichals 5–8; scutellum with 1–3 setae; prealars 4–4, 4 setae. Legs (Figure 1C). Terminal scale (Figure 1D) of front tibia pointed, 25–37, 29 µm long. Spur on median tibia 45–47, 46 µm long with comb including 6–7 lateral teeth; un-spurred comb including 15–16 lateral teeth; spur on posterior tibia 45–48, 47 µm long with comb including 6–8 lateral teeth, un-spurred comb including 24–28 lateral teeth. Lengths (in µm) and proportions of legs as in Table 1. Fe Ti Ta1 Ta2 Ta3 Ta4 P1 605–690, 650 390–430, 410 700–770, 740 410–465, 440 320–350, 330 230–250, 240 P2 700–760, 730 515–560, 540 275–290, 280 155–170, 160 100–125, 110 65–75, 70 P3 750–810, 790 635–700, 670 400–440, 420 230–250, 240 200–225, 215 130–135, 133 Ta 5 W. Ti BR LR BV SV P1 125–135, 130 32–35, 34 3.13–3.57 1.79–1.82, 1.80 1.56–1.58, 1.57 1.41–1.45, 1.43 P2 50–65, 60 35–35, 35 5.00–5.00 0.51–0.56, 0.52 3.69–4.69, 3.89 4.19–4.65, 4.50 P3 85–85, 85 35–35, 35 5.89–6.89 0.63–0.63, 0.63 2.76–2.80, 2.78 3.43–3.46, 3.45 Hypopygium (Figure 1E–G). Anal tergite with 4–5 median setae, laterosternite with 2–3 setae. Anal point with rounded apex in dorsal aspect, 32–40, 35 µm long; lateral projection 25–30, 28 µm long, covered with michrotrichia. Transverse sternapodeme 30–35, 33 µm long. Superior volsella (Figure 1G) 32–45 µm long, subrectangular shape, covered with microtrichia and apical portion with some long setae and one strong apical outer seta. Inferior volsella slender, 90–95, 92 µm long with 7 strong setae. Gonostylus 112–130, 118 µm long, 4–6 strong setae along distal inner margin. HR 0.98–1.02, 1.01; HV 1.85–2.37, 2.07. Female and immature unknown. Remarks. Wing spots pattern of the new species resembles P. (T.) tobaundecima Kikuchi & Sasa, 1990, P. (T.) nudiprostatum Zhang & Wang, 2006 and P. (T.) unifascia (Tokunaga, 1938), but it can be distinguished by the ringed legs, long lateral projection of anal point. The structure of hypopygium in new species is similar with P. (T.) rectangulum Hazra, Sanyal & Brahma, 2016, but with different wing patterns (numbers and locations of spot) and broad anal point. In addition, the COI sequence of holotype was blasted using the identification function in BOLD (BOLD, http://www.boldsystems.org; Ratnasingham & Hebert 2007) on Oct 22, 2016 and returned with a neighbor joining tree (Figure 2) based on Kimura 2 Parameter distance model. Obviously, the species formed a distinct clade and supported it differentiated from barcoded Polypedilum species. Distribution. The species is known from its type locality, Qizimeishan National Nature reserve, Enshi autonomous prefecture, Hubei province, China. The specimens were collected by sweeping net near an alpine wetland.Published as part of Yan, Chuncai, Song, Chao, Liu, Ting, Zhao, Guangjun, Hou, Ziyuan, Cao, Wei & Wang, Xinhua, 2017, Two new and one newly recorded species of Polypedilum Kieffer 1912 with DNA barcodes from Oriental China (Chironomidae: Diptera), pp. 109-118 in Zootaxa 4238 (1) on pages 110-112, DOI: 10.11646/zootaxa.4238.1.8, http://zenodo.org/record/34504
Freemasons\u27 Song
Song concerning pride in Freemasonryhttps://egrove.olemiss.edu/kgbsides_uk/1560/thumbnail.jp
Northumberland Election Song
A song for a political candidate.https://egrove.olemiss.edu/kgbsides_uk/1899/thumbnail.jp
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