2,538 research outputs found
Development of TD Website and Repository
SEAFDEC, an Inter-Governmental Organization plays an important role in promotion of sustainable development of fisheries and aquaculture in the Southeast Asian Region for more than four decades. Cooperation with other regional and international organizations have been recognized through several important events such as Millennium Conference in 2001 and ASEAN-SEAFDEC Conference in 2011. Since 1990s, internet have been introduced worldwide, where information technology becomes important as a part of human life including education, economic, social and politicsand so on. Development of high speed internet creates a new communication system and support living style including works and activities such as public relations, multi-media production, publication etc., especially information dissemination and website which are technologies for communication between internal and external organization as well as in developing management system for efficiencies. The objective of this paper is to enhance SEAFDEC visibility by developing the information and dissemination system which developed new TD website in 2017.
In this regards, TD established Southeast Asian Fisheries Development Center, Training Department Institutional Repository (STIR), which is the official digital repository of scholarly, research and technical information of the Department to download all information materials using open source software named the DSpace.
In this paper, author considers the importance of information technology for introducing SEAFDEC/TD activities and improving access to SEAFDEC/TD technical/scientific articles was expressed via the website. In this regards, the author introduced for developing of the TD website and Repository to increase public relation and increase TD’s visibility as well as point out constrains of its development that requires the strengthening and cooperation within the Training Department of SEAFDEC
Promalactis enopisema Butler 1879
<i>Promalactis enopisema</i> (Butler, 1879) <p> <i>Oecophora enopisema</i> Butler, 1879: 82. TL: Japan (Yokohama). TD: BMNH. <i>Promalactis enopisema</i>: Meyrick, 1922: 26.</p> <p>Distribution: China (Anhui, Jiangxi, Liaoning, Shanghai, Shanxi, Zhejiang); Korea, Japan, Russia (Far East).</p>Published as part of <i>Wang, Shuxia, Hu, Sha & Li, Houhun, 2015, Review of the genus Promalactis Meyrick, 1908 (Lepidoptera: Oecophoridae) 1. Introduction and Promalactis species list of the world, pp. 446-470 in Zootaxa 4059 (3)</i> on page 453, DOI: 10.11646/zootaxa.4059.3.2, <a href="http://zenodo.org/record/244414">http://zenodo.org/record/244414</a>
The Aeginrst Transposal: Part 2
GRISANTE the surname of three individuals listed in the 1992 Erie County TD. Saint GRISANTE is another name for St. Chrysanthu of Daria, according to BMGC
Nonword Repetition and Word Learning in Children with Specific Language Impairment
Children with specific language impairment (SLI) are notorious for inconsistent use of grammatical morphemes, as well as a small vocabulary. This lack of vocabulary is linked to their difficulty in learning new words, which requires a strong phonological memory. Tasks of nonword repetition call upon this same skill. This overlap in skills suggests a strong relationship between the two tasks. The current study explores the relationship between nonword repetition performance and novel word learning abilities in preschool-aged children with SLI as compared to their typically developing (TD) age-matched peers. Nine children with SLI and nine TD children completed a nonword repetition test (NRT) and a novel word learning task. Analysis of the relationship between the two tasks revealed few significant meaningful correlations for TD children and no significant correlations for those with SLI. The findings suggest that tasks of nonword repetition and encoding in word learning may not be tapping into the same mechanism, and that the relationship between the two is not as strong as first assumed
Hyperaeschra pallida Butler 1880
<i>Hyperaeschra pallida</i> Butler, 1880 <p> <i>Hyperaeschra pallida</i> Butler, 1880; <b>6</b>: 65.</p> <p> <i>Phalera ochropis</i> Hampson, 1910; <b>20</b>: 90.</p> <p> <i>Hyperaeschra pallida</i>; Schintlmeister, 2013; <b>11</b>: 222.</p> <p> <b>TL</b>: Darjeeling [West Bengal, India]; <b>TD</b>: NHMUK</p> <p> <b>Distribution</b>: <i>India</i>: Uttarakhand (Kumaon), West Bengal, Sikkim, Assam, Meghalaya, Arunachal Pradesh. <i>Elsewhere</i>: China (Taiwan), Indonesia (Sumatra), Laos, Myanmar, Nepal, Philippines (Leyte, Luzon), Sri Lanka, Thailand, Vietnam.</p>Published as part of <i>Chandra, Kailash, Mazumder, Arna, Sanyal, Abesh Kumar, Ash, Anirban, Bandyopadhyay, Uttaran, Mallick, Kaushik & Raha, Angshuman, 2018, Catalogue of Indian Notodontidae Stephens, 1829 (Lepidoptera: Noctuoidea), pp. 1-84 in Zootaxa 4505 (1)</i> on page 37, DOI: 10.11646/zootaxa.4505.1.1, <a href="http://zenodo.org/record/2606706">http://zenodo.org/record/2606706</a>
Factors influencing the prediction of metabolic rate in a reptile
The definitive version is available at www.blackwell-synergy.comT. D. Clark, P. J. Butler and P. B. Frappel
On Rota-Baxter Nijenhuis TD algebra
There was a long standing problem of G. C. Rota regarding the classi- fication of all linear operators on associative algebras that satisfy algebraic identities. Initially, only very few of such operators were known, for example, the derivative operator, average operator, difference operator and Rota-Baxter operator. Recently, in a paper by L. Guo, W. Sit and R. Zhang, the authors revisited Rota’s problem by concentrating on two classes of operators; differ- ential type operators and Rota-Baxter type operators. One of the Rota-Baxter type operators they found is the Rota-Baxter Nijenhuis TD (RBNTD) oper- ator which puts together the terms of the well-known Rota-Baxter operator, Nijenhuis operator and Leroux’ TD operator. In this dissertation, we initiate a systematic study of the RBNTD operator, extending the previous works on the Rota-Baxter, Nijenhuis and TD operators. After giving basic properties and examples, we construct free commutative and then free (non-commutative) RBNTD algebras. We then use free RBNTD algebras to obtain an extension of the renowned dendriform algebra with five binary operations.Ph. D.Includes bibliographical referencesMonica AggarwalVita
Large Time Step and DC Stable TD-EFIE Discretized with Implicit Runge-Kutta Methods
The time domain-electric field integral equation (TD-EFIE) and its differentiated version are widely used to simulate the transient scattering of a time dependent electromagnetic field by a perfect electric conductor (PEC). The time discretization of the TD-EFIE can be achieved by a space-time Galerkin approach or, as it is considered in this contribution, by a convolution quadrature using implicit Runge-Kutta methods. The solution is then computed using the marching-on-in-time (MOT) algorithm. The differentiated TD-EFIE has two problems: 1) the system matrix suffers from ill-conditioning when the time step increases (low frequency breakdown) and 2) it suffers from the DC instability, i.e., the formulation allows for the existence of spurious solenoidal currents that grow slowly in the solution. In this article, we show that 1) and 2) can be alleviated by leveraging quasi-Helmholtz projectors to separate the Helmholtz components of the induced current and rescale them independently. The efficacy of the approach is demonstrated by numerical examples including benchmarks and real-life applications.Numerical Analysi
“Dear Author": A Transparent SoTL Peer Review
This epistolary article is written as an extended SoTL peer review. It contains two sections: my preparatory work as peer reviewer and my actual review. In the first section, I remind myself of the function and processes of the SoTL peer review, what the author expects from a SoTL peer reviewer, and how I see my role as a peer reviewer in SoTL. In the second section, I write my review, focusing on three common feedback areas in SoTL: how the author brings in existing scholarship, how the author describes their SoTL project, and how the author demonstrates its importance. My review concludes with some advice for navigating the potentially conflicting reviews that are not unusual in SoTL
Performance of TD-DFT for Excited States of Open-Shell Transition Metal Compounds
Time-dependent density functional theory (TD-DFT) has been very successful in accessing low-lying excited states of closed-shell systems. However, it is much less so for excited states of open-shell systems: unrestricted Kohn-Sham based TD-DFT (U-TD-DFT) often produces physically meaningless excited states due to heavy spin contaminations, whereas restricted Kohn-Sham based TD-DFT often misses those states of lower energies. A much better variant is the explicitly spin-adapted TD-DFT (X-TD-DFT) [J. Chem. Phys. 2011, 135, 194106] that can capture all the spin-adapted singly excited states yet without computational overhead over U-TD-DFT. While the superiority of X-TD-DFT over U-TD-DFT has been demonstrated for open-shell systems of main group elements, it remains to be seen if this is also the case for open-shell transition metal compounds. Taking as benchmark the results by MS-CASPT2 (multistate complete active space second-order perturbation theory) and ic-MRCISD (internally contracted multireference configuration interaction with singles and doubles), it is shown that X-TD-DFT is indeed superior to U-TD-DFT for the vertical excitation energies of ZnH, CdH, ScH2, YH2, YO, and NbO2. Admittedly, there exist a few cases where U-TD-DFT appears to be better than X-TD-DFT. However, this is due to a wrong reason: the underestimation (due to spin contamination) and the overestimation (due to either the exchange-correlation functional itself or the adiabatic approximation to the exchange-correlation kernel) happen to be compensated in the case of U-TD-DFT. As for [Cu(C6H6)(2)](2+), which goes beyond the capability of both MS-CASPT2 and ic-MRCISD, X-TD-DFT revises the U-TD-DFT assignment of the experimental spectrum.National Natural Science Foundation of China [21603134, 21673174, 21273011, 21290192]; Double First-class University Construction Project of Northwest UniversitySCI(E)ARTICLE203929-394212
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