نتایج جستجو برای: Piranha

تعداد نتایج: 197  

2004
István Szita András Lőrincz

Recently we proposed an algorithm called PIRANHA for learning to represent time series in RNNs. In this paper we prove that under appropriate conditions, PIRANHA is convergent.

1999
René Landry Vincent Calmettes Michel Bousquet

The designed rejection filter is of recursive prediction error (RPE) form and uses a special constrained model of infinite impulse response (IIR) with a minimal number of parameters. The socalled PIRANHA Filter is made up independent cascaded adaptive cells realising high rejection at certain frequencies. The convergent filter is characterised by highly narrow-bandwidth and uniform notches of d...

Journal: :Bioinformatics 2009
Ruth V. Spriggs Yoichi Murakami Haruki Nakamura Susan Jones

MOTIVATION All eukaryotic proteomes are characterized by a significant percentage of proteins of unknown function. Comp-utational function prediction methods are therefore essential as initial steps in the function annotation process. This article describes an annotation method (PiRaNhA) for the prediction of RNA-binding residues (RBRs) from protein sequence information. A series of sequence pr...

Journal: :Journal of the American Chemical Society 2005
Kirk J Ziegler Zhenning Gu Haiqing Peng Erica L Flor Robert H Hauge Richard E Smalley

The oxidation reaction of piranha solutions with purified HiPco carbon nanotubes was measured as a function of temperature. At high temperatures, piranha is capable of attacking existing damage sites, generating vacancies in the graphene sidewall, and consuming the oxidized vacancies to yield short, cut nanotubes. Increased reaction time results in increasingly shorter nanotubes. However, signi...

2010
A. R. Raji E. Norozi

Raji, A.R. and Norozi, E. 2010. Distribution of external taste buds in walking catfish (Clarias batrachus) and piranha (Serrasalmus nattereri). J. Appl. Anim. Res., 37: 49-52. To determine the distribution of external taste buds (TB), 3 specimen each of the two species of aquarium fishes: Walking catfish (Claris batrachus) and Piranha (Serrasalmus nattereri), were studied. In walking catfish TB...

2010
Yoichi Murakami Ruth V. Spriggs Haruki Nakamura Susan Jones

The PiRaNhA web server is a publicly available online resource that automatically predicts the location of RNA-binding residues (RBRs) in protein sequences. The goal of functional annotation of sequences in the field of RNA binding is to provide predictions of high accuracy that require only small numbers of targeted mutations for verification. The PiRaNhA server uses a support vector machine (...

Journal: :Micromachines 2012
Kai-Seng Koh Jitkai Chin Joanna Chia Choon-Lai Chiang

In this paper, a low-cost yet effective method of irreversible bonding between two elastomeric polydimethylsiloxane (PDMS) interfaces using Piranha solution is investigated. Piranha solutions at a weight ratio of 3:1 using different acids and hydrogen peroxide were attempted. The average tensile strengths of the device bonded with concentrated sulfuric acid-based piranha solution and nitric aci...

A. R. Raji, E. Norouzi

The purpose of this study is to describe the histological and histochemical features of digestive tract intwo aquarium fishes with different types of feeding habits which are omnivorous (Walking catfish) andcarnivorous (piranha), respectively. Five adult Walking catfish (L: 26.4 ± 3.4 cm, W: 265 ± 55 g) and fiveadult piranha (L: 23.6 ± 4.5 cm, W: 247 ± 50 g) were used for this study. The fishes...

2007
Nicholas Carriero David Gelernter David Kaminsky

\Adaptive parallelism" refers to parallel computations on a dynamically changing set of processors: processors may join or withdraw from the computation as it proceeds. Networks of fast workstations are the most important setting for adaptive parallelism at present. Workstations at most sites are typically idle for signiicant fractions of the day, and those idle cycles may constitute in the agg...

2006
Atsushi Onuki Yasushige Ohmori Hiroaki Somiya

The red piranha, Pygocentrus nattereri, produces sounds by rapid contractions of a pair of extrinsic sonic muscles. The detailed innervation pattern of the sonic muscle of the red piranha was investigated. The sonic muscle is innervated by branches (sonic branches) of the third (S3so), fourth (S4so), and fifth (S5so) spinal nerves. The average total number of nerve fibers contained in the right...

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