485 research outputs found
The Exemption Status of the Bona Fide Pledgee of Unregistered Securities Under the Securities Act of 1933
The number of connections of photovoltaic (PV) to distribution network is increasing. Very few PV connection guidelines that distribution system operators (DSOs) can refer to have been found. This paper deals with network planning guidelines for distribution networks with PV. The paper aims to identify planning rules that are relatively easy to implement.QC 20140625</p
Cooperation in International Procedural Conflicts: Prospects and Benefits
The need for international integration of civil procedure has been strongly felt all over the world, particularly in the countries of Asia, North America and Europe. The birth of an international treaty will be good news for all those involved in international civil disputes
Journal Staff
This paper presents a new method to assist distribution system operators assessing the capacity of each bus for connecting more photovoltaic power in a low voltage distribution network. The developed method takes the uncertainties from load and generation into account. Moreover, it applies probabilistic voltage limits in the assessment process. An improved linear power flow analysis is used in the process. Furthermore, a case study in a Swedish low voltage network is discussed to apply the proposed method on assessing the maximum photovoltaic peak power that can be installed into a distribution network without violating probabilistic voltage limits. A comparison between deterministic approach and probabilistic approach is also performed.QC 20140915</p
Comments on Five Smart Card Based Password Authentication Protocols
In this paper, we use the ten security requirements proposed by Liao et al.
for a smart card based authentication protocol to examine five recent work in
this area. After analyses, we found that the protocols of Juang et al.'s ,
Hsiang et al.'s, Kim et al.'s, and Li et al.'s all suffer from offline password
guessing attack if the smart card is lost, and the protocol of Xu et al.'s is
subjected to an insider impersonation attack.Comment: 4 pages
Plasmonic Thin Film Solar Cells
Thin film solar cell technology represents an alternative way to effectively solve the world’s increasing energy shortage problem. Light trapping is of critical importance. Surface plasmons (SPs), including both localized surface plasmons (LSPs) excited in the metallic nanoparticles and surface plasmon polaritons (SPPs) propagating at the metal/semiconductor interfaces, have been so far extensively investigated with great interests in designing thin film solar cells. In this chapter, plasmonic structures to improve the performance of thin film solar cell are reviewed according to their positions of the nanostructures, which can be divided into at least three ways: directly on top of thin film solar cell, embedded at the bottom or middle of the optical absorber layer, and hybrid of metallic nanostructures with nanowire of optical absorber layer
SFCNeXt: a simple fully convolutional network for effective brain age estimation with small sample size
Deep neural networks (DNN) have been designed to predict the chronological
age of a healthy brain from T1-weighted magnetic resonance images (T1 MRIs),
and the predicted brain age could serve as a valuable biomarker for the early
detection of development-related or aging-related disorders. Recent DNN models
for brain age estimations usually rely too much on large sample sizes and
complex network structures for multi-stage feature refinement. However, in
clinical application scenarios, researchers usually cannot obtain thousands or
tens of thousands of MRIs in each data center for thorough training of these
complex models. This paper proposes a simple fully convolutional network
(SFCNeXt) for brain age estimation in small-sized cohorts with biased age
distributions. The SFCNeXt consists of Single Pathway Encoded ConvNeXt (SPEC)
and Hybrid Ranking Loss (HRL), aiming to estimate brain ages in a lightweight
way with a sufficient exploration of MRI, age, and ranking features of each
batch of subjects. Experimental results demonstrate the superiority and
efficiency of our approach.Comment: This paper has been accepted by IEEE ISBI 202
Real-Tme Boron Nitride Erosion Measurements of the HiVHAc Thruster via Cavity Ring-Down Spectroscopy
Cavity ring-down spectroscopy was used to make real-time erosion measurements from the NASA High Voltage Hall Accelerator thruster. The optical sensor uses 250 nm light to measure absorption of atomic boron in the plume of an operating Hall thruster. Theerosion rate of the High Voltage Hall Accelerator thruster was measured for discharge voltages ranging from 330 to 600 V and discharge powers ranging from 1 to 3 kW. Boron densities as high as 6.5 x 10(exp 15) per cubic meter were found within the channel. Using a very simple boronvelocity model, approximate volumetric erosion rates between 5.0 x 10(exp -12) and 8.2 x 10(exp -12) cubic meter per second were found
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