121 research outputs found
Effective Stress Analysis of Pile Foundations Showing Various Damage Patterns in Liquefied Deposits During 1995 Hyogoken-Nambu Earthquake
Effective stress analysis is conducted for six buildings that suffered various patterns of damage during soil liquefaction in the 1995 Hyogoken-Nambu earthquake, in order to examine major causes of the damage as well as the effectiveness of the analytical procedure. A comparison of the computed result with the filed observation indicates that the effective stress analysis is capable of discriminating damaged from undamaged foundations as well as of estimating the damage portion and severity with a reasonable degree of reliability. The analytical result also shows that: (1) the damage to pile heads is mainly due to the inertia force from the superstructure and the damage at depths below the pile head is mainly due to the kinematic force resulting from ground displacements; (2) because of their ductile behavior, steel reinforced concrete piles are immune from extensive damage; and (3) to enclose a pile foundation with diaphragm walls can reduce pile damage but can increase the response of the superstructure as well as the shear force and moment particularly in the lower levels of buildings
Properties of radio-frequency-sputter-deposited GaN films in a nitrogen/hydrogen mixed gas
GaN films have been deposited by reactive sputtering in nitrogen gas at pressures from 0.08 to 2.70
Pa with and without the addition of hydrogen gas. X-ray diffraction (XRD), Fourier transform
infrared (FTIR), optical absorption, and photoluminescence (PL) spectroscopy have been used to
characterize the sputter-deposited GaN films. The XRD pattern reveals that the GaN films deposited
in nitrogen gas at pressures lower than 0.53 Pa are polycrystals with the (0001) texture (α-GaN),
while those deposited at or above 1.07 Pa display mixed crystalline orientations or an
amorphous-like nature. The GaN:H films deposited in nitrogen/hydrogen mixed gas, on the other
hand, show an amorphous or amorphous-like nature. The FTIR spectra indicate that the GaN:H
films show peaks arising from hydrogen-related bonds at ~1000 and ~3200 cm−1, in addition to the
GaN absorption band at ,555 cm−1. The optical absorption spectra at 300 K indicate the
fundamental absorption edges at ~3.38 and ~3.7 eV for the highly oriented α-GaN and amorphous
GaN:H films, respectively. PL emission has been observed from sputter-deposited a-GaN films at
temperatures below 100 K. The GaN:H films also show strong band-edge and donor-acceptor pair
emissions. The PL emission in the GaN:H film may arise from crystalline GaN particles embedded
in the amorphous GaN matrix
Radiofrequency Ablation with the Real-Time Virtual Sonography System for Treating Hepatocellular Carcinoma Difficult to Detect by Ultrasonography
Radiofrequency ablation has been applied to treat hepatocellular carcinoma, with favorable therapeutic outcomes. Nevertheless, practitioners have approached radiofrequency ablation with some reluctance due to the difficulty of identifying isoechoic tumors and recurrent tumors. The aim of the present study is to investigate the efficacy of Real-time Virtual Sonography to treat hepatocellular carcinoma difficult to detect by conventional ultrasonography. Real-time Virtual Sonography is a system generating multiplanar reconstruction images in real-time using the Hitachi medico EUB-8500 equipped with a probe. The system included following components: 1) digital imaging and communications in medicine (DICOM) data from dynamic CT, 2) a magnetic field generator to match the multiplanar reconstruction image on the monitor and the actual ultrasonography image, 3) the cross section with the tumor displayed as a multiplanar reconstruction image. Total twenty-five nodules of twenty-one patients underwent radiofrequency ablation monitored by Real-time Virtual Sonography. All nodules difficult to detect via conventional ultrasonography were clearly visualized in real-time. The average nodule diameter was 2.4 ± 1.6 cm, and punctures and coagulation were performed an average of 2.2 and 3 times per session. Dynamic CT after session confirmed effective coagulation of each nodule. In conclusion, this study demonstrates that the present system is capable of effectively and accurately treating tumors difficult to detect by conventional ultrasonography
Handling rich turn-taking in spoken dialogue systems
ABSTRACT This paper discusses how to build a system that can engage in a mixed-initiative human-machine spoken dialogue in which system utterances sometimes overlap with user utterances and vice versa. In the method, a module that incrementally understands user utterances and another module that incrementally generates system utterances work in parallel, and the timing of taking and releasing the dialogue initiative is decided according to the understanding of user utterances and the content of the system utterances. This method enables the system to respond when the user holds the dialogue initiative and is speaking, and enables the system to react to the user's barge-ins when it holds the initiative and is speaking. An experimental system called DUG-1 is also presented
Disturbance of cerebellar synaptic maturation in mutant mice lacking BSRPs, a novel brain-specific receptor-like protein family
AbstractBy DNA cloning, we have identified the BSRP (brain-specific receptor-like proteins) family of three members in mammalian genomes. BSRPs were predominantly expressed in the soma and dendrites of neurons and localized in the endoplasmic reticulum (ER). Expression levels of BSRPs seemed to fluctuate greatly during postnatal cerebellar maturation. Triple-knockout mice lacking BSRP members exhibited motor discoordination, and Purkinje cells (PCs) were often innervated by multiple climbing fibers with different neuronal origins in the mutant cerebellum. Moreover, the phosphorylation levels of protein kinase Cα (PKCα) were significantly downregulated in the mutant cerebellum. Because cerebellar maturation and plasticity require metabotropic glutamate receptor signaling and resulting PKC activation, BSRPs are likely involved in ER functions supporting PKCα activation in PCs
Immunization of institutionalized asthmatic children and patients with psychomotor retardation using live attenuated cold-adapted reassortment influenza A H1N1, H3N2 and B vaccines
Live attenuated cold-adapted reassortant (CR) influenza virus vaccines were evaluated in institutionalized asthmatic children and severe psychomotor-retarded (SPR) patients. Almost all the vaccines were seropositive to the vaccine strains before immunization. Trivalent CR vaccine (containing A H1N1 (CR-125), A H3N2 (CR-149) and B (CRB-117)), bivalent CR vaccine (CR-125 and CR-149) and monovalent CRB-117 were inoculated to 19 asthmatic children and 36 and 16 SPR patients, respectively. Overall 49, 22, 11% of vaccinees were infected by A H1N1, A H3N2 or B vaccine viruses, respectively, as indicated by significant haemagglutination-inhibition (HI) antibody titre rises 4 weeks after inoculation. No severe adverse reactions associated with CR vaccination were observed in the handicapped patients. A nosocomial outbreak of influenza A H1N1 occurred in the ward with asthmatic children, but none of the 19 CR-trivalent vaccinees became infected. However, five of 20 non-vaccinees in the same ward, and ten of 30 vaccinees in another ward that received inactivated split vaccine became infected. The CR vaccines demonstrated significant protective effects against natural exposure to the A H1N1 virus, and were well tolerated and safe when given to patients with bronchial asthma and severe psychomotor retardation.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/31097/1/0000775.pd
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