Program canceled for a disaster Program canceled for the 2018 Hokkaido Eastern Iburi earthquake. However, This abstract is quotable and viewable on PDF.
The pyramid-shaped machining test was proposed to evaluate error motions of a five-axis machine tool. This paper presents software to perform and analyze the pyramid-shaped machining test. The paper ...presents an extension of the analysis algorithm to a five-axis machine tool with two rotary axes on the tool side. An experimental case study shows that position and orientation errors (location errors) of rotary axis average lines, as well as position-dependent error motions of a rotary axis, can be numerically identified from geometric errors of the finished test piece. Experimental demonstration of the numerical compensation of rotary axis geometric errors based on the R-test is also presented, along with its performance investigation by the present machining test. The developed software is commercially available.
The 2011 flood on the Chao Phraya River in Thailand caused enormous damage. The damage was greatest to the industrial sector, accounting for more than 70% of the estimated economic damage, and the ...resulting disruption of the supply chains of global companies has spread not only throughout Thailand but to other countries around the world. In order to reduce such damage, it is necessary to prepare a flood manual that makes use of past flood experiences or a business continuity planning (BCP) that assumes floods. In addition, business continuity management (BCM) is needed to establish and enhance BCP. Thus, it is essential to obtain flood information on the scale of an industrial park. Therefore, in this study, to provide detailed flood information as above, in addition to a flood inundation analysis model for the Chao Phraya River Basin, a detailed model on the scale of an industrial park was developed. Specifically, we developed a 40 m mesh industrial park-scale model based on survey data using a local aerial laser and the local river channel shape. Furthermore, using the flood discharge and river discharge output obtained from a 1 km mesh model of the Chao Phraya River Basin as inputs for the industrial park scale model for the surrounding boundary conditions, we obtained a more precise inundation analysis. As a result, the flood risk information obtained from the above analysis model can be useful for BCP/BCM. In addition, detailed flood risk information such as road inundation conditions can be obtained at any location, which could be useful in creating evacuation plans for employees.
The relation between cerebral blood flow (CBF) and cerebral oxygen extraction fraction (OEF) can be expressed using the effective diffusivity for oxygen in the capillary bed (D) as ...OEF = 1 - exp(-D/CBF). The D value is proportional to the microvessel blood volume. In this study, changes in D during neural activation and deactivation were estimated from changes in capillary and arteriole diameter measured by two-photon microscopy in awake mice. Capillary and arteriole vessel diameter in the somatosensory cortex and cerebellum were measured under neural activation (sensory stimulation) and neural deactivation crossed cerebellar diaschisis (CCD), respectively. Percentage changes in D during sensory stimulation and CCD were 10.3 ± 7.3 and -17.5 ± 5.3 % for capillary diameter of <6 μm, respectively. These values were closest to the percentage changes in D calculated from previously reported human positron emission tomography data. This may indicate that thinner capillaries might play the greatest role in oxygen transport from blood to brain tissue.
Spaceborne synthetic aperture radar (SAR) and ground-based radar interferometers (GBRIs) can be used to detect spatially detailed crustal deformations that are difficult to detect by on-site ...observations, the Global Navigation Satellite System, tiltmeters, and so on. To make such crustal deformation information readily available to those engaged in evaluating volcanic activities and researching the mechanisms, we are preparing a database within the Japan Volcanological Data Network data sharing system to store crustal deformation detected by spaceborne SAR and GBRIs (Subtheme 2-1, Project B, the Integrated Program for Next Generation Volcano Research and Human Resource Development). In this study, we examined methods to reduce atmospheric delay noise in SAR interferometry using the numerical weather model and determined the methods for resampling the analytical values of the numerical weather model and estimating atmospheric delay to efficiently determine atmospheric delay. We show that the atmospheric delay can be estimated with higher accuracy by properly combining the isobaric surface and ground surface data of the mesoscale model (MSM) provided by the Japan Meteorological Agency. We are developing a multi-type portable SAR system as a GBRI system such that it would allow campaign observations whenever increased volcanic activities are observed and acquire crustal deformation with a higher temporal resolution than spaceborne SAR for storage in the database. This system employs L-band radar, which has a higher penetrability against vegetation. Two modes of observations are possible: ground-based SAR and car-borne SAR. The prototype was fabricated to conduct experiments necessary to develop a working model. The experimental observations was carried out around Asama volcano, and we confirmed that clear fringe was obtained.