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Quantitative method for calculating spatial release region for laser-guided bomb
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作者 YANG Ping XIAO Bing +1 位作者 CHEN Xin HAO Yuntao 《Journal of Systems Engineering and Electronics》 SCIE CSCD 2024年第4期1053-1062,共10页
The laser-guided bomb(LGB)is an air-to-ground pre-cision-guided weapon that offers high hit rates,great power,and ease of use.LGBs are guided by semi-active laser ground-seek-ing technology,which means that atmospheri... The laser-guided bomb(LGB)is an air-to-ground pre-cision-guided weapon that offers high hit rates,great power,and ease of use.LGBs are guided by semi-active laser ground-seek-ing technology,which means that atmospheric conditions can affect their accuracy.The spatial release region(SRR)of LGBs is difficult to calculate precisely,especially when there is a poor field of view.This can result in a lower real hit probability.To increase the hit probability of LGBs in tough atmospheric situa-tions,a novel method for calculating the SRR has been pro-posed.This method is based on the transmittance model of the 1.06μm laser in atmospheric species and the laser diffuse reflection model of the target surface to determine the capture target time of the laser seeker.Then,it calculates the boundary ballistic space starting position by ballistic model and gets the spatial scope of the spatial release region.This method can determine the release region of LGBs based on flight test data such as instantaneous velocity,altitude,off-axis angle,and atmospheric visibility.By more effectively employing aircraft release conditions,atmospheric visibility and other factors,the SRR calculation method can improve LGB hit probabi-lity by 9.2%. 展开更多
关键词 laser-guided bombs(LGBs) hit probability atmo-spheric transmittance spatial release region(SRR)boundary ballistic
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Ionospheric inversion of the Venus Express radio occultation data observed by Shanghai 25m and New Norcia 35m antennas
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作者 Su-Jun Zhang Nian-Chuan Jian +3 位作者 Jin-Ling Li Jin-Song Ping Cong-Yan Chen Ke-Fei Zhang 《Research in Astronomy and Astrophysics》 SCIE CAS CSCD 2015年第9期1559-1570,共12页
Electron density profiles of Venus' ionosphere are inverted from the Venus Express (VEX) one-way open-loop radio occultation experiments carried out by the Shanghai 25 m antenna from November 2011 to January 2012 a... Electron density profiles of Venus' ionosphere are inverted from the Venus Express (VEX) one-way open-loop radio occultation experiments carried out by the Shanghai 25 m antenna from November 2011 to January 2012 at solar maximum conditions and by the New Norcia 35 m antenna from August 2006 to June 2008 at solar intermediate conditions. The electron density profile (from 110 km to 400 km), retrieved from the X-band egress observation at the Shanghai station, shows a single peak near 147 km with a peak density of about 2 × 10^4 cm-3 at a solar zenith angle of 94° As a comparison, the VEX radio science (VeRa) observations at the New Norcia station were also examined, including S- and X-band and dual-frequency data in the ingress mode. The results show that the electron density profiles retrieved from the S-band data are more analogous to the dual-frequency data in terms of the profile shape, compared with the X-band data. Generally, the S-band results slightly underestimate the magnitude of the peak density, while the X-band results overestimate it. The discrepancy in the X-band profile is probably due to the relatively larger unmod- eled orbital errors. It is also expected that the ionopause height is sensitive to the solar wind dynamical pressure in high and intermediate solar activities, usually in the range of 200-1000 km on the dayside and much higher on the nightside. Structural variations ("bulges" and fluctuations) can be found in the electron density profiles during intermediate solar activity, which may be caused by the interaction of the solar wind with the ionosphere. Considerable ionizations can be observed in Venus' nightside ionosphere, which are unexpected for the Martian nightside ionosphere in most cases. 展开更多
关键词 planets and satellites: terrestrial planets -- planets and satellites: atmo-spheres -- planets and satellites: detection
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Numerical study of radio wave propagation in clear air acoustic scatterer
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作者 WANG Panpan ZHOU Chen ZHAO Zhengyu 《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2018年第4期684-692,共9页
This paper numerically investigates the radio wave scattering by the artificial acoustic disturbance in the atmospheric boundary layer. The numerical model is based on the finitedifference time-domain(FDTD) method f... This paper numerically investigates the radio wave scattering by the artificial acoustic disturbance in the atmospheric boundary layer. The numerical model is based on the finitedifference time-domain(FDTD) method for radio wave propagation and fluid simulation for atmospheric disturbance by acoustics waves. The characteristics of radio wave scattering propagation in the artificial acoustic perturbations are investigated by this numerical model. The numerical simulation results demonstrate that the radio wave propagation scattered by acoustic scatterer has the characteristic of forward tropospheric scatter. When the radio waves are scattered, they distribute in all directions; a majority of radio waves continues to propagate along the original direction, and only a small part of the energy is scattered. For the same acoustic scatterer, if we merely change the radio wave emission elevation, the horizontal spans of forward scattering radio wave packets centers gradually decrease with the increasing of emission elevations; and the energy of wave packets increases firstly and then decreases with launching elevation, reaching the maximum at a certain angle. If we merely change the wave emitting position, the horizontal spans decrease with the increasing of emission positions, and the energy of wave packets also increases firstly and then decreases with launch position, reaching the maximum at a certain position. This approach can be very promising for atmospheric scatter communications. 展开更多
关键词 radio waves scattering propagation clear air atmo-sphere acoustic scatterer scatter communication.
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Thermal comfort in twentieth-century architectural heritase: Two houses of Le Corbusier and Andre Wogenscky 被引量:1
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作者 Ignacio Requena-Ruiz 《Frontiers of Architectural Research》 CSCD 2016年第2期157-170,共14页
The study of the relationship of climate and indoor thermal environments in architecture is essential to understand the inhabitants' sensory perception. This is even more relevant when working in the existing housing... The study of the relationship of climate and indoor thermal environments in architecture is essential to understand the inhabitants' sensory perception. This is even more relevant when working in the existing housing stock in view of the new challenges posed by the conservation of the 20th century architectural heritage and the adaption of these buildings to our current comfort and environmental criteria. This article aims to develop a balanced understanding of the approach of Modernist architecture to climate, indoor atmospheres and inhabitants' thermal comfort. To do so, we complement the quantitative approach of environmental assessment methods with the qualitative angle of the history of sensory and architecture. The goal is to understand the environmental performance of architecture for dealing nowadays with thermal comfort issues while respecting its cultural and historical values. Two modernist houses have been selected as case studies: the Villa Curutchet of the master Le Corbusier and the Villa Chupin of his discipte Andr Wogenscky. As a result, the article reveals potentialities and constraints in terms of thermal comfort when working with Modern Architecture. 展开更多
关键词 Thermal comfort Twentieth-centuryheritage Thermal simutation Thermal atmo-spheres Le Corbusier Wogenscky
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Interannual Variability of the Wintertime Northern Branch High Ridge in the Subtropical Westerlies and Its Relationship with Winter Climate in China 被引量:7
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作者 范广洲 张永莉 +2 位作者 王炳赟 华维 王永立 《Journal of Meteorological Research》 SCIE CSCD 2015年第5期703-719,共17页
The high ridge in the northern branch of the subtropical westerly (hereafter referred to as northern branch ridge) extends from the north of the Tibetan Plateau to the north of Barr Kashmir Lake (32.5°-47.5... The high ridge in the northern branch of the subtropical westerly (hereafter referred to as northern branch ridge) extends from the north of the Tibetan Plateau to the north of Barr Kashmir Lake (32.5°-47.5°N, 70°-95°E) during wintertime. The intensity index and zonal position index of the wintertime northern branch ridge (WNBR) are defined in this study by using the NCEP-NCAR reanalysis data and precipitation and temperature observations at 160 stations in China. Interannual variation features of the WNBR and its relation with precipitation and surface air temperature in China are discussed based on wavelet analysis, correlation analysis, and composite analysis. The results indicate that the intensity and zonal position of the WNBR exhibit significant interannual variability. The intensity of the WNBR gradually weakens and varies in periodic cycles of 4-6, quasi-2, and quasi-16 yr. Its zonal position shifts westward slightly and varies in periodic cycles of quasi-8 and quasi-16 yr. The WNBR is highly correlated with precipitation and surface air temperature in China. When the WNBR is strong (weak) and its zonal position shifts eastward (westward), winter precipitation in Northeast China and the northern region of Northwest China increases (decreases), whereas precipitation decreases in central China, South China, and eastern regions of Northwest and Southwest China. Meanwhile, surface air temperatures in most areas of China are higher (lower) than normal. Further investigation has revealed that the two indexes are closely related to variations in general atmospheric circulation, which explains why there exists a close linkage between the variation of the WNBR and climate in China. It is believed that the WNBR is also tied to the Rossby wave, the North Atlantic Oscillation, the East Asian trough, and the North Pacific jet stream. 展开更多
关键词 wintertime northern branch ridge interannual variability PRECIPITATION temperature atmo-spheric circulation
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