研究者業績

山本 雄平

ヤマモト ユウヘイ  (Yuhei Yamamoto)

基本情報

所属
千葉大学 国際高等研究基幹 テニュアトラック助教
学位
博士(理学)(京都大学)

研究者番号
30845102
J-GLOBAL ID
201901007933474275
Researcher ID
AAU-2161-2020
researchmap会員ID
B000355521

外部リンク

論文

 10
  • Beichen Zhang, Kazuhito Ichii, Wei Li, Yuhei Yamamoto, Wei Yang, Ram C. Sharma, Hiroki Yoshioka, Kenta Obata, Masayuki Matsuoka, Tomoaki Miura
    Remote Sensing of Environment 316 114491-114491 2025年1月  
  • Wei LI, Kazuhito ICHII, Beichen ZHANG, Yuhei YAMAMOTO, Wei YANG, Tomoaki MIURA, Hiroki YOSHIOKA, Masayuki MATSUOKA, Kenta OBATA, Ram C. SHARMA, Hirokazu YAMAMOTO, Hitoshi IRIE, Pradeep KHATRI, Ben LILEY, Isamu MORINO, Hideaki TAKENAKA, Atsushi HIGUCHI
    Journal of the Meteorological Society of Japan. Ser. II 2025年  
  • Zhiyan Liu, Kazuhito Ichii, Yuhei Yamamoto, Ruci Wang, Hideki Kobayashi, Masahito Ueyama
    IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 1-13 2024年4月  査読有り
  • Yuhei Yamamoto, Kazuhito Ichii, Youngryel Ryu, Minseok Kang, Shohei Murayama, Su-Jin Kim, Jamie R. Cleverly
    Remote Sensing of Environment 291 113572 2023年6月  査読有り筆頭著者
  • Yuhei Yamamoto, Kazuhito Ichii, Youngryel Ryu, Minseok Kang, Shohei Murayama
    ISPRS Journal of Photogrammetry and Remote Sensing 191 171-187 2022年9月  査読有り筆頭著者
  • Yuhei Yamamoto, Kazuhito Ichii, Atsushi Higuchi, Hideaki Takenaka
    Remote Sensing 12(9) 1372-1372 2020年4月  査読有り筆頭著者
    Recent advancements in new generation geostationary satellites have facilitated the application of their datasets to terrestrial monitoring. In this application, geolocation accuracy is an essential issue because land surfaces are generally heterogeneous. In the case of the Advanced Himawari Imager (AHI) onboard Himawari-8, geometric correction of the Himawari Standard Data provided by the Japan Meteorological Agency (JMA data) was conducted using thermal infrared band with 2km spatial resolution. Based on JMA data, the Center for Environmental Remote Sensing (CEReS) at Chiba University applied a further geometric correction using a visible band with 500m spatial resolution and released a dataset (CEReS data). JMA data target more general users mainly for meteorological observations, whereas CEReS data aim at terrestrial monitoring for more precise geolocation accuracy. The objectives of this study are to clarify the temporal and spatial variations of geolocation errors in these two datasets and assess their stability for unexpected large misalignment. In this study, the temporal tendencies of the relative geolocation difference between the two datasets were analyzed, and temporal fluctuations of band 3 reflectances of JMA data and CEReS data at certain fixed sites were investigated. A change in the geolocation trend and occasional shifts greater than 2 pixels were found in JMA data. With improved image navigation performance, the geolocation difference was decreased in CEReS data, suggesting the high temporal stability of CEReS data. Overall, JMA data showed an accuracy of less than 2 pixels with the spatial resolution of band 3. When large geolocation differences were observed, anomalies were also detected in the reflectance of JMA data. Nevertheless, CEReS data successfully corrected the anomalous errors and achieved higher geolocation accuracy in general. As CEReS data are processed during the daytime due to the availability of visible bands, we suggest the use of CEReS data for effective terrestrial monitoring during the daytime.
  • Yuhei Yamamoto, Hirohiko Ishikawa
    Urban Climate 31 100578 2020年3月  査読有り筆頭著者
    Understanding the spatiotemporal characteristics of land surface temperature (LST), a physical quantity that greatly contributes to the formation of urban thermal environment, is essential for constructing a sustainable urban environment. This study explores the relationship between urban space, atmospheric conditions, and diurnal change characteristics of LST on summer clear-sky days in an urban area of Osaka Plain using a 10 min LST dataset retrieved from the Japanese geostationary satellite (Himawari-8) data. The principal temporal change patterns forming the diurnal cycle of LST were extracted through a principal component analysis, and their spatial variabilities were investigated through the exploitation of ground-based meteorological observation and land-use data. The result showed two temporal change patterns, identified as the amplitude and phase of the diurnal change, being extracted in different clear-sky days. A hierarchical cluster analysis confirmed that the spatial variations of such patterns corresponded to the sea breeze and urban land-use. Moreover, LST change at daytime was found to be larger in the high-density areas rather than in the low-density areas of low buildings, thereby suggesting the influence of building density on LST at daytime.
  • Yuhei Yamamoto, Hirohiko Ishikawa, Yuichiro Oku, Zeyong Hu
    Journal of the Meteorological Society of Japan 96B 59-76 2018年  査読有り筆頭著者
  • Yuhei Yamamoto, Hirohiko Ishikawa
    Journal of the Meteorological Society of Japan 96B 43-58 2018年  査読有り筆頭著者
  • Yuhei Yamamoto, Hirohiko Ishikawa
    Scientific Online Letters on the Atmosphere 14 179-184 2018年  査読有り筆頭著者
    This paper provides the first attempt to investigate the spatial variability of diurnal change patterns of land surface temperature (LST) in urban areas of Japan by applying principal component analysis on LST data retrieved from Himawari-8 geostationary satellite data. The Tokyo and Osaka metropolitan areas were the focus of the analysis, and the target days were days with zero cloud cover in summer and winter. The results of the analysis showed that diurnal cycles of LST are mainly formed by two temporal change patterns in both seasons. For the summer case, the first two principal components (PCs) represented the temporal change patterns related to the amplitude and phase, respectively. For the winter case, the first two PCs represented the temporal change patterns related to the amplitude and gradual change in LST throughout the day, respectively. Results suggest that these temporal change patterns in both seasons have spatial variability partially dictated by land use and wind speed/direction.

MISC

 3

書籍等出版物

 2
  • Yuhei Yamamoto (担当:分担執筆, 範囲:Chapter 9: Satellite-Based Assessment of Urban Thermal Environments)
    CRC Press 2024年6月 (ISBN: 9781003244561)  Refereed
    Satellite remote sensing provides land surface temperature (LST) data across entire urban areas, allowing for the quantification of the surface urban heat island (SUHI) in terms of both its “overall height” and “elevation distribution”. Such a quantified SUHI offers critical scientific evidence for sustainable urban development and heat mitigation strategies. However, no satellite LST products or SUHI quantification methods are universally applicable across various spatiotemporal scales and diverse urban structures. The available LST products have different spatiotemporal resolutions, time spans, and swath widths, depending on factors such as the satellite's sensor, orbit height, and mission. In addition, the error characteristics of LST differ based on the retrieval algorithm. The quantification methods for SUHI vary based on urban/non-urban configuration, background climate and topographic characteristics, spatiotemporal scales, and availability of land use/land cover data. Therefore, users need to select an appropriate LST product and quantification method that aligns with their specific focus. This chapter begins by introducing the types of satellite LST products, LST retrieval algorithms, and unique biases of urban surfaces. This chapter then introduces various methods for quantifying SUHI and discusses the contexts in which they are most appropriately used.
  • 日本リモートセンシング学会 (担当:分担執筆, 範囲:第5章「陸域」5-2 植生の一次生産、第9章「災害」9-20 熱波)
    丸善出版 2022年12月 (ISBN: 9784621307762)

講演・口頭発表等

 41

共同研究・競争的資金等の研究課題

 10