Your search keyword '"C-band"' showing total 4 results

1. Retrieval of High-Resolution Vegetation Optical Depth from Sentinel-1 Data over a Grassland Region in the Heihe River Basin.

Author

Zhou, Zhilan, Fan, Lei, De Lannoy, Gabrielle, Liu, Xiangzhuo, Peng, Jian, Bai, Xiaojing, Frappart, Frédéric, Baghdadi, Nicolas, Xing, Zanpin, Li, Xiaojun, Ma, Mingguo, Li, Xin, Che, Tao, Geng, Liying, and Wigneron, Jean-Pierre

Subjects

*WATERSHEDS, *NORMALIZED difference vegetation index, *GLOBAL environmental change, *LEAF area index, *GRASSLAND soils, *GRASSLANDS

Abstract

Vegetation optical depth (VOD), as a microwave-based estimate of vegetation water and biomass content, is increasingly used to study the impact of global climate and environmental changes on vegetation. However, current global operational VOD products have a coarse spatial resolution (~25 km), which limits their use for agriculture management and vegetation dynamics monitoring at regional scales (1–5 km). This study aims to retrieve high-resolution VOD from the C-band Sentinel-1 backscatter data over a grassland of the Heihe River Basin in northwestern China. The proposed approach used an analytical solution of a simplified Water Cloud Model (WCM), constrained by given soil moisture estimates, to invert VOD over grassland with 1 km spatial resolution during the 2018–2020 period. Our results showed that the VOD estimates exhibited large spatial variability and strong seasonal variations. Furthermore, the dynamics of VOD estimates agreed well with optical vegetation indices, i.e., the mean temporal correlations with normalized difference vegetation index (NDVI), enhanced vegetation index (EVI), and leaf area index (LAI) were 0.76, 0.75, and 0.75, respectively, suggesting that the VOD retrievals could precisely capture the dynamics of grassland. [ABSTRACT FROM AUTHOR]

Published

2022

2. An improved self-consistent approach to attenuation correction for C-band polarimetric radar measurements and its impact on quantitative precipitation estimation.

Author

Gou, Yabin, Chen, Haonan, and Zheng, Jiafeng

Subjects

*RAINDROP size, *RADAR meteorology, *RADAR, *METEOROLOGICAL precipitation, *RAIN gauges, *COST functions, *STATISTICAL correlation

Abstract

Attenuation correction of measured reflectivity (Z H) and differential reflectivity (Z DR) is critical in short-wavelength radar applications, especially during extreme precipitation events such as heavy rain. This paper develops an improved self-consistent approach (improved ZPHI method) for attenuation correction in practical environment. In particular, a non-negative constraint is imposed on the specific attenuation, which is inferred from the monotonic increasing characteristic of differential propagation phase (Φ DP). The copolar correlation coefficient (ρ HV) is used to partition the Φ DP profiles into independent range segments, which are featured by different hydrometeor phases such as liquid rain or mixed-phase precipitation. Additional minimization constraint is imposed on the cost function of the difference between preprocessed Φ DP and reconstructed Φ DP to ensure its appropriate convergence. In addition, an exponential Z DR − Z H relation derived from local raindrop size distribution (DSD) data is applied in the procedure of Z DR correction. Polarimetric measurements from a C-band radar (CPOL) in Hangzhou of China during two extreme precipitation events are used to demonstrate the improved attenuation correction method. DSD observations from disdrometers and radar data from a nearby system operating at non-attenuated frequency (i.e., S-band) at Huangshan Mountain are used to evaluate the attenuation correction performance. This paper also studies the impact of attenuation correction on the radar-derived quantitative precipitation estimation (QPE) product, through cross-comparison with rain gauge observations. Results show that the polarimetric observations from CPOL radar are effectively enhanced and more consistent with collocated S-band measurements and the simulated radar moments based on DSD data. Hourly rainfall products derived from R (Z H) and R (Z H , Z DR) are significantly improved, which are comparable to R (K DP) after attenuation correction. • An improved attenuation correction method is proposed for C-band polarimetric radar applications. • The routinely operating C-band radar in Hangzhou, China is used to demonstrate the proposed attenuation correction scheme. • Cross-comparison with disdrometer data and collocated S-band observations shows great performance of this correction method. • The QPE products derived from R (Z H) and R (Z H , Z DR) are significantly improved after attenuation correction. [ABSTRACT FROM AUTHOR]

Published

2019

3. Design and experimental study of a C-band traveling-wave accelerating structure.

Author

FANG WenCheng, TONG DeChun, GU Qiang, and ZHAO ZhenTang

Subjects

*EXPERIMENTAL design, *WAVEGUIDES, *MATHEMATICAL models, *THEORY of wave motion, *SYNCHROTRON radiation, *ACCELERATION waves

Abstract

Research and design of a C-band (5712 MHz) high-gradient traveling-wave accelerating structure is being carried out at Shanghai Institute of Applied Physics, Chinese Academy of Sciences. The structure consists of 53 regular disk-loaded cells and two waveguide couplers, and its length is about 1 m. This paper presents a design method for the accelerating structure, an experimental model and the preliminary results of an RF cold test of the model structure. [ABSTRACT FROM AUTHOR]

Published

2011

4. 5G Action Now aims to win 5G race against China, zeroes in on C-band.

Author

Alleven, Monica

Subjects

RACE relations, ALARMS, ORGANIZATION

Abstract

A new advocacy organization called 5G Action Now is sounding the alarm about how the U.S. needs to act fast in order to win the 5G race against China. [ABSTRACT FROM AUTHOR]

Published

2020