Introduction:

As a renowned young talent in Shanghai (overseas), I specialize in the captivating realm of nearshore radar altimetry methods and their diverse applications. With a passion for research, I have made significant strides in this field, demonstrating my expertise and contributing to its advancement.

Among my key research achievements is the notable enhancement and integration of various nearshore waveform tracking algorithms. By implementing these innovations, I have successfully augmented the accuracy and data utilization of nearshore radar altimetry, unlocking new possibilities for exploration and analysis.

Additionally, I have devoted extensive efforts to establish long-term sea surface height time series utilizing multiple altimetry satellites. This endeavor has yielded valuable insights into the dynamic changes occurring in nearshore regions, offering substantial contributions to our understanding of sea level fluctuations in these areas.

Furthermore, as an esteemed member of the Satellite Altimetry Commission within the prestigious International Association of Geodesy, I actively collaborate with fellow experts to advance the study and application of satellite altimetry techniques.

My commitment to the field and steadfast pursuit of excellence continue to drive my research endeavors, constantly seeking new avenues to broaden our knowledge and capture further advancements in nearshore radar altimetry.

Work Experience:

·Jul 2022 - Present: Researcher, School of Surveying and Mapping, Tongji University

·Jun 2020 - Jun 2022: Postdoctoral Researcher, School of Geomatics, Sun Yat-sen University

Education Background:

·Nov 2015 - Feb 2020: Ph.D. in Surveying, the University of Newcastle, Australia

·Sep 2012 - Mar 2015: Master's degree in Geodesy and Surveying Engineering, Tongji University

·Sep 2008 - Jul 2012: Bachelor's degree in Surveying Engineering, Hefei University of Technology

Main Research Areas:

·Satellite altimetry methods and applications for sea surface height retrieval

·Processing of synthetic aperture radar altimeter waveform data

·Analysis of global nearshore sea level changes

·Modeling of mean sea level in global nearshore areas

Recent Major Research Projects:

·Leading talent project in Shanghai (overseas) for young talents, Jul 2022 - Jul 2025, 1.2 million RMB.

·National Natural Science Foundation of China, Youth Science Fund, High-precision study of South China Sea nearshore sea surface height considering waveform classification and reconstruction algorithm bias (4210060442), Jan 2022 - Dec 2024, 300,000 RMB, Principal Investigator.

·The 69th batch of Postdoctoral Science Foundation of China, General Program, Optimization of nearshore sea surface height construction and analysis of extreme sea level changes in the South China Sea based on shortest path (2021M693582), Jul 2021 - Jul 2023, 80,000 RMB, Principal Investigator.

·Guangdong Provincial Natural Science Foundation, General Program, Quantitative analysis of wave height extraction based on radar altimetry data and its impact on nearshore sea level changes in the Guangdong-Hong Kong-Macao Greater Bay Area (2022A1515011299), Jan 2022 - Dec 2024, 100,000 RMB, Principal Investigator.

Recruitment Direction:

We welcome students with a background in surveying, remote sensing, and oceanography who are interested in satellite altimetry data processing and sea level change research to join our research group for pursuing a master's degree.

Representative Papers:

1.Peng F., Deng X., Cheng X. Australian coastal sea level trends over 16 yr of reprocessed Jason altimeter 20-Hz data sets. Journal of Geophysical Research: Oceans, 127, e2021JC018145.

2.Peng F., Deng X., Cheng X. Quantifying the precision of retracked Jason-2 sea level data in the 0-5 km Australian coastal zone. Remote Sensing of Environment, 2021, 263(111548).

3.Peng F., Deng X. Improving precision of high-rate altimeter sea level anomalies by removing the sea state bias and intra-1-Hz covariant error. Remote Sensing of Environment, 2020, 251(112081).

4.Peng F., Deng X. Validation of Sentinel-3A SAR mode sea level anomalies around Australian coastal region. Remote Sensing of Environment, 2020, 237(111548).

5.Peng F., Deng X. Validation of wind speeds from Brown-peaky (BP) retracker in the Gulf of Mexico and East Coast of North America, IEEE Transactions on Geoscience and Remote Sensing, 2020, 58(8): 5793-5803.

6.Peng F., Deng X. Validation of improved significant wave heights from the Brown-Peaky (BP) retracker along the East Coast of Australia, Remote Sensing. 2018, 10(7): 1072.

7.Peng F., Deng X. A new retracking technique for Brown peaky altimetric waveforms. Marine Geodesy, 2018, 41(2): 99-125.