1st Edition
Ground-Based Microwave Radiometry and Remote Sensing Methods and Applications
The ability to effectively monitor the atmosphere on a continuous basis requires remote sensing in microwave. Written for physicists and engineers working in the area of microwave sensing of the atmosphere, Ground-Based Microwave Radiometry and Remote Sensing: Methods and Applications is completely devoted to ground-based remote sensing. This text covers the fundamentals of microwave remote sensing, and examines microwave radiometric measurements and their applications.
The book discusses the atmospheric influences on the electromagnetic spectrum, addresses the measurement of incoherent electromagnetic radiation from an object obeying the laws of radiation fundamentals, and explores the height limits in both the water vapor band and the oxygen band. The author describes the measurement technique of water vapor in the polar region, details studies of the measurement of integrated water vapor content by deploying a microwave radiometer, and presents several real-time pictures of radiometric and disdrometer measurements.
- Includes integrated water vapor and cloud liquid water models
- Contains measurements in adverse weather conditions
- Illustrates measurement technique in the Antarctic and Arctic regions
- Describes rain models in different locations including tropical, temperate regions along with radiometric measurement techniques
- Presents a definite model for measurement of propagation path delay
The book summarizes the latest research results obtained in the area of measurements and modeling, describes the atmospheric influences on electromagnetic spectrum along with different gaseous and cloud models, and provides examples of radiometric retrievals from a variety of dynamic weather phenomena.
Ground-Based Remote Sensing
Introduction: Definition of Remote Sensing
Microwave Remote Sensing and Its Application
Atmospheric Remote Sensing
Atmospheric Influences on the Electromagnetic Spectrum
References
Radiometry
Introduction
Radiation Fundamentals
Basic Parameters of Radiometric Sensing
General Physical Principle
References
Ground-Based Zenith-Looking Radio Visibility at Microwave Frequencies over a Tropical Location
Introduction
Absorption in the Water Vapor Band
Mean Radiating Temperature
Water Vapor Content and Microwave Attenuation in the Water Vapor Band
Determination of Height Limit of Radio Visibility in the Water Vapor Band
Absorption in the Oxygen Band
Determination of Height Limit of Radio Visibility in the Oxygen Band
References
Radiometric Sensing of Temperature, Water Vapor, and Cloud Liquid Water
Introduction
General Physical Principles
The Forward Model
The Inverse Model
Radiometric Response to Atmospheric Profiles:
Weighting Function
Predictability of Attenuation between Various Frequencies
Passive Microwave Profiling during Dynamic Weather Conditions: A Case Study
Ground-Based Radiometric Sensing of Thermodynamic
Variables in the Polar Regions
Introduction
Theoretical Background
Weighting Function Analysis
Retrieval Technique
Water Vapor over Antarctica
References
Radiometric Estimation of Integrated Water Vapor Content
Introduction
Single-Frequency Algorithm for Water Vapor Estimation
Dual-Frequency Algorithm for Water Vapor Estimation
References
Microwave Radiometric Estimation of Excess Electrical Path
Introduction
The Problem
Theoretical Model
Determination of Constants in the Algorithm
Mean Atmospheric Temperature Tm at Microwave Frequencies
Radiometric Estimation of Delay over Temperate Locations
Radiometric Estimation of Delay over Tropical Location
Vapor Effect on Baseline Determination
References
Characterization of Rain and Attenuation in the Earth-Space Path
Introduction
Rain Rates, Duration, and Return Periods
Raindrop Size Distribution at Tropical Locations
Rain Absorption Model
Rain Attenuation Studies over a Tropical Latitude – A Case Study
Numerical Analysis
References
Index
Biography
Pranab Kumar Karmakar is currently pursuing research work principally in the area of modeling of integrated water vapor and liquid water in the ambient atmosphere. He is involved in research and teaching at the post-graduate level at the Institute of Radiophysics and Electronics, University of Calcutta in India. Dr. Karmakar published noteworthy outcomes of his research of tropical locations in different international and national journals of repute. All these are culminated into a book entitled Microwave Propagation and Remote Sensing: Atmospheric Influences with Models and Applications published by CRC Press in 2012.
"Certainly, the information content as well as the presentation of the book makes me interested to have it on my shelf. … The author has provided the necessary background for general readership as well as recent trends to arouse interest in the mind of students of electronics and communication engineering, in general, and microwave engineering, in particular. In addition, the book is going to be an important source of inspiration to researchers in the area of microwave sensing and measurement."
––B. N. Basu, Emeritus Professor and Research Coordinator, Supreme Knowledge Foundation Group of Institutions, W. Bengal, India and Former Head, Electronics Engineering Department and Coordinator, Centre of Research in Microwave Tubes, Banaras Hindu University, Varanasi, Uttar Pradesh, India"Written for physicists and engineers working in the area of microwave sensing of the atmosphere, this book is completely devoted to ground-based remote sensing. The text covers the fundamentals of microwave remote sensing, and examines microwave radiometric measurements and their applications."
––IEEE Microwave Magazine, June 2014