Introduction to the Physics and Techniques of Remote Sensing (Wiley Series in Remote Sensing and Image Processing) - Hardcover

About the Author

CHARLES ELACHI, PHD, is a Professor of electrical engineering and planetary science at Caltech. He was the Director of NASA’s Jet Propulsion Laboratory from 2001 to 2016. He played the leading role in the development of five Earth Orbiting Shuttle Imaging Radar missions and the Cassini Titan Radar mapping instrument. He taught the Physics of Remote Sensing at Caltech from 1982 to 2002.

JAKOB VAN ZYL, PHD, occupied numerous leadership positions at the Jet Propulsion Laboratory including the Radar Section, Planetary Exploration Program, Astronomy and Physics Program and as the Associate Director for advanced missions. He taught the Physics of Remote Sensing at Caltech from 2002 to 2020.

From the Back Cover

DISCOVER CUTTING EDGE THEORY AND APPLICATIONS OF MODERN REMOTE SENSING IN GEOLOGY, OCEANOGRAPHY, ATMOSPHERIC SCIENCE, IONOSPHERIC STUDIES, AND MORE

The thoroughly revised third edition of the Introduction to the Physics and Techniques of Remote Sensing delivers a comprehensive update to the authoritative textbook, offering readers new sections on radar interferometry, radar stereo, and planetary radar. It explores new techniques in imaging spectroscopy and large optics used in Earth orbiting, planetary, and astrophysics missions. It also describes remote sensing instruments on, as well as data acquired with, the most recent Earth and space missions.

Readers will benefit from the brand new and up-to-date concept examples and full-color photography, 50% of which is new to the series. You’ll learn about the basic physics of wave/matter interactions, techniques of remote sensing across the electromagnetic spectrum (from ultraviolet to microwave), and the concepts behind the remote sensing techniques used today and those planned for the future.

The book also discusses the applications of remote sensing for a wide variety of earth and planetary atmosphere and surface sciences, like geology, oceanography, resource observation, atmospheric sciences, and ionospheric studies. This new edition also incorporates:

• A fulsome introduction to the nature and properties of electromagnetic waves
• An exploration of sensing solid surfaces in the visible and near infrared spectrums, as well as thermal infrared, microwave, and radio frequencies
• A treatment of ocean surface sensing, including ocean surface imaging and the mapping of ocean topography
• A discussion of the basic principles of atmospheric sensing and radiative transfer, including the radiative transfer equation

Perfect for senior undergraduate and graduate students in the field of remote sensing instrument development, data analysis, and data utilization, Introduction to the Physics and Techniques of Remote Sensing will also earn a place in the libraries of students, faculty, researchers, engineers, and practitioners in fields like aerospace, electrical engineering, and astronomy.

From the Inside Flap

DISCOVER CUTTING EDGE THEORY AND APPLICATIONS OF MODERN REMOTE SENSING IN GEOLOGY, OCEANOGRAPHY, ATMOSPHERIC SCIENCE, IONOSPHERIC STUDIES, AND MORE

The thoroughly revised third edition of the Introduction to the Physics and Techniques of Remote Sensing delivers a comprehensive update to the authoritative textbook, offering readers new sections on radar interferometry, radar stereo, and planetary radar. It explores new techniques in imaging spectroscopy and large optics used in Earth orbiting, planetary, and astrophysics missions. It also describes remote sensing instruments on, as well as data acquired with, the most recent Earth and space missions.

Readers will benefit from the brand new and up-to-date concept examples and full-color photography, 50% of which is new to the series. You’ll learn about the basic physics of wave/matter interactions, techniques of remote sensing across the electromagnetic spectrum (from ultraviolet to microwave), and the concepts behind the remote sensing techniques used today and those planned for the future.

The book also discusses the applications of remote sensing for a wide variety of earth and planetary atmosphere and surface sciences, like geology, oceanography, resource observation, atmospheric sciences, and ionospheric studies. This new edition also incorporates:

• A fulsome introduction to the nature and properties of electromagnetic waves
• An exploration of sensing solid surfaces in the visible and near infrared spectrums, as well as thermal infrared, microwave, and radio frequencies
• A treatment of ocean surface sensing, including ocean surface imaging and the mapping of ocean topography
• A discussion of the basic principles of atmospheric sensing and radiative transfer, including the radiative transfer equation

Perfect for senior undergraduate and graduate students in the field of remote sensing instrument development, data analysis, and data utilization, Introduction to the Physics and Techniques of Remote Sensing will also earn a place in the libraries of students, faculty, researchers, engineers, and practitioners in fields like aerospace, electrical engineering, and astronomy.