Synthetic aperture radar (SAR) provides high-quality images in all weather
and all time conditions. It shows promise for acquiring spatial and tempora
l data for urban analysis. The objective of this study is threefold. First,
the mathematical theory and physical background of SAR data acquisition an
d processing are described and introduced to the civil and engineering mech
anics community. Second, a simulation tool based on the electromagnetic for
mulation is used to simulate SAR imagery of real-sized buildings as a proof
of concept to demonstrate the usefulness of SAR applications and their ima
ging potentials and characteristics relevant to urban areas. Our third and
last objective is to study the capabilities of damage and change diagnostic
schemes based on simulated complex SAR images of pre- and post-events. A S
AR image is obtained from a coherent imagery system and can be described in
three dimensions, sometimes referred to as a complex imagery system, where
by two dimensions represent the spatial event of the image and the third di
mension represents the phase content of the image. The phase information is
relevant to the detection of the finer details in the image.