For each of the several types, he derives the
radar range equation, explains applicable algorithms, and presents a case study that couples theory to reality by demonstrating the implementation of an actual radar system.
This is difficult for the radar because the radar must receive enough energy after the round trip to the target (40 log range in the
radar range equation) to detect that target.
In Chapter 3, the author stresses the importance of the
radar range equation. Chapter 4 presents targets and interfering signals.
First, we will consider the
radar range equation, then the equations determining the range at which radars can detect targets.
Chapter 4 treats range relationships beginning with a definition of the
radar range equation for bistatic systems, while Chapter 5 discusses location and area relationships.
Many textbooks present the
radar range equation in the form most useful to radar people, since the equation focuses on how well the radar is doing its job.
The fields scattered from the background can be determined with the aid of the
radar range equation, Equation 1.
Students using the IMOM can study in graphical real time the basic
radar range equation coupled with current electronic order of battle data and digital world map data.
Keicher provided the following laser
radar range equation for the target signal power received, Mathematical Expression Omitted where S = target signal power P = transmitted power sigma = laser radar target cross
PHOTO : NOMOGRAPH FOR A SOLUTION OF ONE-WAY
RADAR RANGE EQUATIONThe
radar range equation is introduced early in the first chapter and forms the backbone to which all other concepts are tied.
Thus study was made by using the
radar range equation to determine the range of detection of the radar and the one-way Friis transmission formula to determine that of the ECM receiver.