Techniques of modeling spatial phenomena of background radiation in terrain geometric cluttering

This study is focused on electro-optical imaging techniques and analysis that support warning receiver systems in detecting threats. These systems were enabled to receive threat signals, which are generalized to be additive in nature (signal + noise) [1]. The sources of the noise were identified as man-made noise. This, include the humming of the system´s power supply in a radio receiver, feedback oscillation noise, or ignition radiation, including terrain noise that affects global positioning systems (GPS) noise angle. However, this study is restricted to random noise signals that composite terrain phenomena. A model of modules (M2) was use to evaluate a characteristic of microwave communication signals, clutter. This noise phenomenon of radiation in the radio frequency has gained attention in communication marketing and advertising. The results of the evaluation show that terrain geometric cluttering can significantly affect the distribution of this marketable radio frequency. This consideration could be applied to improve future regional and urban planning using radiophysical orientation for subdivision development.