Title :
Ray propagation in a random lattice: a maximum entropy, anomalous diffusion Process
Author :
Marano, Stefano ; Franceschetti, Massimo
Author_Institution :
Univ. degli Studi di Salerno, Fisciano, Italy
fDate :
6/1/2005 12:00:00 AM
Abstract :
The typical model for diffusion in disordered systems is that of a random walk that proceeds in discrete steps over a random lattice, where not all the nearest sites can be reached at each step. We study the related problem of ray propagation in percolating lattices, and observe that it follows an anomalous diffusion process, whose appropriate metric is the "Manhattan" distance defined by the lattice geometry. The proposed solution is the one that exhibits the maximum Shannon\´s entropy, among all propagation processes with appropriate moment constraints imposed by the geometry of the lattice. Ray propagation in percolating lattices has been recently proposed as a model for urban area propagation of radio waves. We discuss implications of our results in this scenario.
Keywords :
constraint theory; lattice theory; maximum entropy methods; percolation; radiowave propagation; random media; ray tracing; Manhattan distance; anomalous diffusion process; disordered system; electromagnetic propagation; maximum Shannon entropy; moment constraint; percolating lattice; radio wave urban area propagation; random lattice theory; random media; ray propagation; Cities and towns; Diffusion processes; Electromagnetic propagation; Electromagnetic scattering; Entropy; Geometry; Lattices; Optical propagation; Random media; Urban areas; Electromagnetic propagation in random media; maximum entropy methods; percolation lattices;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2005.848475
