Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2009-09-05
J. Phys. A 42, 434008 (2009)
Physics
Condensed Matter
Statistical Mechanics
To appear in J. Phys.: Condensed Matter, special issue on "Random Search Problem: Trends and Perspectives", eds.: MEG da Luz,
Scientific paper
We study the kinetics for the search of an immobile target by randomly moving searchers that detect it only upon encounter. The searchers perform intermittent random walks on a one-dimensional lattice. Each searcher can step on a nearest neighbor site with probability "alpha", or go off lattice with probability "1 - \alpha" to move in a random direction until it lands back on the lattice at a fixed distance L away from the departure point. Considering "alpha" and L as optimization parameters, we seek to enhance the chances of successful detection by minimizing the probability P_N that the target remains undetected up to the maximal search time N. We show that even in this simple model a number of very efficient search strategies can lead to a decrease of P_N by orders of magnitude upon appropriate choices of "alpha" and L. We demonstrate that, in general, such optimal intermittent strategies are much more efficient than Brownian searches and are as efficient as search algorithms based on random walks with heavy-tailed Cauchy jump-length distributions. In addition, such intermittent strategies appear to be more advantageous than Levy-based ones in that they lead to more thorough exploration of visited regions in space and thus lend themselves to parallelization of the search processes.
Burlatsky Sergei
Lindenberg Katja
Oshanin Gleb
Wio Horacio S.
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