Smart Resetting: An Energy-Efficient Strategy for Stochastic Search Processes

Ofir Tal-Friedman, Tommer D. Keidar, Shlomi Reuveni, Yael Roichman
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Abstract

Stochastic resetting, a method for accelerating target search in random processes, often incurs temporal and energetic costs. For a diffusing particle, a lower bound exists for the energetic cost of reaching the target, which is attained at low resetting rates and equals the direct linear transportation cost against fluid drag. Here, we study ``smart resetting," a strategy that aims to beat this lower bound. By strategically resetting the particle only when this benefits its progress toward the target, smart resetting leverages information to minimize energy consumption. We analytically calculate the energetic cost per mean first passage time and show that smart resetting consistently reduces the energetic cost compared to regular resetting. Surprisingly, smart resting achieves the minimum energy cost previously established for regular resetting, irrespective of the resetting rate. Yet, it fails to reduce this cost further. We extend our findings in two ways: first, by examining nonlinear energetic cost functions, and second, by considering smart resetting of drift-diffusion processes.
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智能重置:随机搜索过程的节能策略
随机重置是一种在随机过程中加速目标搜索的方法,通常会产生时间和能量成本。对于扩散粒子来说,到达目标的能量成本存在一个下限,这个下限可以在较低的重置率下达到,等于流体阻力的直接线性运输成本。在这里,我们研究了 "智能重置",一种试图打破这一下限的策略。只有当有利于粒子向目标前进时,智能重置才会策略性地重置粒子,从而利用信息将能耗降至最低。我们通过分析计算了每个平均首次通过时间的能量成本,结果表明,与常规重置相比,智能重置持续降低了能量成本。然而,它未能进一步降低这一成本。我们从两个方面扩展了我们的发现:第一,研究非线性能量成本函数;第二,考虑漂移扩散过程的智能重置。
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