当自信代价高昂时,要进行控制。

ArXiv Pub Date : 2024-10-29
Itzel Olivos Castillo, Paul Schrater, Xaq Pitkow
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引用次数: 0

摘要

我们开发的随机控制版本考虑了推理的计算成本。过去的研究确定了没有控制的高效编码,或忽略信息合成成本的高效控制。在这里,我们将这些概念结合到一个框架中,在这个框架中,代理可以合理地近似推理,从而实现高效控制。具体来说,我们研究的是线性二次高斯(LQG)控制,在世界状态的后验概率相对精度上增加了内部成本。这就产生了一种权衡:如果在推理过程中能节省足够多的比特,那么代理可以通过牺牲一些任务性能来获得更多的整体效用。我们发现,解决联合推理和控制问题的合理策略会根据任务需求发生阶段性转换,从代价高昂但最优的推理转换为一系列通过旋转变换关联的次优推理,每种推理都会错误估计世界的稳定性。在所有情况下,代理都是多动少想。这项工作为一种新型的理性计算奠定了基础,大脑和机器都可以利用这种计算进行高效但计算受限的控制。
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Control when confidence is costly.

We develop a version of stochastic control that accounts for computational costs of inference. Past studies identified efficient coding without control, or efficient control that neglects the cost of synthesizing information. Here we combine these concepts into a framework where agents rationally approximate inference for efficient control. Specifically, we study Linear Quadratic Gaussian (LQG) control with an added internal cost on the relative precision of the posterior probability over the world state. This creates a trade-off: an agent can obtain more utility overall by sacrificing some task performance, if doing so saves enough bits during inference. We discover that the rational strategy that solves the joint inference and control problem goes through phase transitions depending on the task demands, switching from a costly but optimal inference to a family of suboptimal inferences related by rotation transformations, each misestimate the stability of the world. In all cases, the agent moves more to think less. This work provides a foundation for a new type of rational computations that could be used by both brains and machines for efficient but computationally constrained control.

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