An Information-Theoretic Analog of the Twin Paradox

Mladen Kovačević, Iosif Pinelis, Marios Kountouris
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Abstract

We revisit the familiar scenario involving two parties in relative motion, in which Alice stays at rest while Bob goes on a journey at speed $ \beta c $ along an arbitrary trajectory and reunites with Alice after a certain period of time. It is a well-known consequence of special relativity that the time that passes until they meet again is different for the two parties and is shorter in Bob's frame by a factor of $ \sqrt{1-\beta^2} $. We investigate how this asymmetry manifests from an information-theoretic viewpoint. Assuming that Alice and Bob transmit signals of equal average power to each other during the whole journey, and that additive white Gaussian noise is present on both sides, we show that the maximum number of bits per second that Alice can transmit reliably to Bob is always higher than the one Bob can transmit to Alice. Equivalently, the energy per bit invested by Alice is lower than that invested by Bob, meaning that the traveler is less efficient from the communication perspective, as conjectured by Jarett and Cover.
双生悖论的信息论类比
我们重新审视熟悉的两方相对运动的场景,其中Alice保持静止,而Bob沿着任意轨迹以$ \beta c $的速度旅行,并在一段时间后与Alice重聚。狭义相对论的一个众所周知的结论是,在他们再次相遇之前经过的时间对双方来说是不同的,并且在鲍勃的框架中缩短了$ \sqrt{1-\beta^2} $倍。我们从信息论的角度研究这种不对称是如何表现的。假设Alice和Bob在整个旅程中以相等的平均功率相互传输信号,并且两边都存在加性高斯白噪声,我们证明了Alice可以可靠地传输给Bob的每秒最大比特数总是高于Bob可以传输给Alice的比特数。同样,正如贾勒特和盖伊推测的那样,爱丽丝每比特投入的能量比鲍勃投入的能量要低,这意味着从通信的角度来看,旅行者的效率更低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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