Fascinating Facts About Complex Random Variables and the Riemann Hypothesis
Despite my long statistical and machine learning career both in academia and in the industry, I never heard of complex random variables until recently, when I stumbled upon them by chance while working on some number theory problem. However, I learned that they are used in several applications, including signal processing, quadrature amplitude modulation, information theory and actuarial sciences. See here and here.
In this article, I provide a short overview of the topic, with application to understanding why the Riemann hypothesis (arguably the most famous unsolved mathematical conjecture of all times) might be true, using probabilistic arguments. Stat-of-the-art, recent developments about this conjecture are discussed in a way that most machine learning professionals can understand. The style of my presentation is very compact, with numerous references provided as needed. It is my hope that this will broaden the horizon of the reader, offering new modeling tools to her arsenal, and an off-the-beaten-path reading. The level of mathematics is rather simple and you need to know very little (if anything) about complex numbers. After all, these random variables can be understood as bivariate vectors (X, Y) with X representing the real part and Y the imaginary part. They are typically denoted as Z = X + iY, where the complex number i (whose square is equal to -1) is the imaginary unit. There are some subtle differences with bivariate real variables, and the interested reader can find more details here. The complex Gaussian variable (see here) is of course the most popular case.
Non Fui, Fui, Sum, Non Essem, Non Curo
3 年thanks for the breadcrumbs; well used in telecommunications, viz QAM, but also information theory ( Shannon's differential entropy ) https://www.tandfonline.com/doi/full/10.1080/21642583.2017.1367970 https://en.wikipedia.org/wiki/Differential_entropy
Assistant Professor of Operations Research, Optimization and AI, Project Specialist at Tsinghua University
3 年This article will really broaden the horizon of the reader, as you hope! Thank you very much for sharing this nice article.
useful sir
Thanks for reaching out to me
Senior Data Warehouse Architect and Developer. Business Intelligence Platforms and Reporting Systems. Pipelines ~ DW Modeling ~ Application Integrations ~ Data Layers for ML and AI
3 年Vincent you never disappoint. This will take me a while. You're using random vars distributed over the complex plane(s) to find a path for proof of the Zeta function(?) I sort of get the connection with my rtl-sdr receiver, but does it explain the 17 year circadian cycle we are about to endure? ??