Parameter Estimation Based on Noisy Chaotic Signals in the Weak-Noise Regime

Neri Merhav

doi:10.1109/TIT.2024.3415636

Parameter Estimation Based on Noisy Chaotic Signals in the Weak-Noise Regime

Neri Merhav

Electrical and Computer Engineering

Technion - Israel Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

We consider the problem of parameter estimation, based on noisy chaotic signals, from the viewpoint of twisted modulation for waveform communication. In particular, we study communication systems where the parameter to be estimated is conveyed as the initial condition of a chaotic dynamical system of a certain class and we examine its estimation performance in terms of the expectation of a given convex function of the estimation error at high SNR, under the demand that the probability of anomaly is kept small. We derive a lower bound on the weak-noise estimation error for this class of chaotic modulators, and argue that it can be outperformed by using the itinerary signal associated with the chaotic system instead of the main chaotic output signal.

Original language	English
Pages (from-to)	1
Number of pages	1
Journal	IEEE Transactions on Information Theory
DOIs	https://doi.org/10.1109/TIT.2024.3415636
State	Accepted/In press - 2024

Keywords

Chaotic communication
Dynamical systems
Estimation
Estimation error
Modulation
Signal to noise ratio
Vectors
channel capacity
chaos
dynamical system
estimation
modulation

All Science Journal Classification (ASJC) codes

Information Systems
Library and Information Sciences
Computer Science Applications

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10.1109/TIT.2024.3415636

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title = "Parameter Estimation Based on Noisy Chaotic Signals in the Weak-Noise Regime",

abstract = "We consider the problem of parameter estimation, based on noisy chaotic signals, from the viewpoint of twisted modulation for waveform communication. In particular, we study communication systems where the parameter to be estimated is conveyed as the initial condition of a chaotic dynamical system of a certain class and we examine its estimation performance in terms of the expectation of a given convex function of the estimation error at high SNR, under the demand that the probability of anomaly is kept small. We derive a lower bound on the weak-noise estimation error for this class of chaotic modulators, and argue that it can be outperformed by using the itinerary signal associated with the chaotic system instead of the main chaotic output signal.",

keywords = "Chaotic communication, Dynamical systems, Estimation, Estimation error, Modulation, Signal to noise ratio, Vectors, channel capacity, chaos, dynamical system, estimation, modulation",

author = "Neri Merhav",

note = "Publisher Copyright: IEEE",

year = "2024",

doi = "10.1109/TIT.2024.3415636",

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N2 - We consider the problem of parameter estimation, based on noisy chaotic signals, from the viewpoint of twisted modulation for waveform communication. In particular, we study communication systems where the parameter to be estimated is conveyed as the initial condition of a chaotic dynamical system of a certain class and we examine its estimation performance in terms of the expectation of a given convex function of the estimation error at high SNR, under the demand that the probability of anomaly is kept small. We derive a lower bound on the weak-noise estimation error for this class of chaotic modulators, and argue that it can be outperformed by using the itinerary signal associated with the chaotic system instead of the main chaotic output signal.

AB - We consider the problem of parameter estimation, based on noisy chaotic signals, from the viewpoint of twisted modulation for waveform communication. In particular, we study communication systems where the parameter to be estimated is conveyed as the initial condition of a chaotic dynamical system of a certain class and we examine its estimation performance in terms of the expectation of a given convex function of the estimation error at high SNR, under the demand that the probability of anomaly is kept small. We derive a lower bound on the weak-noise estimation error for this class of chaotic modulators, and argue that it can be outperformed by using the itinerary signal associated with the chaotic system instead of the main chaotic output signal.

KW - Chaotic communication

KW - Dynamical systems

KW - Estimation

KW - Estimation error

KW - Modulation

KW - Signal to noise ratio

KW - Vectors

KW - channel capacity

KW - chaos

KW - dynamical system

KW - estimation

KW - modulation

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U2 - 10.1109/TIT.2024.3415636

DO - 10.1109/TIT.2024.3415636

M3 - مقالة

SN - 0018-9448

SP - 1

JO - IEEE Transactions on Information Theory

JF - IEEE Transactions on Information Theory

ER -

Parameter Estimation Based on Noisy Chaotic Signals in the Weak-Noise Regime

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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