Salvato in:
Dettagli Bibliografici
Autori principali: Khan, Imran Ali, Mohammed, Saif Khan, Hadani, Ronny, Chockalingam, Ananthanarayanan, Calderbank, Robert, Monk, Anton, Kons, Shachar, Rakib, Shlomo, Hebron, Yoav
Natura: Preprint
Pubblicazione: 2026
Soggetti:
Accesso online:https://arxiv.org/abs/2601.15602
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1866909997741375488
author Khan, Imran Ali
Mohammed, Saif Khan
Hadani, Ronny
Chockalingam, Ananthanarayanan
Calderbank, Robert
Monk, Anton
Kons, Shachar
Rakib, Shlomo
Hebron, Yoav
author_facet Khan, Imran Ali
Mohammed, Saif Khan
Hadani, Ronny
Chockalingam, Ananthanarayanan
Calderbank, Robert
Monk, Anton
Kons, Shachar
Rakib, Shlomo
Hebron, Yoav
contents Across the world, there is growing interest in new waveforms, Zak-OTFS in particular, and over-the-air implementations are starting to appear. The choice between OFDM and Zak-OTFS is not so much a choice between waveforms as it is an architectural choice between preventing inter-carrier interference (ICI) and embracing ICI. In OFDM, once the Input-Output (I/O) relation is known, equalization is relatively simple, at least when there is no ICI. However, in the presence of ICI the I/O relation is non-predictable and its acquisition is non-trivial. In contrast, equalization is more involved in Zak-OTFS due to inter-symbol-interference (ISI), however the I/O relation is predictable and its acquisition is simple. {Zak-OTFS exhibits superior performance in doubly-spread 6G use cases with high delay/Doppler channel spreads (i.e., high mobility and/or large cells), but architectural choice is governed by the typical use case, today and in the future. What is typical depends to some degree on geography, since large delay spread is a characteristic of large cells which are the rule rather than the exception in many important wireless markets.} This paper provides a comprehensive performance comparison of cyclic prefix OFDM (CP-OFDM) and Zak-OTFS across the full range of 6G propagation environments. The performance results provide insights into the fundamental architectural choice.
format Preprint
id arxiv_https___arxiv_org_abs_2601_15602
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Does 6G Need a New Waveform: Comparing Zak-OTFS with CP-OFDM
Khan, Imran Ali
Mohammed, Saif Khan
Hadani, Ronny
Chockalingam, Ananthanarayanan
Calderbank, Robert
Monk, Anton
Kons, Shachar
Rakib, Shlomo
Hebron, Yoav
Signal Processing
Information Theory
Across the world, there is growing interest in new waveforms, Zak-OTFS in particular, and over-the-air implementations are starting to appear. The choice between OFDM and Zak-OTFS is not so much a choice between waveforms as it is an architectural choice between preventing inter-carrier interference (ICI) and embracing ICI. In OFDM, once the Input-Output (I/O) relation is known, equalization is relatively simple, at least when there is no ICI. However, in the presence of ICI the I/O relation is non-predictable and its acquisition is non-trivial. In contrast, equalization is more involved in Zak-OTFS due to inter-symbol-interference (ISI), however the I/O relation is predictable and its acquisition is simple. {Zak-OTFS exhibits superior performance in doubly-spread 6G use cases with high delay/Doppler channel spreads (i.e., high mobility and/or large cells), but architectural choice is governed by the typical use case, today and in the future. What is typical depends to some degree on geography, since large delay spread is a characteristic of large cells which are the rule rather than the exception in many important wireless markets.} This paper provides a comprehensive performance comparison of cyclic prefix OFDM (CP-OFDM) and Zak-OTFS across the full range of 6G propagation environments. The performance results provide insights into the fundamental architectural choice.
title Does 6G Need a New Waveform: Comparing Zak-OTFS with CP-OFDM
topic Signal Processing
Information Theory
url https://arxiv.org/abs/2601.15602