Skip to the main content

Preliminary communication

https://doi.org/10.32985/ijeces.10.2.5

Space-Time Code Design Using Quaternions, Octonions and Other Non-Associative Structures

Garima Srivastava orcid id orcid.org/0000-0002-5948-0729 ; AIACTR, Geeta ColonyDepartment of Electronics and Communication
Rashmi Gupta ; AIACTR, Geeta ColonyDepartment of Electronics and Communication
Raghvendra Kumar ; LNCT College, JabalpurDepartment of Computer Science and Engineering
Dac-Nhuong Le ; Haiphong UniversityFaculty of Information Technology


Full text: english pdf 668 Kb

page 91-95

downloads: 527

cite


Abstract

There are several non-associative finite dimensional division algebras over different number fields. Their representations in the corresponding matrix algebras preserve additive structure. However, the embedding does not preserve multiplication as matrix multiplication is associative. As such, it gives a generalized matrix representation. Indeed, a non-associative structure provides different platforms for more effective and useful space-time coding satisfying rank criteria, and coding gain criteria for multiple antenna wireless communication. Associative division algebras have dimension restrictions, whereas non-associative division algebras over suitable fields exist in infinitely many dimensions. We illustrate the above program by using octonion algebras.

Keywords

multiple antenna wireless communication; unitary space-time modulation; group codes; octonion constellations

Hrčak ID:

234714

URI

https://hrcak.srce.hr/234714

Publication date:

15.1.2020.

Visits: 1.274 *