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Exact SOHS Decompositions of Trigonometric Univariate Polynomials with Gaussian Coefficients

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2022

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Magron, Victor
Safey El Din, Mohab
Vu, Trung Hieu

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https://doi.org/10.1145/3476446.3535480
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European Union (EU): 813211

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MORENO MAZA, Marc, Hrsg., Lihong ZHI, Hrsg.. Proceedings of the 2022 International Symposium on Symbolic and Algebraic Computation. New York, NY: ACM, 2022, S. 325-332. ISBN 978-1-4503-8688-3. Verfügbar unter: doi: 10.1145/3476446.3535480

Zusammenfassung

Certifying the positivity of trigonometric polynomials is of first importance for design problems in discrete-time signal processing. It is well known from the Riesz-Fejér spectral factorization theorem that any trigonometric univariate polynomial non-negative on the unit circle can be decomposed as a Hermitian square with complex coefficients. Here we focus on the case of polynomials with Gaussian integer coefficients, i.e., with real and imaginary parts being integers.

We design, analyze and compare, theoretically and practically, three hybrid numeric-symbolic algorithms computing weighted sums of Hermitian squares decompositions for trigonometric univariate polynomials positive on the unit circle with Gaussian coefficients. The numerical steps the first and second algorithm rely on are complex root isolation and semidefinite programming, respectively. An exact sum of Hermitian squares decomposition is obtained thanks to compensation techniques. The third algorithm, also based on complex semidefinite programming, is an adaptation of the rounding and projection algorithm by Peyrl and Parrilo.

For all three algorithms, we prove bit complexity and output size estimates that are polynomial in the degree of the input and linear in the maximum bitsize of its coefficients. We compare their performance on randomly chosen benchmarks, and further design a certified finite impulse filter.

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510 Mathematik

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ISSAC '22: International Symposium on Symbolic and Algebraic Computation, 4. Juli 2022 - 7. Juli 2022, Villeneuve-d'Ascq France
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ISO 690MAGRON, Victor, Mohab SAFEY EL DIN, Markus SCHWEIGHOFER, Trung Hieu VU, 2022. Exact SOHS Decompositions of Trigonometric Univariate Polynomials with Gaussian Coefficients. ISSAC '22: International Symposium on Symbolic and Algebraic Computation. Villeneuve-d'Ascq France, 4. Juli 2022 - 7. Juli 2022. In: MORENO MAZA, Marc, Hrsg., Lihong ZHI, Hrsg.. Proceedings of the 2022 International Symposium on Symbolic and Algebraic Computation. New York, NY: ACM, 2022, S. 325-332. ISBN 978-1-4503-8688-3. Verfügbar unter: doi: 10.1145/3476446.3535480
BibTex
@inproceedings{Magron2022-07-04Exact-75560,
  title={Exact SOHS Decompositions of Trigonometric Univariate Polynomials with Gaussian Coefficients},
  year={2022},
  doi={10.1145/3476446.3535480},
  isbn={978-1-4503-8688-3},
  address={New York, NY},
  publisher={ACM},
  booktitle={Proceedings of the 2022 International Symposium on Symbolic and Algebraic Computation},
  pages={325--332},
  editor={Moreno Maza, Marc and Zhi, Lihong},
  author={Magron, Victor and Safey El Din, Mohab and Schweighofer, Markus and Vu, Trung Hieu}
}
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We design, analyze and compare, theoretically and practically, three hybrid numeric-symbolic algorithms computing weighted sums of Hermitian squares decompositions for trigonometric univariate polynomials positive on the unit circle with Gaussian coefficients. The numerical steps the first and second algorithm rely on are complex root isolation and semidefinite programming, respectively. An exact sum of Hermitian squares decomposition is obtained thanks to compensation techniques. The third algorithm, also based on complex semidefinite programming, is an adaptation of the rounding and projection algorithm by Peyrl and Parrilo.

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