Abstract
In this chapter, various equivalent definitions of modulation spaces are presented along with their fundamental properties.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Balan, R., Christensen, J., Krishtal, I., Okoudjou, K.A., Romero, J.-L.: Multi-window Gabor frames in amalgam spaces. Math. Res. Lett. 21(1), 1–15 (2014)
Bennett, C., Sharpley, R.: Interpolation of operators. In: Pure and Applied Mathematics, vol. 129. Academic, Boston (1988)
Bényi, Á., Oh, T.: Modulation spaces, Wiener amalgam spaces, and Brownian motions. Adv. Math. 228(5), 2943–2981 (2011)
Bertrandias, J.-P., Datry, C., Dupuis, C.: Unions et intersections d’espaces L p invariantes par translation ou convolution. Ann. Inst. Fourier (Grenoble) 28(2), 53–84 (1978)
Beurling, A., Helson, H.: Fourier-Stieltjes transform with bounded powers. Math. Scand. 1, 12–126 (1953)
Boulkhemair, A.: Remarks on a Wiener type pseudodifferential algebra and Fourier integral operators. Math. Res. Lett. 4, 53–67 (1997)
Christensen, O.: An introduction to frames and Riesz bases. In: Applied and Numerical Harmonic Analysis. Birkäuser, Boston (2003)
Cordero, E., Feichtinger, H., Luef, F.: Banach Gelfand triples for Gabor analysis. In: Pseudo-Differential Operators. Lecture Notes in Mathematics, vol. 1949, pp. 1–33. Springer, Berlin (2008)
Daubechies, I.: Time-frequency localization operators: a geometric phase approach. IEEE Trans. Inform. Theory 34(4), 605–612 (1988)
Daubechies, I., Grossmann, A., Meyer, Y.: Painless nonorthogonal expansions. J. Math. Phys. 27(5), 1271–1283 (1986)
Feichtinger, H.G.: On a new Segal algebra. Monatsh. Math. 92(4), 269–289 (1981)
Feichtinger, H.G.: Modulation spaces on locally compact abelian groups. In: Radha, R., Krishna, M., Thangavelu, S. (eds.) Proceeding of International Conference on Wavelets and Applications (Chennai, 2002), pp. 1–56. New Delhi Allied, New Delhi (2003). Technical report, University of Vienna (1983)
Feichtinger, H.G.: Generalized amalgams, with applications to Fourier transform. Can. J. Math. 42(3), 395–409 (1990)
Feichtinger, H.G.: Modulation spaces: looking back and ahead. Sampl. Theory Signal Image Process. 5(2), 109–140 (2006)
Feichtinger, H.G.: Choosing function spaces in harmonic analysis. In: Excursions in Harmonic Analysis. Applied and Numerical Harmonic Analysis, vol. 4, pp. 65–101. Birkhäuser/Springer, Cham (2015)
Feichtinger, H.G.: Thoughts on numerical and conceptual harmonic analysis. In: New Trends in Applied Harmonic Analysis. Applied and Numerical Harmonic Analysis, pp. 301–329. Birkhäuser/Springer, Berlin (2016)
Feichtinger, H.G., Gröchenig, K.: A unified approach to atomic decompositions via integrable group representations. In: Function Spaces and Applications (Lund, 1986). Lecture Notes in Mathematics, vol. 1302, pp. 52–73. Springer, Berlin (1988)
Feichtinger, H.G., Gröchenig, K.: Banach spaces related to integrable group representations and their atomic decompositions, I. J. Funct. Anal. 86(2), 307–340 (1989)
Feichtinger, H.G., Gröchenig, K.: Gabor frames and time-frequency analysis of distributions. J. Funct. Anal. 146(2), 464–495 (1997)
Feichtinger, H.G., Strohmer, T.: Gabor analysis and algorithms. In: Applied and Numerical Harmonic Analysis. Birkhäuser, Boston (1998)
Feichtinger, H.G., Strohmer, T.: Advances in Gabor analysis. In: Applied and Numerical Harmonic Analysis. Birkhäuser, Boston (2003)
Feichtinger, H.G., Zimmermann, G.: A Banach space of test functions for Gabor analysis. In: Gabor Analysis and Algorithms, pp. 123–170. Birkhäuser, Boston (1998)
Gabor, D.: Theory of communication. J. IEE Lond. 93, 429–457 (1946)
Grafakos, L.: Classical Fourier Analysis, 2nd edn. Graduate Texts in Mathematics, vol. 249. Springer, New York (2008)
Grafakos, L.: Modern Fourier Analysis, 2nd edn. Graduate Texts in Mathematics, vol. 250. Springer, New York (2009)
Gröchenig, K.: Foundations of Time-Frequency Analysis. Birkhäuser, Boston (2001)
Gröchenig, K., Heil, C.: Gabor meets Littlewood-Paley: Gabor expansions in \(L^{p}(\mathbb {R}^{d})\). Studia Math. 146, 115–33 (2001)
Gröchenig, K., Leinert, M.: Wiener’s lemma for twisted convolution and Gabor frames. J. Am. Math. Soc. 17(1), 1–18 (2004)
Gröchenig, K., Heil, C., Okoudjou, K.A.: Gabor analysis in weighted amalgam spaces. Sampl. Theory Signal Image Process. 1(3), 225–259 (2002)
Guo, B., Wang, B.X., Zhao, L.: Isometric decomposition operators, function spaces \(E^\lambda _{p, q}\) and applications to nonlinear evolution equations. J. Funct. Anal. 233, 1–39 (2006)
Heil, C., Walnut, D.: Continuous and discrete wavelet transforms. SIAM Rev. 31(4), 628–666 (1989)
Heil, C., Ramanathan, J., Topiwala, P.: Linear independence of time-frequency translates. Proc. Am. Math. Soc. 124(9), 2787–2795 (1996)
Hernández, E., Weiss, G.: A First Course on Wavelets. CRC, Boca Raton (1996)
Jakobsen, M.S.: On a (no longer) new Segal algebra—a review of the Feichtinger algebra. J. Fourier Anal. Appl. 24(6), 1579–1660 (2018)
Kobayashi, M.: Modulation spaces M p, q for 0 < p, q ≤∞. J. Funct. Spaces Appl. 4(3), 329–341 (2006)
Krishtal, I., Okoudjou, K.A.: Invertibility of the Gabor frame operator on the Wiener amalgam space. J. Approx. Theory 153(2), 212–214 (2008)
Lebedev, V., Olevskiı̌, A.: C 1 changes of variable: Beurling-Helson type theorem and Hörmander conjecture on Fourier multipliers. Geom. Funct. Anal. 4(2), 213–235 (1994)
Okoudjou, K.A.: A Beurling-Helson type theorem for modulation spaces. J. Funct. Spaces Appl. 7(1), 33–41 (2009)
Okoudjou, K.A.: An invitation to Gabor analysis. Notices Am. Math. Soc. 66(6), 808–819 (2019)
Rauhut, H.: Coorbit space theory for quasi-Banach spaces. Studia Math. 180(3), 237–253 (2007)
Ron, A., Shen, Z.: Weyl-Heisenberg frames and Riesz bases in \(L_2(\mathbb {R}^d)\). Duke Math. J. 89(2), 237–282 (1997)
Runst, T., Sickel, W.: Sobolev spaces of fractional order, Nemytskij operators, and nonlinear partial differential equations. In: de Gruyter Series in Nonlinear Analysis and Applications, vol. 3, Walter de Gruyter, Berlin (1996)
Ruzhansky, M., Sugimoto, M., Toft, J., Tomita, N.: Changes of variables in modulation and Wiener amalgam spaces. Math. Nachr. 284(16), 2078–2092 (2011)
Self, W.M.: Some consequences of the Beurling-Helson theorem. Rocky Mountain J. Math. 6, 177–180 (1976)
Sjöstrand, J.: An algebra of pseudodifferential operators. Math. Res. Lett. 1(2), 185–192 (1994)
Sugimoto, M., Tomita, N.: The dilation property of modulation spaces and their inclusion relation with Besov spaces. J. Funct. Anal. 248(1), 79–106 (2007)
Toft, J.: Continuity properties for modulation spaces, with applications to pseudo-differential calculus, I. J. Funct. Anal. 207, 399–429 (2004)
Walnut, D.F.: Continuity properties of the Gabor frame operator. J. Math. Anal. Appl. 165(2), 479–504 (1992)
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Science+Business Media, LLC, part of Springer Nature
About this chapter
Cite this chapter
Bényi, Á., Okoudjou, K.A. (2020). Modulation Spaces. In: Modulation Spaces. Applied and Numerical Harmonic Analysis. Birkhäuser, New York, NY. https://doi.org/10.1007/978-1-0716-0332-1_2
Download citation
DOI: https://doi.org/10.1007/978-1-0716-0332-1_2
Published:
Publisher Name: Birkhäuser, New York, NY
Print ISBN: 978-1-0716-0330-7
Online ISBN: 978-1-0716-0332-1
eBook Packages: Mathematics and StatisticsMathematics and Statistics (R0)