Topic
Parseval's theorem
About: Parseval's theorem is a research topic. Over the lifetime, 1716 publications have been published within this topic receiving 28571 citations.
Papers published on a yearly basis
1 / 3
Papers
IBM1
TL;DR: An indexing method for time sequences for processing similarity queries using R * -trees to index the sequences and efficiently answer similarity queries and provides experimental results which show that the method is superior to search based on sequential scanning.
Abstract: We propose an indexing method for time sequences for processing similarity queries. We use the Discrete Fourier Transform (DFT) to map time sequences to the frequency domain, the crucial observation being that, for most sequences of practical interest, only the first few frequencies are strong. Another important observation is Parseval's theorem, which specifies that the Fourier transform preserves the Euclidean distance in the time or frequency domain. Having thus mapped sequences to a lower-dimensionality space by using only the first few Fourier coefficients, we use R * -trees to index the sequences and efficiently answer similarity queries. We provide experimental results which show that our method is superior to search based on sequential scanning. Our experiments show that a few coefficients (1–3) are adequate to provide good performance. The performance gain of our method increases with the number and length of sequences.
2,259 citations
Book•
1 Jan 1933
TL;DR: The General Tauberian Theorem (GHT) as mentioned in this paper is a special Tauberians theorem which is based on the Plancherel's Theorem and the Special Tauberia Theorem.
Abstract: 1. Plancherel's Theorem 2. The General Tauberian Theorem 3. Special Tauberian Theorums 4. Generalized Harmonic Analysis.
852 citations
TL;DR: In this paper, the authors construct new classes of Parseval frames for a Hilbert space which allow signal reconstruction from the absolute value of the frame coefficients without using phase or its estimation.
744 citations
TL;DR: In this paper, Stein showed that the operator given by convolution with *3$ is bounded from LP to LP for p in the appropriate range for conjugate indices p and p.
Abstract: Jl/(0)ld0 = ƒƒ* f(x)fà(x)dx = fmdè*f(x)dx<\\\\f\\\\p\\\\âd *f\\\\p, for conjugate indices p and p . Thus it suffices to prove that the operator given by convolution with *3$ is bounded from LP to LP for p in the appropriate range. Let K(x) be a radial Schwartz function with K(x) = 1 for \\x\\ < 100, and let Tk(x) = [K(x/2 ) -K(xl2-)] $)(*). It suffices to show there exists e = e(p) > 0 such that \\\\Tk * ƒ \\\\p, < C2~ || ƒ ||p. This follows from interpolating the estimates \\\\Tk * ƒ IL < C2\"~>*/|| f\\\\x and ||rfc *f\\\\2 < 2\\\\f\\\\2. Professor E. M. Stein has extended the range of this result to include p = 2(n + l)/(n + 3). His proof uses complex interpolation of the operators given by convolution with the functions Ba(x) = J0(27t\\x\\)/\\x\\°. Then
565 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2025 | 10 |
| 2024 | 16 |
| 2023 | 45 |
| 2022 | 94 |
| 2021 | 31 |
| 2020 | 48 |