LIST OF TABLES
| P.0.1 | Conferences and Workshops on Spectral Techniques, 1970–1999. |
| P.0.2 | Conferences and Workshops on Spectral Techniques, 2000–2006. |
| P.0.3 | Special Issues of Journals Devoted to Spectral Techniques. |
| 1.2.1 | Binary-Valued Input Functions of Three Variables. |
| 1.2.2 | Multiple-Valued Input Functions of Two Ternary Variables. |
| 1.2.3 | Binary-Valued Input Two-Output Functions. |
| 1.2.4 | Multiple-Valued Input Two-Output Functions, with p = 2 for z0 and p = 3 for z1. |
| 1.2.5 | Logic Function in Example 1.2.2. |
| 1.2.6 | Step Function for the System of Logic Functions in Example 1.2.2. |
| 1.3.1 | Logic Operations. |
| 1.3.2 | Characteristic Functions for p = 3, n = 2. |
| 1.5.1 | The Properties of the Reed–Muller Transform Considered as a Transform in the Boolean Algebra (B, ∨,∧, –, 0, 1). |
| 1.7.1 | Assignment of Decomposition Rules and the Coefficients in Kronecker Expressions for f in Example 1.6.1 |
| 2.3.1 | Different Orderings of Walsh Functions Represented as Products of the Rademacher Functions, m = 3. |
| 2.5.1 | Vilenkin–Chrestenson Functions for p = 3, m = 2. |
| 2.5.2 | Generalized Rademacher Functions for p = 3, m = 2. |
| 2.5.3 | Function in Example 2.5.1 and Its Vilenkin–Chrestenson Spectrum. |
| 2.5.4 | Generalized Haar Functions for p = 3 and m = 2. |
| 2.6.1 | Function f (z) in Example 2.6.1, Its Spectrum in Paley Ordering by Definition 2.3.2, Linearly Transformed Function f (σ  z) and the Spectrum ... |
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