A.G.J. Holt scite author profile

The multiterminal-gyrator concept is introduced as an extension of the well known 2-port device. In general, it is treated as having n input and m output terminals plus a reference or earthed terminal, common to both input and output. The (n + m + l)-terminal device is therefore mathematically described using an (n + mailorder admittance matrix. Both the mathematical characterisation and impedance-inverting properties of the multigyrator are shown to be directly analogous to those of its 2-port counterpart. An active realisation of the generalised multigyrator is proposed which uses unity-gain voltage and ± unity-gain current amplifiers. The method is quite general and uses « + mof each type of amplifier, a pair of amplifiers being connected to each of the n + m terminals. The actual gyrator transconductances are defined by an interconnecting network of resistors. The use of multigyrator capacitor networks to simulate inductor networks is shown to be possible and synthesis examples are given. Finally, the results of two experimental multigyrator filters are given.

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Number Theoretic Transforms and their Applications in Image Processing

Boussakta

Holt

1999

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New number theoretic transform

Boussakta

Holt

1992

Electron. Lett. (UK)

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A.G.J. Holt

Fast algorithm for calculation of both Walsh-Hadamard and Fourier transforms (FWFTs)

New transform using the Mersenne numbers

Multiterminal gyrator

Number Theoretic Transforms and their Applications in Image Processing

New number theoretic transform

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