Jane Bromley scite author profile

This paper describes the development of an algorithm for verification of signatures written on a touch-sensitive pad. The signature verification algorithm is based on an artificial neural network. The novel network presented here, called a “Siamese” time delay neural network, consists of two identical networks joined at their output. During training the network learns to measure the similarity between pairs of signatures. When used for verification, only one half of the Siamese network is evaluated. The output of this half network is the feature vector for the input signature. Verification consists of comparing this feature vector with a stored feature vector for the signer. Signatures closer than a chosen threshold to this stored representation are accepted, all other signatures are rejected as forgeries. System performance is illustrated with experiments performed in the laboratory.

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High-redshift quasars and the supermassive black hole mass budget: constraints on quasar formation models

Bromley

Somerville

Fabian

2004

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We investigate the constraints on models of supermassive black hole (SMBH) and quasar formation obtainable from two recent observational developments: the discovery of luminous quasars at z∼ 6, and estimates of the local mass density of SMBHs. If ∼90 per cent of this mass was accreted at redshifts z≲ 3, as suggested by the observed quasar luminosity functions, these joint constraints pose a challenge for models, which must account for the observed luminous quasar population at z∼ 6 within a very limited ‘mass budget’. We investigate a class of models based within the hierarchical structure formation scenario, in which major mergers lead to black hole formation and fuelling, and the resulting quasars shine at their Eddington‐limited rate until their fuel is exhausted. We show that the simplest such model, in which a constant fraction of the gas within the halo is accreted in each major merger, cannot satisfy both constraints simultaneously. When this model is normalized to reproduce the number density of luminous quasars at z∼ 6, the mass budget is grossly exceeded owing to an overabundance of lower‐mass SMBHs. We explore a range of modifications to the simple model designed to overcome this problem. We show that both constraints can be satisfied if the gas accretion fraction scales as a function of the halo virial velocity. Similar scalings have been proposed in order to reproduce the local M•–σ relation. Successful models can also be constructed by restricting the formation of seed black holes to redshifts above zcrit∼ 11.5 or to haloes above a velocity threshold vcrit∼ 55 km s−1, or assuming that only a fraction of major mergers result in formation of a seed SMBH. We also briefly discuss the issue of trying to assume a ‘universal M•–σ relation’ within the framework of simple Press–Schechter models, and further show that a fixed universal relation between SMBH mass and host halo mass is unlikely.

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An analog neural network processor with programmable topology

Boser

Sackinger

Bromley

et al. 1991

IEEE J. Solid-State Circuits

135

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Jane Bromley

Signature Verification Using a “Siamese” Time Delay Neural Network

Signature Verification Using a “Siamese” Time Delay Neural Network

High-redshift quasars and the supermassive black hole mass budget: constraints on quasar formation models

An analog neural network processor with programmable topology

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