Error control coding for a multi-level HF data transmission modem

Salloum, K. A.

January 1983

No description available.

621.3822

Information theory & coding theory

Maximum-likelihood sequential decoding of convolutional error-correcting codes

Winfield, A. F. T.

January 1984

No description available.

621.3822

Information theory & coding theory

Complementary sequences and their application in multi-functional communications system architectures

Kemp, Andrew Harold

January 1991

No description available.

621.3822

Information theory & coding theory

Microwave I.F signal processing strategies for coherent optical communications

Chaudhry, Mohammed Sabih

January 1993

No description available.

621.3822

Information theory & coding theory

Developments in signal processing for computerised diagnosis in clinical neurophysiology

Saatchi, Mohammad Reza

January 1992

The aim of this study was to apply signal processing techniques to a potential known as the contingent negative variation (CNV) in order to aid detection of schizophrenia, Parkinson's disease (PO) and Huntington's Disease (lID). A data recording system was constructed and used to obtain data from 20 schizophrenic patients, 16 PO patients, 21 -at-risk- of HD patients, 11 HD patients and 43 normal control subjects. The data included the CNV, electro-oculograms (required for the preprocessing of the CNV) and the subjects reaction times to an acoustic stimulus. The CNV waveforms were initially preprocessed. This reduced the effects of background electroencephalogram and ocular artefact potentials. The CNV waveforms were then processed using a method which involved the discrete Fourier transform (OFf) and discriminant analysis. This method developed from the work of Martin Nichols and Michael Coelho. It was possible to successfully identify the majority of the patients using this method. In order to reduce the complexity of patients' Identification a different method of CNV signal processing was considered. This involved obtaining the CNV features in the time domain and using them in neural networks. This method was as effective as the method which used OFf and discriminant analysis in identifying the patients. To establish whether HO could presymptomatically be detected in the at-risk of HD group, the CNV was analysed using principal component analysis (PCA) and Ward's clustering method. This resulted in identification of 7 patients who were suggested would develop HO. The subjects' reaction times were also analysed. This indicated that the reaction times of schizophrenic, PO, HO and some at-risk of HD patients were significantly different from the reaction times of their normal control subjects.

621.3822

Information theory & coding theory

Interpreting systemic grammar as a computational representation : a problem solving approach to text generation

Patten, Terry A.

January 1986

No description available.

621.3822

Information theory & coding theory

Statistical databases within a relational framework

Herath, H. M. A. C.

January 1994

No description available.

621.3822

Information theory & coding theory

Optimisation studies in a Prolog object-oriented database

Jiao, Zhuoan

January 1992

This thesis is about query optimisation studies in a Prolog object-oriented database (P/FDM). Although many of the query optimisation techniques used in relational database systems can be adapted to solve problems in query optimisation for object-oriented databases (OODBs), there are also many problems that are unique to the OODBs, and new techniques need to be developed. Techniques developed for optimising queries in OODB systems can be categorised into three distinct approaches, namely, <i>algebraic transformation, type-based transformation</i>, and <i>method optimisation</i>. However, few OODB systems have used the combination of all three techniques in the design of their query optimisers. We have adopted an unified approach by combining them into the optimisation strategy of a query optimiser for P/FDM. The overall architecture of the P/FDM query optimiser is based on the <i>top-down</i> framework. The source language of the query optimiser is an extension of Shipman's original <i>DAPLEX</i> language. We choose <i>ZF notation</i>, based on set comprehensions in Zermelo-Frankel (ZF) set theory, to represent the intermediate forms of DAPLEX queries. The target language of optimiser is a set of P/FDM primitives which are implemented in Prolog. We have taken the approach of asking the database to reveal the definitions of methods to the optimiser as privileged code. Most OODB systems do not perform method optimisation because of the difficulties caused by defining methods in a procedural programming language. We have been greatly helped by using a functional programming approach which holds methods in a declarative form, and thus makes it much easier to combine and transform them. Heuristics are incorporated into the query optimisation strategy to avoid exhaustive search, so that the optimiser is able to produce efficient query evaluation plans within satisfactory response times.

621.3822

Information theory & coding theory

A code division multiple spread spectrum local area network

Mattingley-Scott, Mark Alistair

January 1989

No description available.

621.3822

Information theory & coding theory

Investigation into digital audio equaliser systems and the effects of arithmetic and transform errors on performance

Clark, Robin John

January 2001

Discrete-time audio equalisers introduce a variety of undesirable artefacts into audio mixing systems, namely, distortions caused by finite wordlength constraints, frequency response distortion due to coefficient calculation and signal disturbances that arise from real-time coefficient update. An understanding of these artefacts is important in the design of computationally affordable, good quality equalisers. A detailed investigation into these artefacts using various forms of arithmetic, filter frequency response, input excitation and sampling frequencies is described in this thesis. Novel coefficient calculation techniques, based on the matched z-transform (MZT) were developed to minimise filter response distortion and computation for on-line implementation. It was found that MZT-based filter responses can approximate more closely to s-plane filters, than BZTbased filters, with an affordable increase in computation load. Frequency response distortions and prewarping/correction schemes at higher sampling frequencies (96 and 192 kHz) were also assessed. An environment for emulating fractional quantisation in fixed and floating point arithmetic was developed. Various key filter topologies were emulated in fixed and floating point arithmetic using various input stimuli and frequency responses. The work provides detailed objective information and an understanding of the behaviour of key topologies in fixed and floating point arithmetic and the effects of input excitation and sampling frequency. Signal disturbance behaviour in key filter topologies during coefficient update was investigated through the implementation of various coefficient update scenarios. Input stimuli and specific frequency response changes that produce worst-case disturbances were identified, providing an analytical understanding of disturbance behaviour in various topologies. Existing parameter and coefficient interpolation algorithms were implemented and assessed under fihite wordlength arithmetic. The disturbance behaviour of various topologies at higher sampling frequencies was examined. The work contributes to the understanding of artefacts in audio equaliser implementation. The study of artefacts at the sampling frequencies of 48,96 and 192 kHz has implications in the assessment of equaliser performance at higher sampling frequencies.

621.3822

Information theory & coding theory