Exploring new media applications for rare earth-transition metal magneto-optic recording films

Spencer, A.

January 1996

No description available.

621.38833

Recording equipment

Computer aided modelling of digital magnetic recording systems

Loze, M. K.

January 1987

No description available.

621.38833

Recording equipment

A multi-feature detection system for digital magnetic recording

Georgi, Richard H.

January 1992

No description available.

621.38833

Recording equipment

Methods for improving quality of block based compressed still and video images

Izmirliev, Antoan

January 2000

No description available.

621.38833

Recording equipment

Electron beam tomography of recording head fields

Liu, Yan

January 1996

No description available.

621.38833

Recording equipment

Micromagnetic and structural studies of CoPtCr longitudinal recording media

Neville, Richard John

January 1996

No description available.

621.38833

Recording equipment

Multiple track performance of a digital magnetic tape system : experimental study and simulation using parallel processing techniques

Jackson, Timothy John

January 1991

The primary aim of the magnetic recording industry is to increase storage capacities and transfer rates whilst maintaining or reducing costs. In multiple-track tape systems, as recorded track dimensions decrease, higher precision tape transport mechanisms and dedicated coding circuitry are required. This leads to increased manufacturing costs and a loss of flexibility. This thesis reports on the performance of a low precision low-cost multiple-track tape transport system. Software based techniques to study system performance, and to compensate for the mechanical deficiencies of this system were developed using occam and the transputer. The inherent parallelism of the multiple-track format was exploited by integrating a transputer into the recording channel to perform the signal processing tasks. An innovative model of the recording channel, written exclusively in occam, was developed. The effect of parameters, such as data rate, track dimensions and head misregistration on system performance was determined from the detailed error profile produced. This model may be run on a network of transputers, allowing its speed of execution to be scaled to suit the investigation. These features, combined with its modular flexibility makes it a powerful tool that may be applied to other multiple-track systems, such as digital HDTV. A greater understanding of the effects of mechanical deficiencies on the performance of multiple-track systems was gained from this study. This led to the development of a software based compensation scheme to reduce the effects of Lateral Head Displacement and allow low-cost tape transport mechanisms to be used with narrow, closely spaced tracks, facilitating higher packing densities. The experimental and simulated investigation of system performance, the development of the model and compensation scheme using parallel processing techniques has led to the publication of a paper and two further publications are expected.

621.38833

Recording equipment

Perpendicular magnetic recording

Wright, C. D.

January 1984

No description available.

621.38833

Recording equipment

MPEG-II video coding for noisy channels

Swann, Robert

January 1997

No description available.

621.38833

Recording equipment

Záznamového zařízení pro oblast civilního letectví / Data storage system for area of civil aviation

Kotulič, Dominik

January 2018

In the thesis the design of the Data Storage System (DSS) is proposed with the respect to the V-Model methodology. The design is based on users requirements, from which the system requirements are created and the technical specification of the DSS is developed. In the technical specifications the functionality of the DMM and HMI DSS subsystems are described and sub-system requirements are assigned to them, then they are subdivided and assigned to individual DMM (Data memory module) and HMI hardware items. Moreover, requirements are analyzed on hardware items, specific electronic components, are selected and implemented into the block design of the DMM hardware. Based on the block design of hardware, the hardware of the DMM subsystem is designed, selectively simulated and implemented along with the printed circuit board. On the implemented hardware of the DMM subsystems measurements are performed in order to verify the basic functionality of the hardware and the calculated, assimilated and measured values are compared as well. At the end of the thesis there is a short description of the implementation of the software design and its use for basic initialization of the selected processor, together with the verification of its basic function - measuring the frequency of the internal clock sources and the clock domains. The work is completed by sending a message of defined parameters to the selected communication line and sapling it by an oscilloscope, so that the basic function of the DMM subsystem is verified.