This thesis considers the current requirements for data security in European healthcare systems and
establishments. Information technology is being increasingly used in all areas of healthcare
operation, from administration to direct care delivery, with a resulting dependence upon it by
healthcare staff. Systems routinely store and communicate a wide variety of potentially sensitive
data, much of which may also be critical to patient safety. There is consequently a significant
requirement for protection in many cases.
The thesis presents an assessment of healthcare security requirements at the European level, with a
critical examination of how the issue has been addressed to date in operational systems. It is
recognised that many systems were originally implemented without security needs being properly
addressed, with a consequence that protection is often weak and inconsistent between establishments.
The overall aim of the research has been to determine appropriate means by which security may be
added or enhanced in these cases.
The realisation of this objective has included the development of a common baseline standard for
security in healthcare systems and environments. The underlying guidelines in this approach cover
all of the principal protection issues, from physical and environmental measures to logical system
access controls. Further to this, the work has encompassed the development of a new protection
methodology by which establishments may determine their additional security requirements (by
classifying aspects of their systems, environments and data). Both the guidelines and the
methodology represent work submitted to the Commission of European Communities SEISMED
(Secure Environment for Information Systems in MEDicine) project, with which the research
programme was closely linked.
The thesis also establishes that healthcare systems can present significant targets for both internal
and external abuse, highlighting a requirement for improved logical controls. However, it is also
shown that the issues of easy integration and convenience are of paramount importance if security is
to be accepted and viable in practice. Unfortunately, many traditional methods do not offer these
advantages, necessitating the need for a different approach.
To this end, the conceptual design for a new intrusion monitoring system was developed, combining
the key aspects of authentication and auditing into an advanced framework for real-time user
supervision. A principal feature of the approach is the use of behaviour profiles, against which user
activities may be continuously compared to determine potential system intrusions and anomalous
events.
The effectiveness of real-time monitoring was evaluated in an experimental study of keystroke
analysis -a behavioural biometric technique that allows an assessment of user identity from their
typing style. This technique was found to have significant potential for discriminating between
impostors and legitimate users and was subsequently incorporated into a fully functional security
system, which demonstrated further aspects of the conceptual design and showed how transparent
supervision could be realised in practice.
The thesis also examines how the intrusion monitoring concept may be integrated into a wider
security architecture, allowing more comprehensive protection within both the local healthcare
establishment and between remote domains.
Date of Award | 1995 |
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Original language | English |
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Awarding Institution | |
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Supervisor | Peter Sanders (Other Supervisor) |
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- Computer Software
- Medical Care Computer Software
- Healthcare Information Systems
- Data Security
- Information Technology
Data security in European healthcare information systems
Furnell, S. (Author). 1995
Student thesis: PhD