SOFTWARE ARCHITECTURE OF REAL-TIME MEDICAL INSTRUMENTS.

Z. Papp, B. Bago, T. Dobrowiecki, G. Peceli

Research output: Chapter in Book/Report/Conference proceedingConference contribution

1 Citation (Scopus)

Abstract

The impact of inexpensive and flexible microprocessors in the field of instrumentation is twofold. On the one hand, there are totally new types of instruments, superior performance, versatile operating features, and user-friendly operator interfaces, and on the other hand, rather new and complex development procedures. For a large family of instruments this latter means mostly software development. The design of software, however, requires the complete knowledge of the time-dependencies and the concurrencies to be handled. The authors present an approach that supports software development by appropriate decomposition of the design problem. To increase efficiency only a given class of medical instrumentation problems is considered where similarities of the requirements make possible the formation of an 'architecture' that is utilizable somewhat independently of the actual measurement task to be solved.

Original languageEnglish
Title of host publicationIEEE/Engineering in Medicine and Biology Society Annual Conference
EditorsJames C. Lin, Barry N. Feinberg
PublisherIEEE
Pages1137-1142
Number of pages6
Publication statusPublished - 1985

Fingerprint

Software architecture
Software engineering
Microprocessor chips
Decomposition

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Papp, Z., Bago, B., Dobrowiecki, T., & Peceli, G. (1985). SOFTWARE ARCHITECTURE OF REAL-TIME MEDICAL INSTRUMENTS. In J. C. Lin, & B. N. Feinberg (Eds.), IEEE/Engineering in Medicine and Biology Society Annual Conference (pp. 1137-1142). IEEE.

SOFTWARE ARCHITECTURE OF REAL-TIME MEDICAL INSTRUMENTS. / Papp, Z.; Bago, B.; Dobrowiecki, T.; Peceli, G.

IEEE/Engineering in Medicine and Biology Society Annual Conference. ed. / James C. Lin; Barry N. Feinberg. IEEE, 1985. p. 1137-1142.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Papp, Z, Bago, B, Dobrowiecki, T & Peceli, G 1985, SOFTWARE ARCHITECTURE OF REAL-TIME MEDICAL INSTRUMENTS. in JC Lin & BN Feinberg (eds), IEEE/Engineering in Medicine and Biology Society Annual Conference. IEEE, pp. 1137-1142.
Papp Z, Bago B, Dobrowiecki T, Peceli G. SOFTWARE ARCHITECTURE OF REAL-TIME MEDICAL INSTRUMENTS. In Lin JC, Feinberg BN, editors, IEEE/Engineering in Medicine and Biology Society Annual Conference. IEEE. 1985. p. 1137-1142
Papp, Z. ; Bago, B. ; Dobrowiecki, T. ; Peceli, G. / SOFTWARE ARCHITECTURE OF REAL-TIME MEDICAL INSTRUMENTS. IEEE/Engineering in Medicine and Biology Society Annual Conference. editor / James C. Lin ; Barry N. Feinberg. IEEE, 1985. pp. 1137-1142
@inproceedings{da878016008647898cc393556954d1d9,
title = "SOFTWARE ARCHITECTURE OF REAL-TIME MEDICAL INSTRUMENTS.",
abstract = "The impact of inexpensive and flexible microprocessors in the field of instrumentation is twofold. On the one hand, there are totally new types of instruments, superior performance, versatile operating features, and user-friendly operator interfaces, and on the other hand, rather new and complex development procedures. For a large family of instruments this latter means mostly software development. The design of software, however, requires the complete knowledge of the time-dependencies and the concurrencies to be handled. The authors present an approach that supports software development by appropriate decomposition of the design problem. To increase efficiency only a given class of medical instrumentation problems is considered where similarities of the requirements make possible the formation of an 'architecture' that is utilizable somewhat independently of the actual measurement task to be solved.",
author = "Z. Papp and B. Bago and T. Dobrowiecki and G. Peceli",
year = "1985",
language = "English",
pages = "1137--1142",
editor = "Lin, {James C.} and Feinberg, {Barry N.}",
booktitle = "IEEE/Engineering in Medicine and Biology Society Annual Conference",
publisher = "IEEE",

}

TY - GEN

T1 - SOFTWARE ARCHITECTURE OF REAL-TIME MEDICAL INSTRUMENTS.

AU - Papp, Z.

AU - Bago, B.

AU - Dobrowiecki, T.

AU - Peceli, G.

PY - 1985

Y1 - 1985

N2 - The impact of inexpensive and flexible microprocessors in the field of instrumentation is twofold. On the one hand, there are totally new types of instruments, superior performance, versatile operating features, and user-friendly operator interfaces, and on the other hand, rather new and complex development procedures. For a large family of instruments this latter means mostly software development. The design of software, however, requires the complete knowledge of the time-dependencies and the concurrencies to be handled. The authors present an approach that supports software development by appropriate decomposition of the design problem. To increase efficiency only a given class of medical instrumentation problems is considered where similarities of the requirements make possible the formation of an 'architecture' that is utilizable somewhat independently of the actual measurement task to be solved.

AB - The impact of inexpensive and flexible microprocessors in the field of instrumentation is twofold. On the one hand, there are totally new types of instruments, superior performance, versatile operating features, and user-friendly operator interfaces, and on the other hand, rather new and complex development procedures. For a large family of instruments this latter means mostly software development. The design of software, however, requires the complete knowledge of the time-dependencies and the concurrencies to be handled. The authors present an approach that supports software development by appropriate decomposition of the design problem. To increase efficiency only a given class of medical instrumentation problems is considered where similarities of the requirements make possible the formation of an 'architecture' that is utilizable somewhat independently of the actual measurement task to be solved.

UR - http://www.scopus.com/inward/record.url?scp=0022285608&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0022285608&partnerID=8YFLogxK

M3 - Conference contribution

SP - 1137

EP - 1142

BT - IEEE/Engineering in Medicine and Biology Society Annual Conference

A2 - Lin, James C.

A2 - Feinberg, Barry N.

PB - IEEE

ER -