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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Design and construction of electronic control unit

Hansson, Johan, Bothén, Christian January 2018 (has links)
The main objective of this project was to create a new, future-proofed, electroniccontrol unit for a test station at GE Healthcare in Uppsala. The control unit was tobe created in cooperation with the technical consultant firm Rejlers. The project consisted of two parts, one investigation part and one design part. The investigation part consisted of examining the previous control unit and its connection between the quality control station and the host computer. This examination resulted in a specification of requirements which was used as a basis in the design of the new control unit. The design part consisted of finding durable and reliable components that met the specification of requirements. During the design process the work was documented and compiled in a technical documentation for the control unit. The project resulted in a new control unit that was improved by using a programmable logic controller that was directly compatible with LabVIEW, moving external power supplies inside the control unit to limit the number of cables and adding cartridge fuses for safety. It also resulted in a full technical documentationof the unit, facilitating future maintenance. The new control unit was considered to be future-proofed, but in order to consider the entire test station future-proofed the quality control station would have needed to be replaced as well. At the time this report was written, the new electronic control unit had been designed and was under construction.
2

Utveckling av en arketypeditor : Ett verktyg för modellering av struktur i elektroniska patientjournaler / Development of an archetype editor : A tool for modelling structure in electronic health records

Forss, Mattias, Hjalmarsson, Johan January 2006 (has links)
<p>Dagens elektroniska patientjournalsystem har begränsade möjligheter att på likartat sätt strukturera och lagra patientinformation. Det är en anledning till att det är problem med att utbyta patientjournaldata mellan olika system. Detta försvårar bland annat forskning och tillgänglighet till patientinformation. Brist på tillgänglighet minskar i sin tur möjligheten att ge en god vård oberoende av var patienten befinner sig.</p><p>Inom projektet openEHR har en idé med så kallade arketyper tagits fram som ett enhetligt sätt att strukturera utbytbar patientjournaldata för att möta framtida krav på patientjournaler och patientjournalsystem. Arketyper är formella modeller av kliniska informationsentiteter, exempelvis blodtryck. De byggs upp av restriktioner, struktur och termer med eventuella bindningar till medicinska terminologisystem. Dessutom kopplas medicinsk kunskap i arketyperna fri från journalsystemen.</p><p>Syftet med examensarbetet har varit att utveckla ett verktyg, en så kallad arketypeditor, som kan användas för att skapa och redigera arketyper. Utöver detta skulle möjligheterna undersökas att i verktyget implementera en koppling till medicinska terminologisystem. Utvecklingen har skett i en iterativ process med fokus på användbarhet och stabilitet. Det har även ingått att ta reda på syftet med en arketypeditor.</p><p>Resultatet är ett plattformsoberoende och stabilt verktyg som är utvecklat enligt användbarhetsprinciper med koppling till terminologisystemet Unified Medical Language System (UMLS). En arketypeditors syfte i ett bredare perspektiv är att lösa brister i dagens medicinska informationssystem som tas upp i denna rapport. Trots att openEHR-projektet är nytt finns det många tekniskt gångbara idéer, men det finns även problem som beror på för lite praktisk testning och tillämpning.</p> / <p>Present-day electronic health record systems have limited possibilities to structure and store patient information in a similarly manner. This causes problems with exchanging patient record data between different systems and it gives rise to problems with, among other things, research and patient information availability. Lack of availability will in turn decrease the possibility of giving good care irrespective of where the patient is located.</p><p>Within the openEHR project an idea with so called archetypes has been introduced as a uniform way to structure exchangeable patient record data in order to meet future requirements on electronic health records and systems. Archetypes are formal models of clinical information entities, for example blood pressure. They are constructed from constraints, structure and terms which may have bindings to medical terminology systems. Furthermore, medical knowledge in the archetypes is separated from the patient record systems.</p><p>The purpose of the thesis has been to develop a tool, a so called archetype editor, that can be used to create and edit archetypes. In addition, the possibilities of implementing a connection to medical terminology systems should be explored. The development has followed an iterative process with focus on stability and usability. Another task has also been to find out the purpose with an archetype editor.</p><p>The result is a platform-independent and stable tool, developed according to usability principles with a connection to the terminology system Unified Medical Language System (UMLS). An archetype editor’s purpose in a wider perspective is to solve shortcomings in medical information systems of today, which are brought up in this thesis. Although the openEHR project is new, there are many technically applicable ideas but also problems because of insufficient practical testing and application.</p>
3

Utveckling av en arketypeditor : Ett verktyg för modellering av struktur i elektroniska patientjournaler / Development of an archetype editor : A tool for modelling structure in electronic health records

Forss, Mattias, Hjalmarsson, Johan January 2006 (has links)
Dagens elektroniska patientjournalsystem har begränsade möjligheter att på likartat sätt strukturera och lagra patientinformation. Det är en anledning till att det är problem med att utbyta patientjournaldata mellan olika system. Detta försvårar bland annat forskning och tillgänglighet till patientinformation. Brist på tillgänglighet minskar i sin tur möjligheten att ge en god vård oberoende av var patienten befinner sig. Inom projektet openEHR har en idé med så kallade arketyper tagits fram som ett enhetligt sätt att strukturera utbytbar patientjournaldata för att möta framtida krav på patientjournaler och patientjournalsystem. Arketyper är formella modeller av kliniska informationsentiteter, exempelvis blodtryck. De byggs upp av restriktioner, struktur och termer med eventuella bindningar till medicinska terminologisystem. Dessutom kopplas medicinsk kunskap i arketyperna fri från journalsystemen. Syftet med examensarbetet har varit att utveckla ett verktyg, en så kallad arketypeditor, som kan användas för att skapa och redigera arketyper. Utöver detta skulle möjligheterna undersökas att i verktyget implementera en koppling till medicinska terminologisystem. Utvecklingen har skett i en iterativ process med fokus på användbarhet och stabilitet. Det har även ingått att ta reda på syftet med en arketypeditor. Resultatet är ett plattformsoberoende och stabilt verktyg som är utvecklat enligt användbarhetsprinciper med koppling till terminologisystemet Unified Medical Language System (UMLS). En arketypeditors syfte i ett bredare perspektiv är att lösa brister i dagens medicinska informationssystem som tas upp i denna rapport. Trots att openEHR-projektet är nytt finns det många tekniskt gångbara idéer, men det finns även problem som beror på för lite praktisk testning och tillämpning. / Present-day electronic health record systems have limited possibilities to structure and store patient information in a similarly manner. This causes problems with exchanging patient record data between different systems and it gives rise to problems with, among other things, research and patient information availability. Lack of availability will in turn decrease the possibility of giving good care irrespective of where the patient is located. Within the openEHR project an idea with so called archetypes has been introduced as a uniform way to structure exchangeable patient record data in order to meet future requirements on electronic health records and systems. Archetypes are formal models of clinical information entities, for example blood pressure. They are constructed from constraints, structure and terms which may have bindings to medical terminology systems. Furthermore, medical knowledge in the archetypes is separated from the patient record systems. The purpose of the thesis has been to develop a tool, a so called archetype editor, that can be used to create and edit archetypes. In addition, the possibilities of implementing a connection to medical terminology systems should be explored. The development has followed an iterative process with focus on stability and usability. Another task has also been to find out the purpose with an archetype editor. The result is a platform-independent and stable tool, developed according to usability principles with a connection to the terminology system Unified Medical Language System (UMLS). An archetype editor’s purpose in a wider perspective is to solve shortcomings in medical information systems of today, which are brought up in this thesis. Although the openEHR project is new, there are many technically applicable ideas but also problems because of insufficient practical testing and application.

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