Visually representative web history browser : a thesis submitted to the College of Creative Arts, Massey University, New Zealand, as fulfilment for the degree Master of Design

Hodgkinson, Gray

January 2007

The familiar computer graphic user interface (GUI) makes extensive use of visually representative devices such as folders and files. These symbols help the user deal with computer data and operations that otherwise have little or no physical form. The computer’s underlying complexity is symbolised for the user, who is then able to manipulate the computer by interacting directly with the interface. The early development of computer interface design was largely the domain of software and hardware developers. Many sound principles of user interaction and testing were established and provided essential guidance for new generations of interface designers. As computer technology and its tools became more widely available, a broader range of designers began contributing, including those from product design and visual communication. This study is written from the point of view of a “visual designer” – a designer who began his career in graphic design and who has moved towards interface design out of curiosity and a desire to proffer a different attitude and approach to interface issues. The study therefore will demonstrate a design process that many visual designers will be able to identify with. The process includes research, analysis, methodical progression and artistic inspiration. The artistic inspiration in this case comes from the Constructivist artist El Lissitzky, and will illustrate the significant contribution that art can make to interface design. This art-influenced design process was presented at the 2005 Ed-Media World Conference on Educational Multimedia, (Montreal, 2005). The enthusiastic response and discussion provided encouragement to continue in this direction. In the following year another presentation, which included the working prototype, was presented as part of a keynote speaker presentation at the 2006 Siggraph Taipei Conference, National Chiao Tung University, Taipei. The specific task chosen to work with in this study is that of Web browser history. As a user browses the Web the computer records a list of visited websites. The first few generations of browsers presented this information as a simple list, but this approach incorporated many flaws and caused problems for users. More recent browsers provide more options, but significant issues remain. This study offers solutions to several of these problems. The resulting design prototype is named “isoBrowser”. It is the result of the alternative design process outlined above and offers alternative methods of visualising, organising and manipulating data. The prototype is not intended to be fully functional nor “live”. However, it is sufficiently operable so as to test interface interaction and user response. A fully functional version, operably and aesthetically complete, would be the subject of further development.

World Wide Web

web browser

graphical user interface

web history

design

Direct Pen Input and Hand Occlusion

Vogel, Daniel

01 September 2010

We investigate, model, and design interaction techniques for hand occlusion with direct pen input. Our focus on occlusion follows from a qualitative and quantitative study of direct pen usability with a conventional graphical user interface (GUI). This study reveals overarching problems relating to poor precision, ergonomics, cognitive differences, limited input, and problems resulting from occlusion. To investigate occlusion more closely, we conduct three formal experiments to examine its area and shape, its affect on performance, and compensatory postures. We find that the shape of the occluded area varies across participants with some common characteristics. Our results provide evidence that occlusion affects target selection performance: especially for continuous tasks or when the goal is initially hidden. We observe how users contort their wrist posture during a simultaneous monitoring task, and show this can increase task time. Based on these investigations, we develop a five parameter geometric model to represent the shape of the occluded area and extend this to a user configurable, real-time version. To evaluate our model, we introduce a novel analytic testing methodology using optimization for geometric fitting and precision-recall statistics for comparison; as well as conducting a user study. To address problems with occlusion, we introduce the notion of occlusion-aware interfaces: techniques which can use our configurable model to track currently occluded regions and then counteract potential problems and/or utilize the occluded area. As a case study, we present the Occlusion-Aware Viewer: an interaction technique which displays otherwise missed previews and status messages in a non-occluded area. Within this thesis we also present a number of methodology contributions for quantitative and qualitative study design, multi-faceted study logging using synchronized video, qualitative analysis, image-based analysis, task visualization, optimization-based analytical testing, and user interface image processing.

human-computer interaction

pen computing

hand occlusion

interaction techniques

tablet

human factors

graphical user interface

image processing

stylus

hand

0984

Direct Pen Input and Hand Occlusion

Vogel, Daniel

01 September 2010

We investigate, model, and design interaction techniques for hand occlusion with direct pen input. Our focus on occlusion follows from a qualitative and quantitative study of direct pen usability with a conventional graphical user interface (GUI). This study reveals overarching problems relating to poor precision, ergonomics, cognitive differences, limited input, and problems resulting from occlusion. To investigate occlusion more closely, we conduct three formal experiments to examine its area and shape, its affect on performance, and compensatory postures. We find that the shape of the occluded area varies across participants with some common characteristics. Our results provide evidence that occlusion affects target selection performance: especially for continuous tasks or when the goal is initially hidden. We observe how users contort their wrist posture during a simultaneous monitoring task, and show this can increase task time. Based on these investigations, we develop a five parameter geometric model to represent the shape of the occluded area and extend this to a user configurable, real-time version. To evaluate our model, we introduce a novel analytic testing methodology using optimization for geometric fitting and precision-recall statistics for comparison; as well as conducting a user study. To address problems with occlusion, we introduce the notion of occlusion-aware interfaces: techniques which can use our configurable model to track currently occluded regions and then counteract potential problems and/or utilize the occluded area. As a case study, we present the Occlusion-Aware Viewer: an interaction technique which displays otherwise missed previews and status messages in a non-occluded area. Within this thesis we also present a number of methodology contributions for quantitative and qualitative study design, multi-faceted study logging using synchronized video, qualitative analysis, image-based analysis, task visualization, optimization-based analytical testing, and user interface image processing.

human-computer interaction

pen computing

hand occlusion

interaction techniques

tablet

human factors

graphical user interface

image processing

stylus

hand

0984

A Design Framework for Service-oriented Systems

Enoiu, Eduard, Marinescu, Raluca

January 2011

In the context of building software systems, Service-oriented Systems (SOS) have become one of the major research topics in the past few years. In SOS, services are basic functional units that can be created, invoked, composed, and if needed deleted on-the-fly. Since these software systems are composed of different services there is no easy way to assure the Quality of Service (QoS), therefore, formal specification of both functional and extra-functional system behaviour, compatibility, and interoperability between different services have become important issues. As a way to address this issues, resource-aware timing behavioural language REMES was chosen to be extended towards service-oriented paradigm with service specific information, such as type, capacity, time-to-serve, etc., as well as Boolean predicate constraints on control flow guarantees. In this thesis we present a design framework that provides a graphical user interface for behaviour modelling of services based on REMES language. NetBeans Visual Library API is used to display editable service diagrams with support for graph-oriented models. A textual dynamic service composition language was implemented, together with means to automatically verify service composition correctness. We ensure also an automated traceability between service specification interfaces, where both modelling levels are combined in an efficient tool for designing SOS.

Service-oriented systems

service composition

component-based systems

remes

graphical user interface

Java

NetBeans Visual Library API

Overlay Window Management: User interaction with multiple security domains

Feske, Norman, Helmuth, Christian

14 November 2012

Graphical user interfaces for high-assurance systems must fulfill a range of security requirements such as protected and reliable presentation, prevention of unauthorized cross-domain talk, and prevention of user-input eavesdropping. Additionally, it is desirable to support legacy applications running in confined compartments. Standard isolation methods such as virtual-machine monitors provide one frame buffer per security domain, where each frame buffer is managed by one legacy window system. This raises the question of how to safely integrate multiple (legacy) window systems and protect the displayed data while preserving the usability of modern user interfaces. Our paper describes the OverlayWindow System, a general mechanism for multiplexing windows of multiple distinct window systems into the host frame buffer. Thus, each legacy window appears to the user as one corresponding host window that can be moved and resized. To achieve this, only slight modifications of the legacy window system are required whereby, the source code does not have to be available. Our implementation of an Overlay Window System successfully multiplexes Linux, GEM and native L4 applications.

Graphische Oberfläche

Nutzerfreundlichkeit

GUI

graphical user interface

OverlayWindow System

Linux

Atari GEM

L4Linux

X11

Fenstermanagement

ddc:004

rvk:SS 5514

Unobtrusive interaction design in extreme sports : What aspects are important to consider when designing an unobtrusive interaction for wearable devices in extreme sports?

Redondo Ruiz, Daniel

January 2014

This paper is a study of the aspects that are important to consider when designing an unobtrusive interaction for wearable devices in the area of extreme sports. The work is based on an analytical study of seemly-unrelated areas with the common facet that they all call for an unobtrusive interaction in their devices. The findings of the analysis conclude that it is necessary a change of direction in the design because it is not possible to design an unobtrusive interaction that relies on active manipulation. Activity theory and affective computing present theoretical principles with the potential to be used as a framework for HCI and solve the mentioned issues. Finally, I design the user interface of a specific case in the areas of mountain biking and skiing to use it as design-oriented research. An essential aspect of this case is the use of expert feedback and video simulations to drive the design process. Another important point is the definition of the situations and variables that will be observed by the system to adapt itself so it is able to continue being unobtrusive and helpful through the changes.

interaction design

unobtrusive interaction

discrete interaction

wearable devices

design-oriented research

graphical user interface

user experience

extreme sports

Utformning av grafiska ikoner : En studie om ikonattributens betydelse / The design of graphic icons : A study of the importance of icon attributes

Göransson, Petra, Kongo, Maija

January 2014

Denna undersökning syftar till att undersöka vilka attribut som ska tas hänsyn till vid skapande av ikoner. Undersökningen utgår från en taiwanesisk undersökning där attribut har identifierats och undersökts med hjälp av grafiska designers. Som grund för ikonförståelse appliceras semiotik och Charles Sanders Peirces triadiska modell på ikoner. Intervjuer och enkäter har utförts för att rangordna attribut, samt diskutera dess relevans vid ikonskapande. Resultatet visar att kontext (kultur, ikonens placering, medium etc.) och målgrupp har mycket stor betydelse vid ikonskapande och respondenterna uppvisade därför svårigheter med att rangordna attributen. / This study aims to investigate what attributes to take into consideration when designing computer icons. The study is based on a Taiwanese study where attributes are identified and investigated by Taiwanese graphic designers. The theoretical basis is semiotics, Charles Sanders Peirces triad model in particular, applied on icons. Interviews and surveys has been executed to rate attributes as well as discussing their relevance to icon design. The results shows that context (culture, the placement of the icon, medium etc.) and target group is a high priority when creating icons and the respondents showed difficulties with rating the attributes.

icons

semiotics

icon attributes

Peirce

graphic design

graphical user interface

ikoner

semiotik

ikonattribut

Peirce

grafisk design

grafiskt användargränssnitt

Ταξινόμηση κλινικών περιπτώσεων κοιλιακών άλγων με υλοποίηση τεχνικών υπολογιστικής νοημοσύνης

Μητρούλιας, Αθανάσιος

07 June 2013

Σκοπός της παρούσας διπλωματικής εργασίας είναι η ταξινόμηση κλινικών περιπτώσεων κοιλιακών αλγών και συγκεκριμένα περιπτώσεων σκωληκοειδίτιδας σε παιδιά ηλικίας μέχρι 14 ετών μέσω ενός εργαλείου που υλοποιούμε. Βασικός λόγος για τη κατασκευή αυτού του εργαλείου αποτέλεσε η δυσκολία στη πρόβλεψη της ασθένειας από τους ειδικούς (κατά μέσο όρο γίνονται 20% - 30% αχρείαστες εγχειρήσεις), η συχνή σύγχυσή της με άλλες περιπτώσεις κοιλιακών αλγών ενώ το ποσοστό θνησιμότητας στα παιδιά με σκωληκοειδίτιδα ποικίλλει από 0,1% - 1%. Βασισμένοι σε ένα σύνολο δεδομένων από τη Παιδοχειρουργική Κλινική του Πανεπιστημιακού Νοσοκομείου της Αλεξανδρούπολης, διεξάγουμε αναζήτηση των καλύτερων παραμέτρων για τη κατασκευή μοντέλων ταξινομητών βασισμένων στις τρεις παρακάτω τεχνικές Υπολογιστικής Νοημοσύνης: α) τα Τεχνητά Νευρωνικά Δίκτυα, β) τις Μηχανές Διανυσμάτων Υποστήριξης και γ) τα Τυχαία Δάση. Χρησιμοποιώντας ένα σύνολο 14 κλινικών και εργαστηριακών παραγόντων, υλοποιούμε μοντέλα ταξινομητών. Η βασική ιδέα για την υλοποίηση τους είναι η αντιμετώπιση των παρακάτω προβλημάτων: : α) έχει το παιδί σκωληκοειδίτιδα ή όχι; β) Αν έχει σκωληκοειδίτιδα, ποιος τρόπος αντιμετώπισής της ενδείκνυται: χειρουργική επέμβαση ή συντηρητική αγωγή; Μετά την εύρεση των βέλτιστων μοντέλων από κάθε μία από τις μεθόδους Υπολογιστικής Νοημοσύνης που χρησιμοποιήθηκαν, υλοποιήθηκε ένα εργαλείο εύχρηστης διεπαφής χρήστη στο προγραμματιστικό περιβάλλον της Matlab 2012a το οποίο ευελπιστούμε ότι θα υποβοηθήσει τους ειδικούς στη λήψη απόφασης για τη πορεία ενός νεαρού ασθενούς που εισέρχεται στο νοσοκομείο παραπονούμενος για σκωληκοειδίτιδα. Το εργαλείο αυτό ελέγχθηκε με καινούργια πραγματικά κλινικά δεδομένα από το Καραμανδάνειο Νοσοκομείο Παίδων Πατρών και η απόδοσή του ήταν ενθαρρυντική. / The purpose of this paper is the classification of clinical cases of abdominal pain and, to be more precise, the prediction of cases with acute appendicitis at children aged up to 14 years old through a tool that we implement. The main reasons for the construction of this tool are: a) the difficulty in the prediction of the appendicitis since the 20%-30% of the operations made from the experts for this disease are gratuitous, b) the frequent confusion that there is with other diseases that cause abdominal pain and c) the mortality rate at children with appendicitis varies from 0,1% to 1%. Based on a data set from the Department of the Child Surgery of the Hospital of the University of Alexandroupolis, we conduct a search of the best parameters for the construction of model classifiers based on the three following techniques of the Computational Intelligence: a) the Artificial Neural Networks, b) the Support Vector Machines and c) the Random Forests. The basic idea for the implementation of these models is, based on a sum of 14 clinical and laboratory factors, facing the following questions: a) if a child has appendicitis or not?, b) and if it does have appendicitis, which way should we follow to cure it: operational surgery or medication? After finding these best models, we implement a tool which is actually a Graphical User Interface of Matlab 2012a which we hope that will assist the experts in making the correct decision about a young patient that goes to the hospital complaining for appendicitis. This tool was tested on new real clinical data of patients of the Child Hospital of Patras and its performance was found really encouraging.

Σκωληκοειδίτιδα

Ιατρική πρόβλεψη

616.340 028 5

Appendicitis

Computational intelligence

Clinical prediction

Graphical user interface

Interaktivní aplikace v programu MAPLE pro výuku finanční matematiky / Interactive applications in software Maple for teaching financial mathematics

ROSA, Přemysl

January 2015

The subject of this diploma thesis is to search for the possibilities of using the Maple program for teaching financial mathematics. The basis is to create the maplet, which allows to users to fully benefit from the the strength of CAS (computer algebra system) created by the division Maplesoft of the company Waterloo Inc., through a simple graphical user interface. Maplets provide all the necessary tools for the calculations, they are very illustrative and help students to better understand certain problem. Detailed evolution of the maplets from its development through possibilities to its creation is also important part of this diploma thesis.

MedViewGen: uma ferramenta baseada em onto-logias para geração automática de interface do U-suário para documentos em registros eletrônicos em saúde / MedViewGen: An Ontology-Based Tool to GUI Automat-ic Generation for Documents in Electronic Health Records.

Duarte, Rodrigo Cartaxo Marques

07 February 2011

Made available in DSpace on 2015-05-14T12:36:27Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 2547720 bytes, checksum: 27f87fb12b3a5d38cd81b4df2f2fd067 (MD5) Previous issue date: 2011-02-07 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Health Informatics is an innovative area which presents major challenges to be overcome. As one of its main branches of research are Electronic Health Records (EHR), which are responsible, among other things, the storage, display and man-agement of the patient's clinical records. This work is motivated primarily by two main aspects that have been gaining relevance in EHR context: Application domain flexibility and multi-device presentation. Domain flexibility inherent in the field of electronic health records is a key challenge faced by user interface designers today. The use of such records on a large scale in different enviroments and the increasing need for use of tools to clinical decision support are relevant factors too. Approaches in the literature propose generic models of domain and presentation development, with manual configurable mappings between both layers, but this configuration is very costly and error-prone. This work aims at developing a tool for GUI automatic generation for health documents, titled MedViewGen, providing independence from the scope and interface technologies. By combining metadata extracted from appli-cation domain with metadata attached to user interface components, both represented in OWL, we create the possibility to decide at run time, which compo-nents are most suitable to represent each biomedical concept. As a result we have an instantiation of the tool to support the JSF technology, and integrated to OpenCTI it presented satisfactory results in forms generation, using a set of interface compo-nents suitable for documents representation and some clinical decision support agents. / A informática em saúde é uma área inovadora e que apresenta grandes desafios a serem vencidos. Como um de seus principais ramos de pesquisa encontram-se os Registros Eletrônicos em Saúde (Electronic Health Records, EHR), que são respon-sáveis, dentre outros, pelo armazenamento, exibição e manipulação de registros clí-nicos do paciente. Este trabalho é motivado por dois aspectos principais que vêm ganhando relevância no contexto de sistemas para EHR: flexibilidade do domínio da aplicação e apresentação multi-dispositivo. A flexibilidade do domínio inerente aos registros eletrônicos em saúde é um dos principais desafios enfrentados pelos proje-tistas de interface com o usuário atualmente. A utilização desses registros em larga escala em diversas plataformas de visualização e a crescente necessidade por utiliza-ção de ferramentas de suporte a decisão clínica são fatores relevantes. Abordagens presentes na literatura propõem modelos genéricos de representação de domínio e apresentação, com mapeamentos configuráveis entre as duas camadas, porém essa configuração é um processo oneroso e susceptível a erros. Este trabalho tem como objetivo o desenvolvimento de uma ferramenta de geração automática da GUI para documentos em saúde, entitulada MedViewGen, proporcionando independência do domínio de aplicação e de tecnologias de interface. Através da combinação dos me-tadados extraídos do domínio com metadados intrínsecos aos componentes de inter-face, ambos representados em ontologias OWL, criamos a possibilidade de mapear, em tempo de execução, quais componentes estão aptos para representar cada con-ceito biomédico na GUI. Como resultado tivemos uma instanciação da ferramenta para suportar a tecnologia JSF, integrando com OpenCTI e apresentando resultados satisfatórios na geração dos formulários, utilizando um conjunto de componentes de interface adequado para a representação dos documentos e alguns agentes de supor-te a decisão clínica.

Registros eletrônicos em saúde

Interface de usuário

Ontologias

Electronic health record

Graphical user interface

Ontology