Designing a user interface for web based project managment in film production. / Design av användargränssnitt för webbaserad projekthantering inom filmproduktion.

Sundström, Sofia, Thelander, Elinor

January 2004

<p>The aim of this thesis project is to create a user interface for a web based film production project management portal. This implies creating a site map and a functionality specification based on the needs of the people working in the film production industry. The project was made on account of The Chimney Pot, a post production company in Stockholm. For the scope of this project, the research was concentrated on the part of film production that concerns The Chimney Pot, i.e. the procedures that take place after a film has been recorded. The research also focused on people working in the area of Stockholm, even if their clients and customers in other areas of Sweden and abroad were indirectly included in order for the project portal to be a usable tool in projects where these people are involved. </p><p>Before any visible results can be seen in a web production project, a range of preparation steps needs to be taken. Planning is essential if the final product shall work properly. Extensive research has to be done into the industry. In order to make the product usable, the intended users, their requirements, work procedures and environment need to be examined. Only when there are substantial results and enough knowledge about the industry, the actual implementation can start. The first step is to make a functionality specification, next a site map should be produced and the technical architecture should be specified. These are the areas that are covered in this project, but there are also recommendations about how the further development should be made. Important aspects in the next phase are to create a budget, to put together a development team and to create a graphic user interface. In the whole process the issues of usability need to be considered, i.e. efficiency, flexibility, learnability and satisfaction. </p><p>The key requirements for the project portal turned out to be speed and effectiveness. The user interface was designed to be intuitive and to be shallow, which means that the user should be able to perform any task with the least amount of mouse clicks possible. Another intention with the produced user interface is for it to be clearly divided into the four main areas that could be extracted from the user requirements. They are planning, project details, communication and file sharing. Directly after logging on to the project portal, the user should get an overview of all these areas. Other important considerations were security, version control and seamlessness. These issues demand a thorough planning of the technical architecture and this thesis provides some useful tips for the further development of the technical specification.</p>

Datorteknik

User interface design

film production

project managment

post production

web portal

site map

Datorteknik

Computer engineering

Datorteknik

One Butterfly : understanding interface and interaction design for multitouch environments in museum contexts

Whitworth, Erin Casey

30 November 2010

Museums can be perceived as stuffy and forbidding; web technologies can enable museums to expand access to their collections and counterbalance these perceptions. Museums are searching for new ways to communicate with the public to better make a case for their continued relevance in the digital information age. With the emergence of multitouch computing, other diverse forms of digital access and the popularization of the user experience, challenge museum design professionals to synthesize the information seeking experience that occurs on multiple computing platforms. As a means of addressing these issues, this Master’s Report summarizes the One Butterfly design project. The project's goal was to create a design for a multitouch interface for federated search of Smithsonian collections. This report describes the project’s three major phases. First, an idea for an interface was developed and designs based on that idea were captured and clarified. Second, a formal review of related research was undertaken to ground these designs in the museum informatics, user interface design, and multitouch interaction design literatures. Finally, the report concludes with a review and reflection on the designs and their underlying ideas in light of things learned in the previous phases. / text

Multitouch

Interaction design

User interface design

Gesture

Interaction

Museum informatics

Museums

Cultural institutions

Information kiosk

Information studies

WIMP and Beyond: The Origins, Evolution, and Awaited Future of User Interface Design

Yang, Grant

01 January 2015

The field of computer user interface design is rapidly changing and diversifying as new devices are developed every day. Technology has risen to become an integral part of life for people of all ages around the world. Modern life as we know it depends on computers, and understanding the interfaces through which we communicate with them is critically important in an increasingly digital age. The first part of this paper examines the technological origins and historical background driving the development of graphical user interfaces from its earliest incarnations to today. Hardware advancements and key turning points are presented and discussed. In the second part of this paper, skeuomorphism and flat design, two of the most common design trends today, are analyzed and explained. Finally, the future course of user interface is predicted based off of emergent technologies such as the Apple Watch, Google Glass, Microsoft HoloLens, and Microsoft PixelSense. Through understanding the roots and current state of computer user interface design, engineers, designers, and scientists can help us get the most out of our ever-changing world of advanced technology as it becomes further intertwined with our existence.

Computer Interfaces

Computer System Design

User Interfaces

Human-Computer Interaction

Usability

User Interface Design

Graphics and Human Computer Interfaces

Mobile phone based remote monitoring system

Liu, Danyi

January 2008

This thesis investigates embedded databases and graphical interfaces for the MicroBaseJ project. The project aim is the development of an integrated database and GUI user interface for a typical 3G, or 2.5G, mobile phone with Java MIDP2 capability. This includes methods for data acquisition, mobile data and information communication, data management, and remote user interface. Support of phone delivered informatics will require integrated server and networking infrastructure research and development to support effective and timely delivery of data for incorporation in mobile device-based informatics applications. A key research and development (R&D) challenge is to support effective and timely delivery of data for incorporation in mobile device-based informatics applications. Another important aspect of the project is determining how to develop efficient graphics for the small mobile screen. The research investigates and analyses the architecture of a mobile monitoring system. The project developed a generic solution that can be implemented in a number of commercial sectors, such as horticulture, building management and pollution/water management. The developed concept is tested using data relevant to the horticultural area of application. The system also addresses the main issues related to mobile monitoring, including real-time response, data integrity, solution cost, graphical presentation, and persistent storage capabilities of modern mobile devices. Four embedded databases based on J2ME have been investigated. Two of the four have been evaluated and analysed. The Insert function, Sequence Search, and Random Search of Perst List and RMS (Record Management System) databases have been tested. The size of the processed data was limited to 20,000 records when using the wireless toolkit simulator, and 11,000 records when using a mobile phone. Perst Lite reflects good performance and has out-performed RMS in all tests. User interface software such as J2ME Polish for mobile phones has been investigated. Custom J2ME class for graphical interface is developed. This provides the graphical presentation of the data collected from the sensors; including temperature, wind speed, wind direction, moisture, and leaf wetness. The graphical interface, bar charts, and line charts with trace ball for collected data have been designed and implemented. The embedded database performance and project performance have been investigated and analysed. The performances of Perst Lite and RMS are evaluated in terms of the insert, sequence search, and random search functions based on simulation and real devices. The record numbers vary from 1,000 to 20,000. The project performance contains data receiving and storage, and data presentation and configuration. The performance of data storage and configuration can be negated due to the running mode and the response time. Thus, data presenting performance is the key focus in this project. This performance was divided into the categories of initial, data search, data selection, and charting. The initial performance includes the initialisation of the project parameters, and the reaching of the welcome interface. Data search performance refers to the retrieval of the specified data from the embedded database, measured on 48 data points, which only can be presented on the mobile screen from the retrieved data. These four performance types are measured in thousands of record numbers, varying from 1,000 to 18,000 record numbers, with the retrieved data range varying from 1 day to 30 days.

Mobile application

Remote control

Mobile phone technology

Cell phone technology

Mobile database applications

Graphic User Interface design

Cellular phones

Usability Analysis in Locomotion Interface for Human Computer Interaction System Design

Farhadi-Niaki, Farzin

09 January 2019

In the past decade and more than any time before, new technologies have been broadly applied in various fields of interaction between human and machine. Despite many functionality studies, yet, how such technologies should be evaluated within the context of human computer interaction research remains unclear. This research aims at proposing a mechanism to evaluate/predict the design of user interfaces with their interacting components. At the first level of analysis, an original concept extracts the usability results of components, such as effectiveness, efficiency, adjusted satisfaction, and overall acceptability, for comparison in the fields of interest. At the second level of analysis, another original concept defines new metrics based on the level of complexity in interactions between input modality and feedback of performing a task, in the field of classical solid mechanics. Having these results, a set of hypotheses is provided to test if some common satisfaction criteria can be predicted from their correlations with the components of performance, complexity, and overall acceptability. In the context of this research, three multimodal applications are implemented and experimentally tested to study the quality of interactions through the proposed hypotheses: a) full-body gestures vs. mouse/keyboard, in a Box game; b) arm/hand gestures vs. three-dimensional haptic controller, in a Slingshot game; and c) hand/finger gestures vs. mouse/keyboard, in a Race game. Their graphical user interfaces are designed to cover some extents of static/dynamic gestures, pulse/continuous touch-based controls, and discrete/analog tasks measured. They are quantified based on a new definition termed index of complexity which represents a concept of effort in the domain of locomotion interaction. Single/compound devices are also defined and studied to evaluate the effect of user’s attention in multi-tasking interactions. The proposed method of investigation for usability is meant to assist human-computer interface developers to reach a proper overall acceptability, performance, and effort-based analyses prior to their final user interface design.

HCI

Gesture Recognition

Usability analysis

Machine Vision

Heuristic Evaluation

User Interface Design

Human Satisfaction

Human Performance

Complexity

Locomotion Interaction

Inspirez ! Explorez ! Soutien à la créativité en conception d'interfaces homme-machine / Inspire! Explore! Creativity Support in Human-Computer Interface Design

Masson, Dimitri

25 September 2014

Ma thèse s'inscrit dans le domaine de l'ingénierie de l'interaction homme-machine. Elle traite de la conception d'interfaces hommes machine (IHM). La créativité n'y est souvent considérée que de manière marginale. Pourtant l'effervescence technologique et la diversité résultante des contextes d'usage appellent à de plus en plus de créativité. Ma thèse soutient le principe que l'innovation passe par l'application de processus créatifs. Dès lors, le défi est de savoir explorer largement et efficacement l'espace de conception dès les phases amont du processus. Il convient donc d'intégrer et d'enseigner la créativité dans les processus de conception d'IHM, en particulier pour les concepteurs débutants.Ce positionnement sur le sujet provient d'une double approche : d'une part théorique, avec un état de l'art explorant les dimensions de la créativité et les outils informatiques de support à la créativité ; d'autre part empirique, avec quatre mises en pratique de la créativité dans des domaines de conception différents comme l'architecture, la conception de produit et la conception de systèmes interactifs. Je construis ma contribution sur les principes suivants : (1) la créativité n'est pas réservée à une élite, mais peut être travaillée et renforcée par des outils informatiques ; (2) ces outils doivent soutenir la motivation, la recherche d'inspiration, l'exploration en largeur, et les connaissances relatives au domaine et aux processus de conception. Selon une démarche réflexive, j'applique ces mêmes principes dans ma thèse. Je propose une exploration en largeur du support à la créativité via cinq contributions logicielles complémentaires : Maestro et Bank pour la capitalisation des connaissances ; WebGallery, BrianStorming et Magellan pour l'inspiration et l'exploration de l'espace de conception. Plus précisément, Maestro traite de la capitalisation des processus de conception tandis que BANK assure la structuration et la capitalisation des connaissances en IHM via un graphe de modèles. WebGallery est une galerie de sites web pour inspirer les concepteurs : je conduis une expérimentation sur la perception humaine du style d'un site web. BrianStorming est un assistant au brainstorming : il fournit des suggestions pendant une séance de brainstorming électronique. Magellan est un environnement interactif à base d'algorithmes génétiques qui génèrent et transforment automatiquement des IHM pour un problème de conception donné. Par ce positionnement et ces contributions logicielles, l'ordinateur change de statut : de simple outil, il devient un concepteur assistant, partenaire du processus de créativité. / My PhD thesis contributes to the engineering of Human Computer Interaction (HCI). It deals with the design of User Interfaces (UI). I claim that creative processes should be better considered, and supported by tools especially for novice designers. The challenge is to speed up the exploration of the design space at the early stages of the process. This claim is grounded in both a theoretical state of the art in creativity and creativity support tools, and in practice of the topic with four hands-on experiences of creativity in different areas of design such as architecture, product design and UI design. I build my contribution on the following principles: (1) creativity is not reserved for the elite, but can be tailored and fostered by software tools; (2) the tools must leverage motivation, inspiration, wide exploration, and knowledge in UI and design processes. Through a reflective process, I apply these principles to my thesis. I explore a wide range of creativity support tools through five complementary software contributions: Maestro and Bank for supporting knowledge capitalization; WebGallery, BrianStorming and Magellan for fostering inspiration and exploration of the design space. Maestro addresses the capitalization of design processes whilst BANK gathers knowledge in HCI as a graph of models. WebGallery is a gallery of websites to inspire designers: I report an experiment on human perception of websites styles. BrianStorming is a brainstorming assistant: it provides suggestions in a electronic brainstorming session. Magellan is an interactive environment based on genetic algorithms that automatically generate and transform UIs for a given design problem. This changes the role of the computer: from a simple tool, it becomes a designer's partner in the creative process.

Conception d’Interfaces Homme-Machine

Créativité

Algorithmes évolutionnaires

Galerie d'exemples

Brainstorming

User Interface Design

Creativity

Evolutionary algorithm

Design galleries

Brainstorming

004

Designing a user interface for web based project managment in film production. / Design av användargränssnitt för webbaserad projekthantering inom filmproduktion.

Sundström, Sofia, Thelander, Elinor

January 2004

The aim of this thesis project is to create a user interface for a web based film production project management portal. This implies creating a site map and a functionality specification based on the needs of the people working in the film production industry. The project was made on account of The Chimney Pot, a post production company in Stockholm. For the scope of this project, the research was concentrated on the part of film production that concerns The Chimney Pot, i.e. the procedures that take place after a film has been recorded. The research also focused on people working in the area of Stockholm, even if their clients and customers in other areas of Sweden and abroad were indirectly included in order for the project portal to be a usable tool in projects where these people are involved. Before any visible results can be seen in a web production project, a range of preparation steps needs to be taken. Planning is essential if the final product shall work properly. Extensive research has to be done into the industry. In order to make the product usable, the intended users, their requirements, work procedures and environment need to be examined. Only when there are substantial results and enough knowledge about the industry, the actual implementation can start. The first step is to make a functionality specification, next a site map should be produced and the technical architecture should be specified. These are the areas that are covered in this project, but there are also recommendations about how the further development should be made. Important aspects in the next phase are to create a budget, to put together a development team and to create a graphic user interface. In the whole process the issues of usability need to be considered, i.e. efficiency, flexibility, learnability and satisfaction. The key requirements for the project portal turned out to be speed and effectiveness. The user interface was designed to be intuitive and to be shallow, which means that the user should be able to perform any task with the least amount of mouse clicks possible. Another intention with the produced user interface is for it to be clearly divided into the four main areas that could be extracted from the user requirements. They are planning, project details, communication and file sharing. Directly after logging on to the project portal, the user should get an overview of all these areas. Other important considerations were security, version control and seamlessness. These issues demand a thorough planning of the technical architecture and this thesis provides some useful tips for the further development of the technical specification.

Datorteknik

User interface design

film production

project managment

post production

web portal

site map

Datorteknik

Computer Engineering

Datorteknik

Automated and interactive composition of ubiquitous applications

Davidyuk, O. (Oleg)

29 May 2012

Abstract Application composition refers to the creation of applications by using Web Services and resources such as mobile devices, displays, and various augmented everyday objects as building blocks. This approach is especially useful for ubiquitous applications which focus on supporting users' needs and everyday activities. This thesis proposes to compose these applications by choosing the appropriate set of resources and services and their configuration as dictated by the users themselves, together with their needs and other contexts. This thesis studies automated and interactive application composition. The first approach enables the system to act upon users' needs and intentions, while the second enables users themselves to specify their needs and achieve their goals. The research was carried out by designing, implementing and evaluating eight prototypes for automated and interactive application composition. The evaluation methods used included performance analysis and user experiments. The main results include (1) the design and implementation of automated composition mechanisms which rely on evolutionary computing and genetic algorithms, (2) a detailed performance analysis of these mechanisms using synthesized datasets and in a real networking environment; (3) the design and implementation of interactive application composition prototypes which rely on graphical and physical (i.e. touch-based) user interfaces for mobile devices and utilize various contexts; (4) an evaluation of these prototypes in a series of user experiments. The evaluation studied the following issues: users' attitudes towards an automated composition system which makes decisions on their behalf; users' attitudes towards a context-aware composition interface; and the issue of balancing user control and system autonomy. / Tiivistelmä Sovellusten kokoamisella tarkoitetaan sovellusten luomista käyttäen rakennuselementteinä Web Services -ohjelmistojärjestelmää, sekä muita resursseja, kuten mobiililaitteita, näyttölaitteita ja monenlaisia lisävarusteltuja tavanomaisia esineitä. Tämä menetelmä on erityisen käyttökelpoinen sellaisten jokapaikan tietoteknisten sovellusten luomisessa, joiden tarkoitus on tukea käyttäjän tarpeita ja päivittäisiä toimia. Tutkimuksessa esitetään, että tällaisia sovelluksia voidaan koota valitsemalla sopivia palvelu- ja resurssipaketin sekä niiden konfiguraation käyttäjien vaatimusten mukaan, ottaen huomioon heidän tarpeensa sekä muut kontekstit. Tässä väitöskirjassa tutkitaan automatisoitua ja vuorovaikutteista sovellusten kokoamista. Automatisointi mahdollistaa sen, että järjestelmä toimii käyttäjän tarpeiden ja päämäärien mukaisesti, kun taas vuorovaikutteisuuden ansiosta käyttäjä voi määritellä tarpeensa ja pääsee näin haluamaansa lopputulokseen. Tutkimus toteutettiin suunnittelemalla, toteuttamalla ja arvioimalla kahdeksan automatisoidun ja vuorovaikutteisen sovelluksen kokoonpanon prototyyppiä. Arviointimetodeina käytettiin suorituskykyanalyysiä ja käyttäjäkokeita. Tutkimuksen tärkeimpiä tuloksia ovat (1) evoluutiolaskentaan ja geneettisiin algoritmeihin perustuvien automatisoitujen kokoamismekanismien suunnittelu ja toteutus; (2) näiden mekanismien yksityiskohtainen suorituskykyanalyysi syntetisoitujen tietoaineistojen ja todellisten verkkoympäristöjen avulla; (3) graafisille ja fyysisille (l. kosketus) mobiililaitteiden käyttöliittymille perustuvien ja monenlaisia konteksteja hyödyntävien vuorovaikutteisten kokoamissovellusten prototyyppien suunnittelu ja toteutus; (4) prototyyppien arviointi erilaisin käyttäjäkokein. Arvioinnissa tutkittiin käyttäjien asenteita käyttäjän puolesta päätöksiä tekevää automatisoitua kokoamisjärjestelmää kohtaan, käyttäjien asenteita kontekstitietoista kokoamiskäyttöliittymää kohtaan, sekä käyttäjälle jäävän kontrollin ja järjestelmän autonomian välistä tasapainoa.

application composition

interaction design

physical user interface design

ubiquitous computing

fyysisten käyttöliittymien suunnittelu

jokapaikan tietotekniikka

käyttäjävuorovaikutuksen suunnittelu

sovellusten kokoaminen

Websites are capable of reflecting a particular human temperament : fact or fad?

Theron, Annatjie

01 September 2008

This study suggests that it is possible to classify websites as either extrovert or introvert and logical or emotional in style, impact and appearance. Both the extraversion/ introversion and logical/emotional dichotomies are major descriptors in the character typology devised by C.G. Jung and extended by others. Apart from the dichotomies mentioned above, Jung’s typology also makes use of various emotional characteristics of human beings as descriptors of temperament or character. The study suggests that it is useful to identify websites in terms of the descriptors that Jung and others propose, and that different websites will display various “temperamental” differences that are as important for website design as is a clear understanding of the temperaments of its target users. By taking account of the most common temperamental differences in websites, it should be possible to maximise the efficiency and appearance of different kinds of websites such as those created for government agencies, banks, online shopping, social networking and search engines. / Dissertation (MIT)--University of Pretoria, 2008. / Informatics / unrestricted

Carl jung

Anthropomorphism

User interface design

Temperament

Personality

Human-computer interaction

Mbti

Website design

It

Website personality

UCTD

An Exploration of Interface Designs for the Dissemination of Information and News During COVID-19

Himes, Lucas S.

January 2021

No description available.

Design