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651	User Interface Design for Quality Control : Development of a user interface for quality control of industrial manufactured parts Abrahamsson, Petter January 2020 (has links) The expected quality on manufactured components in the automotive industry is high, often with an accuracy of tenths of a millimeter. The conventional methods used to ensure the manufactured components are very accurate, but they are both time consuming and insufficient and only a small part of the produced series are analyzed today. The measurement is performed manually in so-called measurement fixtures. Where each component is fixed and predetermined points of investigation are controlled with a dial indicator. These fixtures are very expensive to manufacture and they are only compatible with one specific kind of component. Nowadays, great volumes of material are scrapped from these procedures in the automotive industry. Hence, there is a great need to increase the amount of controlled components without affecting the production rate negatively. This project was carried out for the relatively new company Viospatia, which is a spin-off company based on research from Luleå University of Technology. They have developed a system that automatically measures each component directly at the production line with the use of photogrammetry technology. This makes it possible to discover erroneous components almost immediately and the manufacturer gets a more distinct view of their production and its capability. The aim of this thesis has been to investigate how a user interface should be developed to be as user-friendly as possible without limiting the system’s functions. The objective has been to design a proposal of a user interface adapted for the intended user, creating value and is easy to use. The progression has been structured around a human-centered approach expedient for interaction design, where the developing phase, containing analyze, design and validate, is performed through iterations with continuous feedback from users and the project’s employer. The context, where the intended solution is supposed to be used, was investigated through interviews and observations at the involved companies. In the project there were three factories involved, Gestamp Hardtech and Scania Ferruform in Luleå and Volvo Cars in Olofström. These factories are using similar production methods, sheet metal stamping, so their prerequisites and needs are similar for this type of quality control system. Creative methods have been applied throughout the project to generate as much ideas as possible while trying to satisfy all the important aspects. Initially analog prototypes were created but they were soon developed to digital interactive prototypes. A larger usability-test was conducted with seven participants by using a weblink to the digital prototype. With support from the feedback these tests generated some adjustments were made and the final user interface was designed, separated in two levels - Supervisor and Operator. Through extensive literature study and user-testing it became clear that the operator needs to get an unmistakable message from the user interface. There should not be any doubts whatsoever and the operator should react immediately. This message is delivered with the use of colors that have an established meaning. By identifying what needs the different actors have, the system’s functions can be separated and made accessible only for the intended user. The functions can then be more specifically developed for the intended user instead of modifying them trying to make a compromise that fits everybody. This separation of functions is not anything the user has to actively do but it is performed automatically by the user interface when the user is signing in. / Den förväntade kvalitén på tillverkade delar inom bilindustrin är väldigt hög, med toleranser på så lite som tiondels millimeter många gånger. De konventionella metoderna som används för att kontrollmäta de tillverkade delarna idag är mycket noggranna, men de är både tidskrävande och otillräckliga och endast en väldigt liten del av en producerad serie blir kontrollmätt idag. Mätningen utförs manuellt i så kallade mätfixturer. Där varje komponent fixeras och förutbestämda undersökningspunkter kontrolleras med en så kallad mätklocka. Dessa fixturer är även väldigt dyra att tillverka och de är bara kompatibla med en specifik komponent. I dagens läge så kasseras otroligt stora mängder material från dessa komponenter inom bilindustrin. Här finns det alltså ett stort behov för att öka mängden komponenter som kontrolleras utan att påverka tillverkningstakten. Det här projektet utfördes åt det relativt nystartade företaget Viospatia, vilket är ett spin-off företag från forskning utförd vid Luleå tekniska universitet. De har utvecklat ett system som med hjälp av fotogrammetri automatiskt mäter av varje komponent direkt i produktionslinan. Detta gör att eventuella fel upptäcks nästan omedelbart samtidigt som tillverkaren får en tydligare bild av sin produktion och dess kapacitet. Syftet med denna masteruppsats har varit att undersöka hur ett gränssnitt bör utvecklas för att det ska bli så användarvänligt som möjligt utan att begränsa systemets viktiga funktioner. Målet har varit att ta fram ett förslag på ett gränssnitt som är anpassat för den tänkta användaren, som skapar ett mervärde och är enkelt att använda. Processen har följt en användarcentrerad struktur fördelaktig för interaktionsdesign, där utvecklingsfasen bestående av analys, design och validering sker i flera iterationer med kontinuerlig återkoppling med användare och uppdragsgivare. Kontexten, där den tänkta lösningen ska användas, undersöktes initialt hos de involverade företagen. I projektet var tre fabriker involverade, Gestamp Hardtech och Scania Ferruform i Luleå och Volvo Cars i Olofström. Dessa fabriker använder mestadels liknande tillverkningsmetoder, metallpressning, vilket gör att de rimligtvis har en del gemensamma förutsättningar och behov. Under arbetets gång har diverse kreativa metoder använts för att generera så mycket idéer som möjligt utan att förbise viktiga aspekter. Till en början utvecklades prototyper analogt för att sedan utvecklas till digitala interaktiva prototyper. Ett större användbarhetstest genomfördes på distans med sju testpersoner via en länk till den digitala prototypen. Med hjälp av responsen från dessa tester gjordes en del ändringar och den slutliga designen på gränssnittet blev uppdelat i två nivåer, Supervisor och Operator. Genom teoristudie och användartester framgick det att operatören behöver få en omisskännlig uppmaning från gränssnittet. Det bör inte uppstå några som helst tveksamheter och operatören skall kunna agera direkt. Denna uppmaning sker genom en tydlig färgkodning som utnyttjar vedertagna uppfattningar om färgers innebörd. Genom att identifiera vilka behov de olika aktörerna har kan man på så sätt också hålla isär de olika funktionerna och göra de tillgängliga endast för den typen av aktör som behöver de. De kan på så sätt också utvecklas mer specifikt för den tänkta aktören istället för att modifieras för att passa alla. Denna separering av funktioner är inget som användaren behöver ställa in själv utan görs automatiskt då den loggar in med sitt användarkonto. industrial design engineering human-centered design graphical user interface digital prototypes quality control automotive industry sus-evaluation Other Engineering and Technologies Annan teknik
652	Designing a Shared Listening Experience for an Audiobook Streaming Service : A UX and UI Project Eriksson, Mikaela, Reponen, Vilma January 2021 (has links) This study, done in collaboration with Storytel, aimed to investigate whether a shared audiobook live listening experience would add value to users of the Storytel app and how such a feature could be designed in terms of User Experience and User Interface. The purpose was to determine the minimal viable product (MVP) and if live listening with others is interesting in itself or else, what is the most basic interaction type required in connection to the listening. The aim was also to design the optimal solution, beyond technical, time and/or prioritization constraints. The method used was a combination of the IDEO design process with three phases (Inspiration, Ideation and Implementation), and Holtzblatt and Beyer’s (2016) five steps of Contextual Design (Gathering User Data, Compiling User Data, Ideation with User Data, Defining the Product and Making it Real). To investigate user opinions and requirements, surveys were sent out to Storytel users and authors on the four markets Sweden, Denmark, the Netherlands and India, resulting in a total of 448 responses. Based on this data, an extensive design work in three phases was carried out to achieve the result of a final design prototype of a live listening feature inside the Storytel app. In order to validate the design choices continuously in each phase, 15 user tests were achieved, whereof 4 initial tests, 10 interactive user tests and 1 focus group interview. The results show that there is certainly an interest for such a feature among some users, and the interest is bigger if an author participates. In general, users on the Indian market are more interested in the feature than users on the European markets. Authors are more interested than the average user in live listening and interacting with its listeners. An important finding was that the feature must include an element of interaction to make it relevant and interesting to users, which is why a prototype including emoji reactions was proposed as an MVP. In this version, the possibility to discuss is linked to an outsourced forum such as Google Meet. For the optimal design, a chat was included inside the application as this was concluded highly desired by users. User Experience User Interface UX UI Design Personas User Research User Testing Iterative Design Contextual Design Prototyping Mobile Application Figma Sketch Protopie Storytel Engineering and Technology Teknik och teknologier
653	User Interface Design for Promoting Wellness : An Application User Interface with a Focus on Usability and Encouragement of Physical Activity Nyman, Ida, Norén, Malin January 2021 (has links) Good health amongst employees is essential for an organization, and it is well known that exercise and daily movement have an enormous impact on our health. Physical activity can decrease sick leave and give the employees more energy for their work. At CGI in Karlstad, they have developed an exercise logger called CGIMoving to encourage an active lifestyle in the workplace. In this application, the logged exercises generate points that later are converted to different prizes depending on the amount of activity the user has logged. The vision is to extend the use of this application to more offices in the organization and sell it to other companies. In this master thesis project, the current user interface of CGIMoving was examined and redesigned. The aim was to create a user-friendly interface and explore new features that can increase participation in wellness activities. The work was done during the fall term of 2020 within the degree of Industrial Design Engineering at Luleå University of Technology. The project was performed based on a design thinking process divided into three main phases; understand, explore, and materialize. These phases included methods such as user interviews, prototyping, and usability testing. The focus in this process was to understand user needs to improve the user experience of the application. Therefore, users were involved in multiple stages of the design process - from start to finish. In addition to this, relevant theories such as UX- and UI-design, visual design, information architecture, nudging and motivation were researched through a literature review. This project resulted in a new user interface for the CGIMoving application compatible with computer- and smartphone screens. The redesign includes features for interaction between users, the possibility to set goals and see progress. Moreover, the redesigned user interface has an engaging visual design, and contains more feedback to the user than before. The changes in the design were made to create an improved user experience based on research and user testing and thereby increase the use. / En god hälsa bland anställda är avgörande för en organisation, och det är välkänt att motion och daglig rörelse har en enorm inverkan på vår hälsa. Fysisk aktivitet kan minska sjukfrånvaron och ge de anställda mer energi till sitt arbete. På CGI i Karlstad har de utvecklat en träningsloggare som heter CGIMoving för att uppmuntra till en aktiv livsstil på arbetsplatsen. I den här applikationen genererar de loggade övningarna poäng som senare omvandlas till olika priser beroende på hur mycket aktivitet användaren har loggat. Visionen är att utvidga användningen av denna applikation till fler kontor i organisationen och sälja den till andra företag. I detta examensarbete undersöktes och omformades det nuvarande användargränssnittet för CGIMoving. Målet var att skapa ett användarvänligt gränssnitt och utforska nya funktioner som kan öka deltagandet i hälsoaktiviteter. Arbetet utfördes under höstterminen år 2020 på civilingenjörsprogrammet i Teknisk Design vid Luleå tekniska universitet. Projektet genomfördes baserat på en Design thinking process uppdelad i tre huvudfaser; förstå, utforska och materialisera. Dessa faser inkluderade metoder som användarintervjuer, prototyper och användbarhetstestning. Fokus i denna process var att förstå användarnas behov för att förbättra användarupplevelsen av applikationen. Därför var användarna involverade i flera steg i designprocessen - från början till slut. Utöver detta, relevanta teorier som UX- och UI-design, visuell design, informationsarkitektur, nudging och motivation undersöktes genom en litteraturstudie. Detta projekt resulterade i ett nytt användargränssnitt för CGIMoving som är kompatibel med dator- och smarttelefonskärmar. Omformningen innehåller funktioner för interaktion mellan användare, möjligheten att sätta mål och se framsteg. Dessutom har det omdesignade användargränssnittet en engagerande visuell design och innehåller mer feedback till användaren än tidigare. Ändringarna i designen gjordes för att skapa en förbättrad användarupplevelse baserad på forskning och användartester och därmed öka användningen. Industrial design engineering user experience user interface usability nudging motivation workout application Teknisk design användarupplevelse användargränssnitt användbarhet nudging motivation träningsapplikation Engineering and Technology Teknik och teknologier Design Design
654	Evaluation and redesign of an interactive system by applying HCI principles Yatam, Sagar Premchand January 2021 (has links) The aim of this thesis is to redesign an interactive system “Arngren website” (https://arngren.net/), based on usability evaluation. Survey is used to perform the evaluation of the website to identify the usability problems. Based on the results obtained in the evaluation process, better suggestions are given to redesigning the interactive system’s user interface by applying Human-Computer Interaction (HCI) design principles. Prototyping method is used to redesign the interactive system. After redesigning the existing website, it is also subjected to the survey and results are presented in the report. HCI principles Survey evaluation User interface Prototyping model Redesign Computer Sciences Datavetenskap (datalogi) Human Computer Interaction Other Computer and Information Science Annan data- och informationsvetenskap
655	House Configurator Interface : User Experience Design for the Interface of a House Configurator Troive, Frida January 2021 (has links) Building a house is a demanding process with a lot to learn, and many expensive decisions that have to be made. One of them is to choose which house to buy and what it should look like. Many house companies offer via the website a house configurator where the house buyer can test different combinations of choices and see what it would look like. Neava Studios is a company that offers such a tool, Design Studio, which they sell to house companies. The unique thing about this house configurator is that instead of showing fixed example views for each configurable part of the house, it presents photorealistic 360-degree renderings from several different positions in the house. When the house configurator Design Studio is sold to a house company, it is presented through a demo version of the product. The user interface that belongs to the demo was created temporarily and needs to be redesigned with a focus on the end-user experience. In this master thesis, the aim has been to create a better experience for house buyers in the situation of building a house. With the goal of developing a concept for a user interface that is visualized and tested through an interactive prototype. The work has followed an iterative user-centered Design thinking process with five different phases: empathize, define, ideate, prototype and test. In the first phase, empathy was created with house buyers through interviews and surveys and by analysing that information. In the second phase, the primary needs were defined to be used as a basis in the third phase, where ideas for solutions were developed. Two prototypes were created and tested to result in a winning concept that was improved and visualized in an interactive prototype. The final result is a standard user interface for the demo version of Design Studio where the house buyers’ experience has been in focus. This has been done by working with the house buyers’ needs combined with research on user experience and user interface, among other things. The features in the product are combined and clustered to a few, placed in intuitive locations, resulting in an intuitive layout where the user has a good overview. The same applies with the menu that is given a large space for the user to have an overview of the choices, without taking up too much space on the screen. The explorer mode is integrated into the configurating mode for the user to access it, creating control and freedom while making choices. The price is extended to present the price for every room, giving the user more control to stick to their budget. / Att bygga hus är en krävande process med mycket att sätta sig in i, och många och dyra beslut som måste tas. Ett av dem är att välja vilket hus man ska köpa och hur det ska se ut. Många husföretag erbjuder via hemsidan en huskonfigurator där husköparen kan testa olika kombinationer av val och se hur det skulle se ut. Neava Studios är ett företag som erbjuder ett sådant verktyg, Design Studio, som de säljer till husföretag. Det unika med den här huskonfiguratorn är att den i stället för att visa fasta exempelvyer för varje konfigurerbar del av huset, presenterar fotorealistiska 360-gradersrendreringar från flera olika positioner i huset. När huskonfiguratorn Design Studio säljs till ett husföretag presenteras den genom en demoversion av produkten. Användargränssnittet som hör till demon skapades provisoriskt och behöver designas om med fokus på slutanvändarens upplevelse. I det här examensarbetet har syftet varit att skapa en bättre upplevelse för husköparna i situationen av att bygga hus. Med målet att ta fram ett koncept för ett användargränssnitt som visualiseras och testas genom en interaktiv prototyp. Arbetet har följt en iterativ användarcentrerad Design thinking-process med fem olika faser: empatisera, definiera, idégenerera, prototypa och testa. I den första fasen skapades empati med husköpare genom intervjuer och enkät och genom att analysera den informationen. I den andra fasen togs de primära behoven fram för att användas som grund i tredje fasen där idéer på lösningar togs fram. Två prototyper skapades och testades för att till slut resultera i ett vinnande koncept som förbättrades och visualiserades i en interaktiv prototyp. Det slutliga resultatet är ett standardanvändargränssnitt för demoversionen av Design Studio där husköparnas upplevelse har varit i fokus. Det har gjorts genom att utgå från husköparnas behov och forskning inom bland annat användarupplevelse och användargränssnitt. Funktionerna i produkten har kombinerats och grupperas till ett fåtal, placeras på intuitiva platser, vilket resulterar i en intuitiv layout där användaren har en bra överblick. Detsamma gäller menyn som ger ett stort utrymme för användaren att ha en översikt över valen, utan att ta upp för mycket utrymme på skärmen. Utforskarläget är integrerat i konfigureringsläget för användaren att få åtkomst till det, vilket skapar kontroll och frihet samtidigt som man gör val. Priset utökas för att presentera priset för varje rum, vilket ger användaren mer kontroll för att hålla sig till sin budget. Industrial Design Engineering House Configurator User Experience Usability User Interface Teknisk Design Huskonfigurator Användarupplevelse Användbarhet Användargränssnitt Interaction Technologies Interaktionsteknik Design Design
656	Aplikace rozšířené reality: Měření rozměrů objektů / Application of Augmented Reality: Measurement of Object Dimensions Karásek, Miroslav January 2019 (has links) The goal of this diploma thesis is design and implementation of an application for automated measurement of objects in augmented reality. It focuses on automating the entire process, so that the user carries out the fewest number of manual actions. The proposed interface divides the measurement into several steps in which it gives the user instructions to progress to the next stage. The result is an Android application with ARCore technology. Is capable of determining the minimal bounding box of an object of a general shape lying on a horizontal surface. Measure error depends on ambient conditions and is in units of percent.
657	Teleoperační rozhraní pro řízení robotického vozidla s využitím virtuální reality / Teleoperation Interface for a Semi-Autonomous Vehicle Using Virtual Reality Revický, Peter January 2019 (has links) The goal of this work is to come up with user interface in virtual reality for vehicle robot teleoperation that is equipped with cameras, Velodyne laser distance meter and localization system. The user interface is designed with generally accepted methods for creation of user interfaces in virtual reality. This work also deals with the problem of sickness from VR. The user interface is implemented in Unity3D game engine. The HTC Vive Pro virtual reality kit was used during implementation and testing.
658	Řízení a měření sportovních drilů hlasem/zvuky / Controlling and Measuring Sport Drills by Voice/Sound Odehnal, Jiří January 2019 (has links) This master's thesis deals with the design and development of mobile aplication for Android platform. The aim of the work is to implement a simple and user-friendly user interface that would support and assist the user in trainning and sport exercises. The thesis also include implementation of sound detection to support during exercises and voice instruction by application. In practice the application should help in making training exercises more comfortable without the user being forced to keep mobile device in hand.
659	Ruční dálkový ovladač pro robot Perseus / Operator's station for Perseus mobile robot Sabó, Marek January 2019 (has links) This thesis deals with the design and implementation of application for control of mobile robot. In the introductory section is discussed used platform GEARS-SMP, the principle of functionality of protocol for servo motors control, format M-JPEG and standard H.264. Further work is dedicated to analysis of designing user interface in robotic applications, available options for control devices and hardware used in remote controller. The following part focuses on the design of robotic application, especially on graphic user interface and virtual head-up display and follow-up implementation of created application in Raspberry Pi. In the end, thesis describes implemented software solution and compares resulting application with the created design.
660	Pokročilá analýza signálů z laboratoře chůze. / Advanced analysis of signals from gait laboratory. Húsková, Michaela January 2019 (has links) The aim of the thesis is a realization of advanced analysis of signals from gait laboratory. The introductory part deals with the gait cycle and its relation to the joints kinematic is discussed. Additionally, the work is focused on the description of the gait laboratory and the definition of the indexes in order to quantify patient´s overall gait in kinematic analysis. In the practical part, kinematic data analysis was implemented in the MATLAB environment and the results of healthy individuals and patients with cerebral palsy were compared. Kinematic analysis included peak detection in specific kinematic variables. In the last part a graphical user interface for visualization was implemented.

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