GPU-based Image Analysis on Mobile Devices

With the rapid advances in mobile technology many mobile devices are capable of capturing high quality images and video with their embedded camera. This paper investigates techniques for real-time processing of the resulting images, particularly on-device utilizing a graphical processing unit. Issues and limitations of image processing on mobile devices are discussed, and the performance of graphical processing units on a range of devices measured through a programmable shader implementation of Canny edge detection.Comment: Proceedings of Image and Vision Computing New Zealand 201

Applying Augmented Reality to Outdoors Industrial Use

Augmented Reality (AR) is currently gaining popularity in multiple different fields. However, the technology for AR still requires development in both hardware and software when considering industrial use. In order to create immersive AR applications, more accurate pose estimation techniques to define virtual camera location are required. The algorithms for pose estimation often require a lot of processing power, which makes robust pose estimation a difficult task when using mobile devices or designated AR tools. The difficulties are even larger in outdoor scenarios where the environment can vary a lot and is often unprepared for AR. This thesis aims to research different possibilities for creating AR applications for outdoor environments. Both hardware and software solutions are considered, but the focus is more on software. The majority of the thesis focuses on different visual pose estimation and tracking techniques for natural features. During the thesis, multiple different solutions were tested for outdoor AR. One commercial AR SDK was tested, and three different custom software solutions were developed for an Android tablet. The custom software solutions were an algorithm for combining data from magnetometer and a gyroscope, a natural feature tracker and a tracker based on panorama images. The tracker based on panorama images was implemented based on an existing scientific publication, and the presented tracker was further developed by integrating it to Unity 3D and adding a possibility for augmenting content. This thesis concludes that AR is very close to becoming a usable tool for professional use. The commercial solutions currently available are not yet ready for creating tools for professional use, but especially for different visualization tasks some custom solutions are capable of achieving a required robustness. The panorama tracker implemented in this thesis seems like a promising tool for robust pose estimation in unprepared outdoor environments.Lisätyn todellisuuden suosio on tällä hetkellä kasvamassa usealla eri alalla. Saatavilla olevat ohjelmistot sekä laitteet eivät vielä riitä lisätyn todellisuuden soveltamiseen ammattimaisessa käytössä. Erityisesti posen estimointi vaatii tarkempia menetelmiä, jotta immersiivisten lisätyn todellisuuden sovellusten kehittäminen olisi mahdollista. Posen estimointiin (laitteen asennon- sekä paikan arviointiin) käytetyt algoritmit ovat usein monimutkaisia, joten ne vaativat merkittävästi laskentatehoa. Laskentatehon vaatimukset ovat usein haasteellisia varsinkin mobiililaitteita sekä lisätyn todellisuuden laitteita käytettäessä. Lisäongelmia tuottaa myös ulkotilat, jossa ympäristö voi muuttua usein ja ympäristöä ei ole valmisteltu lisätyn todellisuuden sovelluksille. Diplomityön tarkoituksena on tutkia mahdollisuuksia lisätyn todellisuuden sovellusten kehittämiseen ulkotiloihin. Sekä laitteisto- että ohjelmistopohjaisia ratkaisuja käsitellään. Ohjelmistopohjaisia ratkaisuja käsitellään työssä laitteistopohjaisia ratkaisuja laajemmin. Suurin osa diplomityöstä keskittyy erilaisiin visuaalisiin posen estimointi tekniikoihin, jotka perustuvat kuvasta tunnistettujen luonnollisten piirteiden seurantaan. Työn aikana testattiin useita ratkaisuja ulkotiloihin soveltuvaan lisättyyn todellisuuteen. Yhtä kaupallista työkalua testattiin, jonka lisäksi toteutettiin kolme omaa sovellusta Android tableteille. Työn aikana kehitetyt sovellukset olivat yksinkertainen algoritmi gyroskoopin ja magnetometrin datan yhdistämiseen, luonnollisen piirteiden seuranta-algoritmi sekä panoraamakuvaan perustuva seuranta-algoritmi. Panoraamakuvaan perustuva seuranta-algoritmi on toteuteutettu toisen tieteellisen julkaisun pohjalta, ja algoritmia jatkokehitettiin integroimalla se Unity 3D:hen. Unity 3D-integrointi mahdollisti myös sisällön esittämisen lisätyn todellisuuden avulla. Työn lopputuloksena todetaan, että lisätyn todellisuuden teknologia on lähellä pistettä, jossa lisätyn todellisuuden työkaluja voitaisiin käyttää ammattimaisessa käytössä. Tällä hetkellä saatavilla olevat kaupalliset työkalut eivät vielä pääse ammattikäytön vaatimalle tasolle, mutta erityisesti visualisointitehtäviin soveltuvia ei-kaupallisia ratkaisuja on jo olemassa. Lisäksi työn aikana toteutetun panoraamakuviin perustuvan seuranta-algoritmin todetaan olevan lupaava työkalu posen estimointiin ulkotiloissa.Siirretty Doriast

Vision based 3D Gesture Tracking using Augmented Reality and Virtual Reality for Improved Learning Applications

3D gesture recognition and tracking based augmented reality and virtual reality have become a big interest of research because of advanced technology in smartphones. By interacting with 3D objects in augmented reality and virtual reality, users get better understanding of the subject matter where there have been requirements of customized hardware support and overall experimental performance needs to be satisfactory. This research investigates currently various vision based 3D gestural architectures for augmented reality and virtual reality. The core goal of this research is to present analysis on methods, frameworks followed by experimental performance on recognition and tracking of hand gestures and interaction with virtual objects in smartphones. This research categorized experimental evaluation for existing methods in three categories, i.e. hardware requirement, documentation before actual experiment and datasets. These categories are expected to ensure robust validation for practical usage of 3D gesture tracking based on augmented reality and virtual reality. Hardware set up includes types of gloves, fingerprint and types of sensors. Documentation includes classroom setup manuals, questionaries, recordings for improvement and stress test application. Last part of experimental section includes usage of various datasets by existing research. The overall comprehensive illustration of various methods, frameworks and experimental aspects can significantly contribute to 3D gesture recognition and tracking based augmented reality and virtual reality.Peer reviewe

A Modular Approach to the Development of Interactive Augmented Reality Applications.

Augmented reality (AR) technologies are becoming increasingly popular as a result of the increase in the power of mobile computing devices. Emerging AR applications have the potential to have an enormous impact on industries such as education, healthcare, research, training and entertainment. There are currently a number of augmented reality toolkits and libraries available for the development of these applications; however, there is currently no standard tool for development. In this thesis we propose a modular approach to the organization and development of AR systems in order to enable the creation novel AR experiences. We also investigate the incorporation of the framework that resulted from our approach into game engines to enable the creation and visualization of immersive virtual reality experiences. We address issues in the development process of AR systems and provide a solution for reducing the time, cost and barrier of entry for development while simultaneously providing a framework in which researchers can test and apply advanced augmented reality technologies