Next Generation Cloud Computing: New Trends and Research Directions

The landscape of cloud computing has significantly changed over the last decade. Not only have more providers and service offerings crowded the space, but also cloud infrastructure that was traditionally limited to single provider data centers is now evolving. In this paper, we firstly discuss the changing cloud infrastructure and consider the use of infrastructure from multiple providers and the benefit of decentralising computing away from data centers. These trends have resulted in the need for a variety of new computing architectures that will be offered by future cloud infrastructure. These architectures are anticipated to impact areas, such as connecting people and devices, data-intensive computing, the service space and self-learning systems. Finally, we lay out a roadmap of challenges that will need to be addressed for realising the potential of next generation cloud systems.Comment: Accepted to Future Generation Computer Systems, 07 September 201

Augmented reality over maps

Dissertação de mestrado integrado em Engenharia InformáticaMaps and Geographic Information System (GIS) play a major role in modern society, particularly on tourism, navigation and personal guidance. However, providing geographical information of interest related to individual queries remains a strenuous task. The main constraints are (1) the several information scales available, (2) the large amount of information available on each scale, and (3) difficulty in directly infer a meaningful geographical context from text, pictures, or diagrams that are used by most user-aiding systems. To that extent, and to overcome the aforementioned difficulties, we develop a solution which allows the overlap of visual information over the maps being queried — a method commonly referred to as Augmented Reality (AR). With that in mind, the object of this dissertation is the research and implementation of a method for the delivery of visual cartographic information over physical (analogue) and digital two-dimensional (2D) maps utilizing AR. We review existing state-of-art solutions and outline their limitations across different use cases. Afterwards, we provide a generic modular solution for a multitude of real-life applications, to name a few: museums, fairs, expositions, and public street maps. During the development phase, we take into consideration the trade-off between speed and accuracy in order to develop an accurate and real-time solution. Finally, we demonstrate the feasibility of our methods with an application on a real use case based on a map of the city of Oporto, in Portugal.Mapas e Sistema de Informação Geográfica (GIS) desempenham um papel importante na sociedade, particularmente no turismo, navegação e orientação pessoal. No entanto, fornecer informações geográficas de interesse a consultas dos utilizadores é uma tarefa árdua. Os principais dificuldades são (1) as várias escalas de informações disponíveis, (2) a grande quantidade de informação disponível em cada escala e (3) dificuldade em inferir diretamente um contexto geográfico significativo a partir dos textos, figuras ou diagramas usados. Assim, e para superar as dificuldades mencionadas, desenvolvemos uma solução que permite a sobreposição de informações visuais sobre os mapas que estão a ser consultados - um método geralmente conhecido como Realidade Aumentada (AR). Neste sentido, o objetivo desta dissertação é a pesquisa e implementação de um método para a visualização de informações cartográficas sobre mapas 2D físicos (analógicos) e digitais utilizando AR. Em primeiro lugar, analisamos o estado da arte juntamente com as soluções existentes e também as suas limitações nas diversas utilizações possíveis. Posteriormente, fornecemos uma solução modular genérica para uma várias aplicações reais tais como: museus, feiras, exposições e mapas públicos de ruas. Durante a fase de desenvolvimento, tivemos em consideração o compromisso entre velocidade e precisão, a fim de desenvolver uma solução precisa que funciona em tempo real. Por fim, demonstramos a viabilidade de nossos métodos com uma aplicação num caso de uso real baseado num mapa da cidade do Porto (Portugal)

Presence and agency in real and virtual spaces: The promise of extended reality for language learning

Augmented and virtual realities (together “extended reality”) offer language learners the opportunity to communicate and interact in real and virtual spaces. In augmented reality (AR), users view computer-generated layers added to a phone camera’s view of the world. Virtual reality (VR) immerses users in a 3D environment that might simulate aspects of the outside world or project an entirely imagined reality. This column looks at opportunities and challenges in the use of extended reality (XR) for second language learning. Opportunities include higher learner motivation and personal agency through XR uses that feature collaboration and open-ended interactions, particularly in simulations, games, and learner co-design. That direction offers more alignment with current theories of second language acquisition (SLA)–emphasizing holistic language development and ecological frameworks–than most commercial VR apps currently available. Those posit a linear language development and focus largely on vocabulary learning and language practice within closed role-play scenarios. Offering both AR and VR access, mixed reality may present opportunities to combine the best features of each medium. Advances in generative artificial intelligence (AI) provide additional possibilities for personalized language learning in a flexible and dynamic VR environment

Panoramic Augmented Reality for Persistence of Information in Counterinsurgency Environments (PARPICE)

Modern Counter-Insurgency (COIN) and Irregular Warfare (IW) are increasingly complex. Contributing to this complexity is the need to develop and maintain a mental map of relevant environmental and historical factors and their interactions, generated from disparate sources of information that must be organized, processed and integrated. Compounding this challenge is the fact that mental pictures cannot easily be passed from one soldier to the next. This is a problem when the tactical situation dictates frequent changes in unit Areas of Operations (AOs), and particularly in cases where units rotate on a regular basis. When units hand over an AO, the incoming unit must quickly rebuild a mental picture and narrative of its operating environment. Because of this, historical organizational knowledge is lost that could otherwise increase combat effectiveness and reduce casualties. This thesis discusses a prototype architecture for a system that will enable a vehicle crew commander to spatially input, organize and view fused tactical information through placement of 3D interactive symbols directly into the real-life on-site scene from the vehicle perspective. A panoramic camera, dashboard monitor and head tracker give the commander a complete view of the vehicle surroundings for improved situational awareness, and a 360-degree LiDAR scanner supplies depth information for accurate annotation geo-location. This system is intended to generate greater situational understanding of the complex environment present in COIN operations, in order to allow greater performance and survivability of the vehicle crew. Such a system, if fielded, can create the ability to add numerous other capabilities to the combat vehicle crew.http://archive.org/details/panoramicaugment109455057JIEDDO; HQDA G-8 CAAUS Army (USA) authorApproved for public release; distribution is unlimited

Design and creation of a virtual world of Petra, Jordan

Includes bibliographical references.This thesis presents the design and creation of a 3D virtual world of Petra, Jordan, based on the digital spatial documentation of this UNESCO World Heritage Site by the Zamani project. Creating digital records of the spatial domain of heritage sites is a well-established practice that employs the technologies of laser scanning, GPS and traditional surveys, aerial and close range photogrammetry, and 360-degree panorama photography to capture spatial data of a site. Processing this data to produce textured 3D models, sections elevations, GISs, and panorama tours to has led to the establishment of the field of virtual heritage. Applications to view this spatial data are considered too specialised to be used by the general public with only trained heritage practitioners being able to use the data. Additionally, data viewing platforms have not been designed to allow for the viewing of combinations of 3D data in an intuitive and engaging manner as currently each spatial data type must be viewed by independent software. Therefore a fully integrated software platform is needed which would allow any interested person, without prior training, easy access to a combination of spatial data, from anywhere in the world. This study seeks to provide a solution to the above requirement by using a game engine to assimilate spatial data of heritage sites in a 3D virtual environment where a virtual visitor is able to interactively engage with combinations of spatial data. The study first begins with an analysis of what virtual heritage applications, in the form of virtual environments, have been created, and the elements that were used in their creation. These elements are then applied to the design and creation of the virtual world of Petra

Game engine for location-based services

Tese de mestrado integrado. Engenharia Informática e Computação. Universidade do Porto. Faculdade de Engenharia. 201

Haptics Rendering and Applications

There has been significant progress in haptic technologies but the incorporation of haptics into virtual environments is still in its infancy. A wide range of the new society's human activities including communication, education, art, entertainment, commerce and science would forever change if we learned how to capture, manipulate and reproduce haptic sensory stimuli that are nearly indistinguishable from reality. For the field to move forward, many commercial and technological barriers need to be overcome. By rendering how objects feel through haptic technology, we communicate information that might reflect a desire to speak a physically- based language that has never been explored before. Due to constant improvement in haptics technology and increasing levels of research into and development of haptics-related algorithms, protocols and devices, there is a belief that haptics technology has a promising future

A Framework for Mobile Augmented Reality in Urban Maintenance

Mobile handheld devices such as smartphones have become increasingly powerful in modern times. Because of this, there has been a surge in 3D graphics-heavy mobile applications that aim to provide immersive experiences. An example of this phenomenon would be Augmented Reality (AR) applications, which have been increasingly popular and offer a wide array of use-cases. The ability to merge the real world with the virtual world seamlessly using the built-in camera of the smartphone brings a whole new world of possibilities, which makes it interesting to explore how such a technology could be used to solve real-world problems. This dissertation focuses on applying this technology in the field of urban maintenance. To do so, a mobile AR application was developed, designed to be used by urban maintenance workers as a field-assistance tool. Using any standard smartphone camera, the developed system can accurately detect any equipment and augment it with relevant information and step-by-step instructions on how to do any required maintenance jobs. Alongside this mobile application, a desktop application was also developed with the purposes of creating and authoring the data and augmentations that should be displayed during a given job, called Archer. Lastly, this dissertation proposes a novel approach to automatically detect and minimize the amount of points (checkpoints) at which the application will ask the user to perform a new equipment recognition, which are useful in order to maintain tracking stability as the user modifies the real-world object during the course of the job. The experiments and user tests conducted during the final stages of this dissertation demonstrate the accuracy and practicality of the developed systems, proving that they can effectively be used to greatly improve the workflow of urban maintenance workers.Dispositivos móveis tais como os smartphones têm-se tornado cada vez mais poderosos nos tempos modernos. Como tal, tem havido um grande aumento na quantidade de aplicações móveis 3D com o intuito de fornecer experiências imersivas. Um exemplo desse fenómeno são as aplicações de Realidade Aumentada (RA), as quais se têm tornado cada vez mais populares, oferecendo um vasto leque de casos de uso. A habilidade de fundir o mundo real com o mundo virtual através da câmara de um smartphone traz todo um novo mundo de possibilidades, o que torna interessante a exploração de como esta tecnologia pode ser usada para resolver problemas no mundo real. Esta dissertação foca-se na aplicação desta tecnologia na área da manutenção urbana. Nesse sentido, foi desenvolvida uma aplicação móvel de RA projetada para ser usada como uma ferramenta de assistência em campo por trabalhadores de manutenção urbana. Usando qualquer câmara de smartphone, este sistema consegue detetar qualquer equipamento de forma precisa e aumentá-lo digitalmente com informação relevante e instruções passo-a-passo de como fazer qualquer trabalho de manutenção. Juntamente com esta aplicação móvel, também foi desenvolvida uma aplicação para desktop — chamada Archer — com o intuito de criar e validar os dados e os objetos digitais que serão apresentados na aplicação mobile durante o curso de um trabalho de manutenção. Por fim, esta dissertação apresenta uma nova solução para a deteção e minimização automática dos pontos (checkpoints) em que a aplicação móvel deverá pedir ao utilizador para efetuar um novo reconhecimento do equipamento, os quais são úteis para manter um tracking fiável e estável à medida que o utilizador vai modificando o equipamento durante um trabalho. As experiências e testes com utilizadores efetuados na fase final desta dissertação demonstram a precisão e praticidade dos sistemas desenvolvidos, provando que estes podem efetivamente ser usados para melhorar o workflow dos trabalhadores de manutenção urbana