A Development Methodology to Facilitate the Integration of Smart Spaces into the Web of Things

How to create or integrate large Smart Spaces (considered as mash-ups of sensors and actuators) into the paradigm of ?Web of Things? has been the motivation of many recent works. A cutting-edge approach deals with developing and deploying web-enabled embedded devices with two major objectives: 1) to integrate sensor and actuator technologies into everyday objects, and 2) to allow a diversity of devices to plug to Internet. Currently, developers who want to use this Internet-oriented approach need have solid understanding about sensorial platforms and semantic technologies. In this paper we propose a Resource-Oriented and Ontology-Driven Development (ROOD) methodology, based on Model Driven Architecture (MDA), to facilitate to any developer the development and deployment of Smart Spaces. Early evaluations of the ROOD methodology have been successfully accomplished through a partial deployment of a Smart Hotel.

Open Technologies for prototyping the Internet of Things

The worldwide "hyper-connection" of any object around us is the challenge that promises to cover the paradigm of the Internet of Things. If the Internet has colonized the daily life of more than 2000 million1 people around the globe, the Internet of Things faces of connecting more than 100000 million2 "things" by 2020. The underlying Internet of Things’ technologies are the cornerstone that promises to solve interrelated global problems such as exponential population growth, energy management in cities, and environmental sustainability in the average and long term. On the one hand, this Project has the goal of knowledge acquisition about prototyping technologies available in the market for the Internet of Things. On the other hand, the Project focuses on the development of a system for devices management within a Wireless Sensor and Actuator Network to offer some services accessible from the Internet. To accomplish the objectives, the Project will begin with a detailed analysis of various “open source” hardware platforms to encourage creative development of applications, and automatically extract information from the environment around them for transmission to external systems. In addition, web platforms that enable mass storage with the philosophy of the Internet of Things will be studied. The project will culminate in the proposal and specification of a service-oriented software architecture for embedded systems that allows communication between devices on the network, and the data transmission to external systems. Furthermore, it abstracts the complexities of hardware to application developers. RESUMEN. La “hiper-conexión” a nivel mundial de cualquier objeto que nos rodea es el desafío al que promete dar cobertura el paradigma de la Internet de las Cosas. Si la Internet ha colonizado el día a día de más de 2000 millones1 de personas en todo el planeta, la Internet de las Cosas plantea el reto de conectar a más de 100000 millones2 de “cosas” para el año 2020. Las tecnologías subyacentes de la Internet de las Cosas son la piedra angular que prometen dar solución a problemas globales interrelacionados como el crecimiento exponencial de la población, la gestión de la energía en las ciudades o la sostenibilidad del medioambiente a largo plazo. Este Proyecto Fin de Carrera tiene como principales objetivos por un lado, la adquisición de conocimientos acerca de las tecnologías para prototipos disponibles en el mercado para la Internet de las Cosas, y por otro lado el desarrollo de un sistema para la gestión de dispositivos de una red inalámbrica de sensores que ofrezcan unos servicios accesibles desde la Internet. Con el fin de abordar los objetivos marcados, el proyecto comenzará con un análisis detallado de varias plataformas hardware de tipo “open source” que estimulen el desarrollo creativo de aplicaciones y que permitan extraer de forma automática información del medio que les rodea para transmitirlo a sistemas externos para su posterior procesamiento. Por otro lado, se estudiarán plataformas web identificadas con la filosofía de la Internet de las Cosas que permitan el almacenamiento masivo de datos que diferentes plataformas hardware transfieren a través de la Internet. El Proyecto culminará con la propuesta y la especificación una arquitectura software orientada a servicios para sistemas empotrados que permita la comunicación entre los dispositivos de la red y la transmisión de datos a sistemas externos, así como facilitar el desarrollo de aplicaciones a los programadores mediante la abstracción de la complejidad del hardware.

Desarrollo de nueva funcionalidad e interfaz web y móvil para la API MappingAPI2

Vivimos en la era de la información y del internet, tenemos la necesidad cada vez mayor de conseguir y compartir la información que existe. Esta necesidad se da en todos los ámbitos existentes pero con más ahínco probablemente sea en el área de la medicina, razón por la cual se llevan a cabo muchas investigaciones de distinta índole, lo cual ha llevado a generar un cantidad inimaginable de información y esta su vez muy heterogénea, haciendo cada vez más difícil unificarla y sacar conocimiento o valor agregado. Por lo cual se han llevado a cabo distintas investigaciones para dar solución a este problema, quizás la más importante y con más crecimiento es la búsqueda a partir de modelos de ontologías mediante el uso de sistemas que puedan consultarla. Este trabajo de Fin de Master hace hincapié es la generación de las consultas para poder acceder a la información que se encuentra de manera distribuida en distintos sitios y de manera heterogénea, mediante el uso de una API que genera el código SPARQL necesario. La API que se uso fue creada por el grupo de informática biomédica. También se buscó una manera eficiente de publicar esta API para su futuro uso en el proyecto p-medicine, por lo cual se creó un servicio RESTful para permitir generar las consultas deseadas desde cualquier plataforma, haciendo en esto caso más accesible y universal. Se le dio también una interfaz WEB a la API que permitiera hacer uso de la misma de una manera más amigable para el usuario. ---ABSTRACT---We live in the age of information and Internet so we have the need to consult and share the info that exists. This need comes is in every scope of our lives, probably one of the more important is the medicine, because it is the knowledge area that treats diseases and it tries to extents the live of the human beings. For that reason there have been many different researches generating huge amounts of heterogeneous and distributed information around the globe and making the data more difficult to consult. Consequently there have been many researches to look for an answer about to solve the problem of searching heterogeneous and distributed data, perhaps the more important if the one that use ontological models. This work is about the generation of the query statement based on the mapping API created by the biomedical informatics group. At the same time the project looks for the best way to publish and make available the API for its use in the p-medicine project, for that reason a RESTful API was made to allow the generation of consults from within the platform, becoming much more accessible and universal available. A Web interface was also made to the API, to let access to the final user in a friendly

Marco de caracterización y cálculo de las métricas de calidad de los componentes web para el desarrollo de aplicaciones de usuario final

En la Web 2.0, donde usuarios finales sin grandes conocimientos de programación pueden interactuar y crear aplicaciones web utilizando componentes publicados en Internet, ofrecidos por una gran variedad de proveedores de servicio. La selección de estos componentes requiere de un análisis exhaustivo por parte de los usuarios sobre las propiedades de estos componentes en referencia a su calidad. En este proyecto, se presentan dos modelos de calidad según una estructura jerárquica, uno para componentes web como elementos autónomos y otro para componentes utilizados en aplicaciones de mashup, basado en un análisis de la emergente Web 2.0. Además, se define una herramienta de medición y anotación de calidad para los distintos niveles de los modelos. Estas herramientas pretenden ser un útil instrumento para los desarrolladores y usuarios de componentes y mashups.---ABSTRACT---In the Web 2.0, where end users without a technical programming background can interact and develop web applications leveraging web components published on the Internet, offered by a great diversity of service providers. This component selection requires an exhaustive analysis by these end users based on the requirements of these components related to their quality. In this work, two quality models are presented according to a hierarchical structure, one for web components as independent elements and another one for web components as parts of web mashup applications, based on an analysis of the emerging Web 2.0. In addition, a measuring and write down quality framework is defined to weigh the quality of all the levels of the models. These tools intend to provide a useful instrument to components and mashup developers and end users.

Evaluating a web-based clinical decision support system for language disorders screening in a nursery school

Background: Early and effective identification of developmental disorders during childhood remains a critical task for the international community. The second highest prevalence of common developmental disorders in children are language delays, which are frequently the first symptoms of a possible disorder. Objective: This paper evaluates a Web-based Clinical Decision Support System (CDSS) whose aim is to enhance the screening of language disorders at a nursery school. The common lack of early diagnosis of language disorders led us to deploy an easy-to-use CDSS in order to evaluate its accuracy in early detection of language pathologies. This CDSS can be used by pediatricians to support the screening of language disorders in primary care. Methods: This paper details the evaluation results of the ?Gades? CDSS at a nursery school with 146 children, 12 educators, and 1 language therapist. The methodology embraces two consecutive phases. The first stage involves the observation of each child?s language abilities, carried out by the educators, to facilitate the evaluation of language acquisition level performed by a language therapist. Next, the same language therapist evaluates the reliability of the observed results. Results: The Gades CDSS was integrated to provide the language therapist with the required clinical information. The validation process showed a global 83.6% (122/146) success rate in language evaluation and a 7% (7/94) rate of non-accepted system decisions within the range of children from 0 to 3 years old. The system helped language therapists to identify new children with potential disorders who required further evaluation. This process will revalidate the CDSS output and allow the enhancement of early detection of language disorders in children. The system does need minor refinement, since the therapists disagreed with some questions from the CDSS knowledge base (KB) and suggested adding a few questions about speech production and pragmatic abilities. The refinement of the KB will address these issues and include the requested improvements, with the support of the experts who took part in the original KB development. Conclusions: This research demonstrated the benefit of a Web-based CDSS to monitor children?s neurodevelopment via the early detection of language delays at a nursery school. Current next steps focus on the design of a model that includes pseudo auto-learning capacity, supervised by experts.