136 resultados para interoperable
Resumo:
Several standards have appeared in recent years to formalize the metadata of learning objects, but they are still insufficient to fully describe a specialized domain. In particular, the programming exercise domain requires interdependent resources (e.g. test cases, solution programs, exercise description) usually processed by different services in the programming exercise lifecycle. Moreover, the manual creation of these resources is time-consuming and error-prone, leading to an obstacle to the fast development of programming exercises of good quality. This chapter focuses on the definition of an XML dialect called PExIL (Programming Exercises Interoperability Language). The aim of PExIL is to consolidate all the data required in the programming exercise lifecycle from when it is created to when it is graded, covering also the resolution, the evaluation, and the feedback. The authors introduce the XML Schema used to formalize the relevant data of the programming exercise lifecycle. The validation of this approach is made through the evaluation of the usefulness and expressiveness of the PExIL definition. In the former, the authors present the tools that consume the PExIL definition to automatically generate the specialized resources. In the latter, they use the PExIL definition to capture all the constraints of a set of programming exercises stored in a learning objects repository.
Resumo:
MSc. Dissertation presented at Faculdade de Ciências e Tecnologia of Universidade Nova de Lisboa to obtain the Master degree in Electrical and Computer Engineering
Resumo:
To make full use of research data, the bioscience community needs to adopt technologies and reward mechanisms that support interoperability and promote the growth of an open 'data commoning' culture. Here we describe the prerequisites for data commoning and present an established and growing ecosystem of solutions using the shared 'Investigation-Study-Assay' framework to support that vision.
Resumo:
This paper presents a new approach to achieving interoperability between Web-based construction products catalogues. It first introduces the current development of electronic catalogues of construction products. The common system architecture of Web-based electronic products catalogues is discussed, which is followed by a discussion on construction products information standardization and the latest distributed-systems technologies for the communication and exchange of construction products information. The latter part of this paper presents a model of interoperable Web-based construction products catalogue and an implementation of Web services in E-commerce systems to enable the sharing of construction products information.
Resumo:
In order to best utilize the limited resource of medical resources, and to reduce the cost and improve the quality of medical treatment, we propose to build an interoperable regional healthcare systems among several levels of medical treatment organizations. In this paper, our approaches are as follows:(1) the ontology based approach is introduced as the methodology and technological solution for information integration; (2) the integration framework of data sharing among different organizations are proposed(3)the virtual database to realize data integration of hospital information system is established. Our methods realize the effective management and integration of the medical workflow and the mass information in the interoperable regional healthcare system. Furthermore, this research provides the interoperable regional healthcare system with characteristic of modularization, expansibility and the stability of the system is enhanced by hierarchy structure.
Resumo:
Breakthrough advances in microprocessor technology and efficient power management have altered the course of development of processors with the emergence of multi-core processor technology, in order to bring higher level of processing. The utilization of many-core technology has boosted computing power provided by cluster of workstations or SMPs, providing large computational power at an affordable cost using solely commodity components. Different implementations of message-passing libraries and system softwares (including Operating Systems) are installed in such cluster and multi-cluster computing systems. In order to guarantee correct execution of message-passing parallel applications in a computing environment other than that originally the parallel application was developed, review of the application code is needed. In this paper, a hybrid communication interfacing strategy is proposed, to execute a parallel application in a group of computing nodes belonging to different clusters or multi-clusters (computing systems may be running different operating systems and MPI implementations), interconnected with public or private IP addresses, and responding interchangeably to user execution requests. Experimental results demonstrate the feasibility of this proposed strategy and its effectiveness, through the execution of benchmarking parallel applications.
Resumo:
Smart Environments are currently considered a key factor to connect the physical world with the information world. A Smart Environment can be defined as the combination of a physical environment, an infrastructure for data management (called Smart Space), a collection of embedded systems gathering heterogeneous data from the environment and a connectivity solution to convey these data to the Smart Space. With this vision, any application which takes advantages from the environment could be devised, without the need to directly access to it, since all information are stored in the Smart Space in a interoperable format. Moreover, according to this vision, for each entity populating the physical environment, i.e. users, objects, devices, environments, the following questions can be arise: “Who?”, i.e. which are the entities that should be identified? “Where?” i.e. where are such entities located in physical space? and “What?” i.e. which attributes and properties of the entities should be stored in the Smart Space in machine understandable format, in the sense that its meaning has to be explicitly defined and all the data should be linked together in order to be automatically retrieved by interoperable applications. Starting from this the location detection is a necessary step in the creation of Smart Environments. If the addressed entity is a user and the environment a generic environment, a meaningful way to assign the position, is through a Pedestrian Tracking System. In this work two solution for these type of system are proposed and compared. One of the two solution has been studied and developed in all its aspects during the doctoral period. The work also investigates the problem to create and manage the Smart Environment. The proposed solution is to create, by means of natural interactions, links between objects and between objects and their environment, through the use of specific devices, i.e. Smart Objects
Resumo:
Any new hospital communication architecture has to support existing services, but at the same time new added features should not affect normal tasks. This article deals with issues regarding old and new systems’ interoperability, as well as the effect the human factor has in a deployed architecture. It also presents valuable information, which is a product of a real scenario. Tracking services are also tested in order to monitor and administer several medical resources.
Resumo:
MPEG-M is a suite of ISO/IEC standards (ISO/IEC 23006) that has been developed under the auspices of Moving Picture Experts Group (MPEG). MPEG-M, also known as Multimedia Service Platform Technologies (MSPT), facilitates a collection of multimedia middleware APIs and elementary services as well as service aggregation so that service providers can offer users a plethora of innovative services by extending current IPTV technology toward the seamless integration of personal content creation and distribution, e-commerce, social networks and Internet distribution of digital media.
Resumo:
La mejora de las tecnologías ha tenido un importante impacto en Internet, así como en el número de usuarios. Este crecimiento sigue en aumento y se estima que en 2020 se alcancen 50 billones de dispositivos conectados a Internet, este impulso es en parte gracias a la interconexión de las “máquinas” entre ellas y con Internet, el concepto denominado M2M. Esta conexión entre dispositivos ofrece la posibilidad de mejorar los servicios dados a los usuarios y crear nuevos. Existen importantes alicientes en la evolución de M2M, sobre todo guiada por la gran cantidad de posibilidades ofrecidas y los beneficios que conllevan, sin embargo la falta de estandarización y horizontalidad se presentan como un problema para el crecimiento e implantación de M2M debido a la gran variedad de “maquinas” conectadas. El objetivo de este Proyecto Fin de Carrera es diseñar una plataforma que sea capaz de abarcar las funcionalidades que den soporte a las distintas necesidades de varias aplicaciones M2M, consiguiendo una arquitectura software horizontal que reutilice al máximo las funcionalidades comunes entre las aplicaciones cubiertas. De esta manera se presenta una solución a la falta de horizontalidad en las plataformas M2M. Este Proyecto Fin de Carrera está dividido en varias partes. Se comenzará con una introducción que sitúa en el contexto tecnológico de M2M en forma de estudio de estado del arte, abarcando los principales temas y conceptos relacionados con Machine-to-Machine. Posteriormente se realiza una propuesta de una arquitectura software M2M que permite focalizar los esfuerzos de la misma en un concentrado grupo de sectores y aplicaciones. A continuación se estudian las necesidades de los sectores y aplicaciones seleccionadas y se desarrollan las funcionalidades que incluye la plataforma, de esta manera se alcanza un modelo de arquitectura horizontal que es capaz de cubrir varios sectores. Se estudian los distintos resultados obtenidos en el desarrollo de la plataforma,validando el modelo obtenido con los resultados esperados. Finalmente se enunciarán los próximos pasos a seguir para la implementación de la plataforma. ABSTRACT. The development of technology has had an important impact on Internet, as well as on the number of users. This growth is increasing and it is estimated to reach 50 billion remotely connected devices by 2020, this momentum is partially due to interconnection between "machines" and their connection with internet, this concept is called M2M. The connection between devices gives the possibility to improve the services offered to users and to create new services. There are important incentives in the M2M evolution, mainly driven by the big amount of benefits offered; however the lack of standardization and horizontalization is a problem for the M2M growth and deployment due to the big variety of connected "machines". The aim of this Degree Project is to design a platform that will be capable of including the functionalities that will give support to the different needs of several M2M applications, achieving a horizontal software architecture that reuses the common functionalities between the applications supported. This architecture will be presented as a solution to the lack of horizontalization in M2M. This Degree Project is divided in several parts. It starts with an introduction that will place the reader in state of the art of the M2M technology context, covering the main themes and related concepts. After this introduction, a proposal of a horizontal M2M software architecture will be presented, that will allow to focus the efforts on a group of selected sectors and applications. Then, the needs of sectors and applications will be studied, and the main functionalities will be developed, in this way a model for a horizontal architecture will be reached, that will be able to cover several sectors. The resulting platform will be studied, in order to validate the model obtained with the expected results. Finally, the next steps to implement the platform are described.
