Contextual intelligent load management with ANN adaptive learning module

With the current increase of energy resources prices and environmental concerns intelligent load management systems are gaining more and more importance. This paper concerns a SCADA House Intelligent Management (SHIM) system that includes an optimization module using deterministic and genetic algorithm approaches. SHIM undertakes contextual load management based on the characterization of each situation. SHIM considers available generation resources, load demand, supplier/market electricity price, and consumers’ constraints and preferences. The paper focus on the recently developed learning module which is based on artificial neural networks (ANN). The learning module allows the adjustment of users’ profiles along SHIM lifetime. A case study considering a system with fourteen discrete and four variable loads managed by a SHIM system during five consecutive similar weekends is presented.

Resposta contextual automática a mensagens electrónicas

A evolução tecnológica, associada às mudanças sociais a que temos assistido, nomeadamente nas últimas décadas, originou mudanças significativas na forma como os utentes interagem com as instituições, passando a privilegiar a utilização de meios electrónicos, tais como as mensagens de correio electrónico, em detrimento de formas mais tradicionais, como a carta e o telefone. Neste contexto, sendo o ISEP uma instituição de ensino superior que alberga milhares de alunos e recebe centenas de novos alunos todos os anos, necessita de ter condições para que possa responder de forma atempada às inúmeras mensagens de correio electrónico que recebe. Esta necessidade fez com que surgisse um projecto, de nome SiRAC, que servisse para auxiliar na resposta a essas mensagens. O SiRAC tem como objectivo responder a mensagens de correio electrónico de forma automática. De salientar que se admite não ser possível responder a todas as mensagens, privilegiando-se aquelas que são recorrentemente colocadas à Divisão Académica. Assim será possível encurtar o tempo de comunicação entre os diversos intervenientes, criando uma relação mais próxima entre o ISEP e o público que o contacta. O SiRAC analisa as mensagens e procura responder de forma automática sempre que o seu conteúdo possa ser classificado como fazendo parte de um conjunto de questões previamente identificadas pelos recursos humanos da Divisão Académica como recorrentes e para as quais já exista uma resposta tipo. As questões constantes da mensagem são identificadas através de palavras e expressões normalmente associadas aos diferentes tipos de questão. O envio da resposta pressupõe a identificação correcta dos tipos associados e de acordo com requisitos mínimos definidos, de forma a evitar enviar uma resposta errada a uma mensagem. A implementação do SiRAC permite a libertação de recursos humanos da Divisão Académica que anteriormente estavam afectas à resposta de mensagens para o desempenho de outras funções.

Distribution system operation supported by contextual energy resource management based on intelligent SCADA

Future distribution systems will have to deal with an intensive penetration of distributed energy resources ensuring reliable and secure operation according to the smart grid paradigm. SCADA (Supervisory Control and Data Acquisition) is an essential infrastructure for this evolution. This paper proposes a new conceptual design of an intelligent SCADA with a decentralized, flexible, and intelligent approach, adaptive to the context (context awareness). This SCADA model is used to support the energy resource management undertaken by a distribution network operator (DNO). Resource management considers all the involved costs, power flows, and electricity prices, allowing the use of network reconfiguration and load curtailment. Locational Marginal Prices (LMP) are evaluated and used in specific situations to apply Demand Response (DR) programs on a global or a local basis. The paper includes a case study using a 114 bus distribution network and load demand based on real data.

Coordinated transportation of a large object by a team of three robots

Dynamical systems theory in this work is used as a theoretical language and tool to design a distributed control architecture for a team of three robots that must transport a large object and simultaneously avoid collisions with either static or dynamic obstacles. The robots have no prior knowledge of the environment. The dynamics of behavior is defined over a state space of behavior variables, heading direction and path velocity. Task constraints are modeled as attractors (i.e. asymptotic stable states) of the behavioral dynamics. For each robot, these attractors are combined into a vector field that governs the behavior. By design the parameters are tuned so that the behavioral variables are always very close to the corresponding attractors. Thus the behavior of each robot is controlled by a time series of asymptotical stable states. Computer simulations support the validity of the dynamical model architecture.

Coordinated transportation of a large object by a team of two robots

In this paper dynamical systems theory is used as a theoretical language and tool to design a distributed control architecture for a team of two robots that must transport a large object and simultaneously avoid collisions with obstacles (either static or dynamic). This work extends the previous work with two robots (see [1] and [5]). However here we demonstrate that it’s possible to simplify the architecture presented in [1] and [5] and reach an equally stable global behavior. The robots have no prior knowledge of the environment. The dynamics of behavior is defined over a state space of behavior variables, heading direction and path velocity. Task constrains are modeled as attractors (i.e. asymptotic stable states) of a behavioral dynamics. For each robot, these attractors are combined into a vector field that governs the behavior. By design the parameters are tuned so that the behavioral variables are always very close to the corresponding attractors. Thus the behavior of each robot is controlled by a time series of asymptotic stable states. Computer simulations support the validity of the dynamical model architecture.

Object transportation by multiple mobile robots controlled by attractor dynamics: theory and implementation

Dynamical systems theory is used as a theoretical language and tool to design a distributed control architecture for teams of mobile robots, that must transport a large object and simultaneously avoid collisions with (either static or dynamic) obstacles. Here we demonstrate in simulations and implementations in real robots that it is possible to simplify the architectures presented in previous work and to extend the approach to teams of n robots. The robots have no prior knowledge of the environment. The motion of each robot is controlled by a time series of asymptotical stable states. The attractor dynamics permits the integration of information from various sources in a graded manner. As a result, the robots show a strikingly smooth an stable team behaviour.

Using attractor dynamics to generate decentralized motion control of two mobile robots transporting a long object in coordination

Dynamical systems theory is used here as a theoretical language and tool to design a distributed control architecture for a team of two mobile robots that must transport a long object and simultaneously avoid obstacles. In this approach the level of modeling is at the level of behaviors. A “dynamics” of behavior is defined over a state space of behavioral variables (heading direction and path velocity). The environment is also modeled in these terms by representing task constraints as attractors (i.e. asymptotically stable states) or reppelers (i.e. unstable states) of behavioral dynamics. For each robot attractors and repellers are combined into a vector field that governs the behavior. The resulting dynamical systems that generate the behavior of the robots may be nonlinear. By design the systems are tuned so that the behavioral variables are always very close to one attractor. Thus the behavior of each robot is controled by a time series of asymptotically stable states. Computer simulations support the validity of our dynamic model architectures.

Smart object for 3D interaction

This paper reports on the creation of an interface for 3D virtual environments, computer-aided design applications or computer games. Standard computer interfaces are bound to 2D surfaces, e.g., computer mouses, keyboards, touch pads or touch screens. The Smart Object is intended to provide the user with a 3D interface by using sensors that register movement (inertial measurement unit), touch (touch screen) and voice (microphone). The design and development process as well as the tests and results are presented in this paper. The Smart Object was developed by a team of four third-year engineering students from diverse scientific backgrounds and nationalities during one semester.

Extending the learning object definition to represent programming problems

The present generation of eLearning platforms values the interchange of learning objects standards. Nevertheless, for specialized domains these standards are insufficient to fully describe all the assets, especially when they are used as input for other eLearning services. To address this issue we extended an existing learning objects standard to the particular requirements of a specialized domain, namely the automatic evaluation of programming problems. The focus of this paper is the definition of programming problems as learning objects. We introduce a new schema to represent metadata related to automatic evaluation that cannot be conveniently represented using existing standards, such as: the type of automatic evaluation; the requirements of the evaluation engine; or the roles of different assets - tests cases, program solutions, etc. This new schema is being used in an interoperable repository of learning objects, called crimsonHex.

Contextual Intelligent Load Management Considering Real-Time Pricing in a Smart Grid Environment

The use of demand response programs enables the adequate use of resources of small and medium players, bringing high benefits to the smart grid, and increasing its efficiency. One of the difficulties to proceed with this paradigm is the lack of intelligence in the management of small and medium size players. In order to make demand response programs a feasible solution, it is essential that small and medium players have an efficient energy management and a fair optimization mechanism to decrease the consumption without heavy loss of comfort, making it acceptable for the users. This paper addresses the application of real-time pricing in a house that uses an intelligent optimization module involving artificial neural networks.

Contextual and Environmental Awareness Laboratory for Energy Consumption Management

The recent changes on power systems paradigm requires the active participation of small and medium players in energy management. With an electricity price fluctuation these players must manage the consumption. Lowering costs and ensuring adequate user comfort levels. Demand response can improve the power system management and bring benefits for the small and medium players. The work presented in this paper, which is developed aiming the smart grid context, can also be used in the current power system paradigm. The proposed system is the combination of several fields of research, namely multi-agent systems and artificial neural networks. This system is physically implemented in our laboratories and it is used daily by researchers. The physical implementation gives the system an improvement in the proof of concept, distancing itself from the conventional systems. This paper presents a case study illustrating the simulation of real-time pricing in a laboratory.

Formation Control Driven by Cooperative Object Tracking

In this paper we introduce a formation control loop that maximizes the performance of the cooperative perception of a tracked target by a team of mobile robots, while maintaining the team in formation, with a dynamically adjustable geometry which is a function of the quality of the target perception by the team. In the formation control loop, the controller module is a distributed non-linear model predictive controller and the estimator module fuses local estimates of the target state, obtained by a particle filter at each robot. The two modules and their integration are described in detail, including a real-time database associated to a wireless communication protocol that facilitates the exchange of state data while reducing collisions among team members. Simulation and real robot results for indoor and outdoor teams of different robots are presented. The results highlight how our method successfully enables a team of homogeneous robots to minimize the total uncertainty of the tracked target cooperative estimate while complying with performance criteria such as keeping a pre-set distance between the teammates and the target, avoiding collisions with teammates and/or surrounding obstacles.

Audição harmónica: importância e estratégias para um desenvolvimento auditivo integral

O presente relatório insere-se no âmbito da unidade curricular de Prática de Ensino Supervisionada. É um trabalho individual de síntese e de reflexão fundamentada sobre o percurso realizado no estágio, e de investigação com vista à resolução de problemas e conhecimento da realidade das práticas educativas do sistema de ensino especializado de música. Deste modo, é definido o quadro contextual sobre a evolução deste sistema de ensino e as complexidades que o têm caraterizado, o desenvolvimento curricular, particularmente o lugar que a disciplina de Formação Musical ocupa no currículo, e o Conservatório de Música de Paredes. Sobre o percurso formativo desempenhado nesta instituição educativa e sobre os dados recolhidos da observação naturalista não participante das aulas de duas turmas do ensino articulado, é elaborada uma reflexão crítica fundamentada, relativamente a todos os processos didáticos e pedagógicos. Complementarmente é apresentado um projeto de investigação qualitativa realizado no âmbito da unidade curricular de Seminário de Investigação em ensino de Música, tendo em vista a contribuição para uma prática pedagógica mais enriquecida, informada e fundamentada. O objeto de estudo está relacionado com a área disciplinar de Formação Musical, sob o tema Audição Harmónica: importância e estratégias para um desenvolvimento auditivo integral. Os objetivos do projeto visam verificar: i) quais os recursos utilizados e as estratégias e metodologias de ensino praticadas nas aulas de Formação Musical para o desenvolvimento da audição harmónica; ii) quais os objetivos e conteúdos contemplados nos programas da mesma disciplina; iii) que atividades são sugeridas em alguns manuais de Formação Musical. Os dados obtidos permitiram verificar que, apesar da importância atribuída à audição harmónica na formação de músicos, esta competência representa uma das maiores dificuldades dos alunos e, no âmbito da Formação Musical, há pouca diversidade de vivências, experiências musicais e outras atividades contextualizadas musicalmente.