Remote control systems laboratory

Control systems theory can be a discipline difficult to learn without some laboratory help. With the help of focused laboratories this discipline turns to be very interesting to the students involved. The main problem is that laboratories aren't always available to students, and sometimes, when they are available, aren't big enough to a growing student population. Thus, with computer networks growing so fast, why don't create remote control labs that can be used by a large number of students? Why don't create remote control labs using Internetⓒ Copyright ?2001 IFAC Keywords: Remote Control, Computer Networks, Database, Educational Aids, Laboratory Education, Communication Control Applications.

Advancing science by enhancing learning in the laboratory (ASELL)

Final report of the the Advancing Science by Enhancing Learning in the Laboratory (ASELL) project. 

Most researchers agree that the laboratory experience ranks as a significant factor that influences students’ attitudes to their science courses. Consequently, good laboratory programs should play a major role in influencing student learning and performance. The laboratory program can be pivotal in defining a student's experience in the sciences, and if done poorly, can be a major contributing factor in causing disengagement from the subject area. The challenge remains to provide students with laboratory activities that are relevant, engaging and offer effective learning opportunities.

The Advancing Science by Enhancing Learning in the Laboratory (ASELL) project has developed over the last 10 years with the aim of improving the quality of learning in undergraduate laboratories, providing a validated means of evaluating and improving the laboratory experience of students, and effective professional development for academic staff. After successful development in chemistry and trials using the developed principles in physics and biology, the project, with ALTC funding, has now expanded to include those disciplines.

The launching pad for ASELL was a multidisciplinary workshop held in Adelaide in April, 2010. This workshop involved 100 academics and students, plus 13 Deans of Science (or delegates), covering the three enabling sciences of biology, chemistry and physics. Thirty-nine undergraduate experiments were trialled over the three days of the workshop. More importantly, professional development in laboratory education was developed in the 42 academic staff that attended the workshop.

Following the workshop, delegates continued to evaluate, develop and improve both individual experiments and whole laboratory programs in their home institutions, mentored by the ASELL Team. Some highlights include:
- more than 15,000 student surveys carried out by delegates during 2010/11
- 10 whole lab programs were surveyed by delegates
- 4 new ASELL-style workshops, conducted by ASELL-trained delegates were run in 2010/11
- more than 100 ASELL-tested experiments available on the website (www.asell.org)
- ASELL workshops conducted in Philippines, Ireland in 2010, and planned in the USA and Thailand for 2011
- significant improvement in student evaluation of whole laboratory programs and individual experiments measured in universities using the ASELL approach
- high profile of ASELL activities in the Australian Council of Deans of Science (ACDS)
- research project on the misconceptions of academic staff about laboratory learning completed
- significant research on student learning in the laboratory, and staff perceptions of student learning have been carried out during 2010/11
- research results have been benchmarked against staff and students in the USA.

The biggest unresolved issue for ASELL is one of sustainability in the post-ALTC funding era. ASELL will make a series of recommendations to the ACDS, but the future of the program depends, to a large part, on how the ACDS responds.

The signature pedagogy in chemistry education

Laboratories are the signature pedagogy in chemistry education. The chemical sciences are based in investigations that are reproducible, and objectively testable. Some investigations might involve testing a hypothesis – does a carbonate produce carbon dioxide gas when reacted with acid? Other activities may not have an obvious hypothesis – how much salt is in this detergent package? Nevertheless, laboratory work is a distinctive part of science generally, and of chemistry in particular.

Laboratory work is a significant part of working in the chemistry profession. The best way for students to learn what scientists do, is to do what scientists do. The only way to conduct a laboratory investigation is to get into a laboratory and to do it!

Learning and doing chemistry in a laboratory is an important and irreplaceable part of a chemistry education.

Improving laboratory learning

It has been most encouraging to see science (and innovation)at the forefront of Australian domestic politics in recentmonths. It is also reassuring to see broader bipartisanagreement from the major political parties on the importance ofscience and research to the nation’s future. Governments maychoose to prioritise the areas of scientific endeavour thatwarrant greater support but the acknowledgement by ourpolitical leaders (federal and state) that science and innovationis vital for the nation’s future has not always been forthcoming.The funding mechanisms (e.g. grant schemes) and businessincentives (e.g. taxation) put in place by governments areimportant catalysts of ideally spontaneous processes leading toinnovation and economic advances. However, this pathway isvery complicated.

Diálogos entre Anísio Teixeira e Darcy Ribeiro: o projeto educacional de Brasília (1960) e o Programa Especial de Educaç ão - I PEE Rio de Janeiro (1980)

O presente estudo analisa dois programas educacionais que se materializaram por meio das Escolas Classe/Escola Parque de Brasília e dos Centros Integrados de Educação Pública - CIEPs, no Rio de Janeiro. O primeiro, na década de 1960, mediante o Plano de Construções Escolares de Brasília, formulado por Anísio Teixeira, e o segundo, implementado na década de 1980, em conformidade com o Programa Especial de Educação - I PEE, proposto e executado por Darcy Ribeiro no Rio de Janeiro. No entrecruzamento dos projetos desses dois intelectuais, busco compreender as dissensões, imbricações e convergências dessas iniciativas e o seu legado para a política educacional. Para tanto, me apoio nas produções acadêmicas de dois Grupos de Pesquisa, que têm como objeto os programas educacionais implantados respectivamente, por Anísio e Darcy. Em Brasília, encontramos em seu acervo a memória dos pioneiros da experiência das Escolas Classe/Escola Parque no Distrito Federal, intitulando-se "Educação Básica Pública do Distrito Federal: Origens de um Projeto Inovador (1956-1964), PPGE/UnB, tendo como coordenadora a professora Eva Waisros Pereira. Na cidade do Rio de Janeiro, observamos estudos sobre os CIEPs, produzidos pelo Laboratório Educação e República LER/ProPEd/UERJ, sendo líder da pesquisa a professora Lia Faria. Ainda nessa investigação são consideradas as determinações e os investimentos pessoais e profissionais, tanto de Darcy Ribeiro como de Anísio Teixeira, intelectuais que assumiram a dimensão prática na produção das ideias, considerando a relação dessas ideias com o mundo. Ao recuperar as produções desses dois Grupos, desvelamos também os calorosos debates relacionados às diferentes concepções de educação Integral. A análise destaca o projeto educacional de nação a partir da escola pública em seu caráter republicano. A reflexão proposta visa contribuir, juntamente com as demais pesquisas já realizadas, com a temática da educação integral e da escola pública de horário integral - para a formulação de políticas públicas na área educacional. Nesse sentido, pretendo colaborar para o desenho de propostas governamentais, especialmente para o PNE 2011-2020, buscando valorizar os pesquisadores que nos antecedem em seus trabalhos

Estudo sobre Produção mais Limpa (P+L) aplicado a um serviço de referência de uma Instituição de Ensino e Pesquisa - Rio de Janeiro (RJ).

O objetivo deste trabalho foi avaliar a potencialidade de implantação da Produção Mais Limpa (P+L), através do estudo de caso em Laboratório Biomédico de Referência em uma instituição pública de ensino e pesquisa localizada no Rio de Janeiro. Esta investigação é exploratória e analítica, utilizando-se como instrumentos a revisão bibliográfica e documental, a observação direta e a entrevista com aplicação de questionários voltados aos responsáveis pela área ambiental do laboratório pesquisado. A análise foi realizada confrontando-se os dados levantados com as recomendações da metodologia de P+L, identificando-se as lacunas e oportunidades para a melhoria dos serviços e processos de trabalho. O laboratório possui instalações modernas, organização, sistemas de avaliação da matéria-prima e insumos usados, além do gerenciamento dos resíduos. Contudo, nem todos os procedimentos são validados ou estão adequados às normas. Em geral, problemas em laboratórios dizem respeito ao uso excessivo de substâncias perigosas e ao manejo inadequado de resíduos, o qual pode ser contornado com a P+L, tendo como enfoque a prevenção da poluição e a minimização na fonte geradora. A redução do consumo de materiais e insumos, além da implantação de mudanças nos processos de trabalho, podem diminuir os custos financeiros e os impactos ambientais, como foi demonstrado no estudo. Para a melhoria da gestão dos laboratórios, recomenda-se a continuidade na aquisição, manutenção de equipamentos e infraestrutura. É importante a divulgação de informações ambientais e treinamento permanente para funcionários e alunos. A Sustentabilidade Ambiental só pode ser alcançada quando for bem entendida e absorvida por todos, sendo a alta administração das instituições a maior responsável para liderar esse processo. Para estudos futuros, propõe-se melhor definição e ampliação dos indicadores para o monitoramento e aprimoramento da gestão ambiental. Complementarmente, indicam-se estudos sobre a aquisição de conceitos pelos atores sobre a P+L e como eles podem contribuir com a Sustentabilidade Ambiental e a melhoria no ambiente de trabalho. Espera-se que esta pesquisa auxilie com o aperfeiçoamento da gestão no laboratório estudado e em instituições similares que a venham implantar a P+L.

The role of laboratory exercises in modern power engineering education at the University of Queensland

The University of Queensland (UQ) has extensive laboratory facilities associated with each course in the undergraduate electrical engineering program. The laboratories include machines and drives, power systems simulation, power electronics and intelligent equipment diagnostics. A number of postgraduate coursework programs are available at UQ and the courses associated with these programs also use laboratories. The machine laboratory is currently being renovated with i-lab style web based experimental facilities, which could be remotely accessed. Senior level courses use independent projects using laboratory facilities and this is found to be very useful to improve students' learning skill. Laboratory experiments are always an integral part of a course. Most of the experiments are conducted in a group of 2-3 students and thesis projects in BE and major projects in ME are always individual works. Assessment is done in-class for the performance and also for the report and analysis.

A scientific forum on the Gulf of Mexico: The Islands in the Stream Concept. Proceedings of the Forum: 23 January 2008, Keating Education Center, Mote Marine Laboratory, Sarasota, Florida

The Scientific Forum on the Gulf of Mexico: The Islands in the Stream Concept took place in January 2008 in Sarasota, Florida. The purpose of the meeting was to bring together scientists and managers from around the Gulf of Mexico to discuss a range of topics on our knowledge of the Gulf of Mexico, from its geology to larger-scale connectivity to the Caribbean region, and their applications to the concept of a more integrated approach to area-based management. The forum included six panels of invited experts who spoke on the oceanographic and biological features in the Gulf of Mexico, including connections with Mexico and the Mesoamerican barrier reef system, and the legal and regulatory structure currently in place. The charge to the group was to share information, identify gaps in our knowledge, identify additional potential areas for protection, and discuss available science about connectivity and the potential value of establishing a marine protected area network in the Gulf of Mexico. (PDF has 108 pages.)

Gudmundsen Sandhills Laboratory Open House: Wagonhammer Education Center

Today at this terrific Gudmundsen Sandhills Laboratory open house I want to begin with three thank you’s. First, thank you for attending. It is a treat to see all of you here, and we thank you for your presence and your interest in this key university program.

Introducing education for sustainable development in the undergraduate laboratory: quantitative analysis of bioethanol fuel and its blends with gasoline by using solvatochromic dyes

The concept of Education for Sustainable Development, ESD, has been introduced in a period where chemistry education is undergoing a major change, both in emphasis and methods of teaching. Studying an everyday problem, with an important socio-economic impact in the laboratory is a part of this approach. Presently, the students in many countries go to school in vehicles that run, at least partially, on biofuels; it is high time to let them test these fuels. The use of renewable fuels is not new: since 1931 the gasoline sold in Brazil contains 20 to 25 vol-% of bioethanol; this composition is being continually monitored. With ESD in mind, we have employed a constructivist approach in an undergraduate course, where UV-vis spectroscopy has been employed for the determination of the composition of two fuel blends, namely, bioethanol/water, and bioethanol/gasoline. The activities started by giving a three-part quiz. The first and second ones introduced the students to historical and practical aspects of the theme (biofuels). In the third part, we asked them to develop a UV-vis experiment for the determination of the composition of fuel blends. They have tested two approaches: (i) use of a solvatochromic dye, followed by determination of fuel composition from plots of the empirical fuel polarity versus its composition; (ii) use of an ethanol-soluble dye, followed by determination of the blend composition from a Beer's law plot; the former proved to be much more convenient. Their evaluation of the experiment was highly positive, because of the relevance of the problem; the (constructivist) approach employed, and the bright colors that the solvatochromic dye acquire in these fuel blends. Thus ESD can be fruitfully employed in order to motivate the students; make the laboratory "fun", and teach them theory (solvation). The experiments reported here can also be given to undergraduate students whose major is not chemistry (engineering, pharmacy, biology, etc.). They are low-cost and safe to be introduced at high-school level.

Design, implementation and evaluation of a virtual laboratory for Computer Engineering Education

Broad consensus has been reached within the Education and Cognitive Psychology research communities on the need to center the learning process on experimentation and concrete application of knowledge, rather than on a bare transfer of notions. Several advantages arise from this educational approach, ranging from the reinforce of students learning, to the increased opportunity for a student to gain greater insight into the studied topics, up to the possibility for learners to acquire practical skills and long-lasting proficiency. This is especially true in Engineering education, where integrating conceptual knowledge and practical skills assumes a strategic importance. In this scenario, learners are called to play a primary role. They are actively involved in the construction of their own knowledge, instead of passively receiving it. As a result, traditional, teacher-centered learning environments should be replaced by novel learner-centered solutions. Information and Communication Technologies enable the development of innovative solutions that provide suitable answers to the need for the availability of experimentation supports in educational context. Virtual Laboratories, Adaptive Web-Based Educational Systems and Computer-Supported Collaborative Learning environments can significantly foster different learner-centered instructional strategies, offering the opportunity to enhance personalization, individualization and cooperation. More specifically, they allow students to explore different kinds of materials, to access and compare several information sources, to face real or realistic problems and to work on authentic and multi-facet case studies. In addition, they encourage cooperation among peers and provide support through coached and scaffolded activities aimed at fostering reflection and meta-cognitive reasoning. This dissertation will guide readers within this research field, presenting both the theoretical and applicative results of a research aimed at designing an open, flexible, learner-centered virtual lab for supporting students in learning Information Security.