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Castro Ribeiro, Maria Cristina de

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7415-B2E3-0495
0000-0002-7802-7364

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2018 - 201942020 - 20212
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Subject: Collaborative learning ×

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Now showing 1 - 6 of 6
  • The MopBot Cleaning Robot – An EPS@ISEP 2020 Project
    Publication . Tuluc, Corina; Verberne, Frederique; Lasota, Szymon; Almeida, Tomás de; Malheiro, Benedita; JUSTO, Jorge; Ribeiro, Cristina; Silva, Manuel F.; Ferreira, Paulo; Guedes, Pedro
    Waste is one of the biggest problems on Earth today. In the spring of 2020, a team of students enrolled in the European Project Semester at Instituto Superior de Engenharia decided to contribute with the design of an ethically and sustainability-oriented autonomous cleaning robot named MopBot. The project started with the research on similar solutions, ethics, marketing and sustainability to define a concept and create a functional, ethical and sustainability driven design, including the complete control system. Finally, given the undergoing pandemic, the operation of the MopBot was simulated using CoppeliaSim. MopBot is a medium-sized vacuum cleaner, with two vertical brushes, intended to clean autonomously large areas inside buildings such as shopping malls or corridors. It is shipped with a sustainable packaging solution which can be re-purposed as a disposal box for electrical components.
    2021-03Conference object Restricted access Show more
  • Smart Bicycle Probe – An EPS@ISEP 2020 Project
    Publication . Boularas, Mélissa; Szmytke, Zuzanna; Smith, Logan; Isik, Kaan; Ruusunen, Juho; Malheiro, Benedita; JUSTO, Jorge; Ribeiro, Maria Cristina de Castro; Silva, Manuel F.; Ferreira, Paulo; Guedes, Pedro
    Air pollution kills approximately 7 million people every year and nine out of ten people are exposed to high levels of airborne pollutants. This paper describes the design of a bicycle air probe by a team of multicultural and multidisciplinary students of the European Project Semester, during the spring of 2020. This learning experience started with the analysis of the state-of-the-art, ethics, marketing and sustainability dimensions, and was followed by the design, development and simulation of a proof-of-concept solution. The result is GOairLight – a bicycle probe paired with a mobile app. The probe collects air quality, humidity and temperature data as cyclists ride, while the mobile app shares the collected data with the community, by means of a cloud database, presents relevant air quality information and suggests less polluted routes. Furthermore, it relies on a sustainable energy source – a dynamo powered by the cyclist – and automatic lighting. The latter feature improves cyclist visibility and raises the awareness towards the cyclist, contributing to increased road safety.
    2021-03Conference object Restricted access Show more
  • Escargot Nursery – An EPS@ISEP 2017 Project
    Publication . Borghuis, Lauri; Calon, Benjamin; MacLean, John; Portefaix, Juliette; Quero, Ramon; Duarte, Abel José; Malheiro, Benedita; Castro Ribeiro, Maria Cristina De; Ferreira, Fernando José; Silva, Manuel; Ferreira, Paulo; Guedes, Pedro
    This paper presents the development of an Escargot Nursery by a multinational and multidisciplinary team of 3rd year undergraduates within the framework of EPS@ISEP – the European Project Semester (EPS) offered by the Instituto Superior de Engenharia do Porto (ISEP). The challenge was to design, develop and test a snail farm compliant with the applicable EU directives and the given budget. The Team, motivated by the desire to solve this multidisciplinary problem, embarked on an active learning journey, involving scientific, technical, marketing, sustainable and ethical development studies, brainstorming and decision-making. Based on this project-based learning approach, the Team identified the lack of innovative domestic snail farm products and, consequently, proposed the development of “EscarGO”, a stylish solution for the domestic market. The paper details the proposed design and control system, including materials, components and technologies. This learning experience, which was focussed on the development of multicultural communication, multidisciplinary teamwork, problem-solving and decision-making competencies in students, produced as a tangible evidence the proof of concept prototype of “EscarGO”, an Escargot Nursery designed for families to easily grow snails at home.
    2018Book part Restricted access Show more
  • Vertical Farming—An EPS@ISEP 2018 Project
    Publication . Sevastiadou, Anastasia; Luts, Andres; Pretot, Audrey; Trendafiloski, Mile; Basurto, Rodrigo; Blaszczyk, Szymon; Malheiro, Benedita; Castro Ribeiro, Maria Cristina de; Justo, Jorge Fonseca; Silva, Manuel; Ferreira, Paulo; Guedes, Pedro
    This paper summarises the joint efforts of a multinational group of six undergraduate students cooperating within the European Project Semester (EPS) conducted at the Instituto Superior de Engenharia do Porto (ISEP). The EPS@ISEP initiative, made available as a part of the Erasmus+ international students exchange programme, employs the principles of problem-based learning, facing students with—albeit downscaled—real-life scenarios and tasks they may encounter in their future professional practice. Participation in the project initiative outclasses most of the traditional courses through a wide spawn of its learning outcomes. Participants acquire not only hard skills necessary for an appropriate execution of the project, but also broaden their understanding of the approached problem through detailed scientific, management, marketing, sustainability, and ethics analysis—all in the atmosphere of multicultural and interdisciplinary collaboration. The team under consideration, based on personal preferences and predispositions, chose the topic of vertical farming and, in particular, to design a domestic indoor gardening solution, appropriate for space efficient incubation of plants. The paper portrays the process, from research, analysis, formulation of the idea to the design, development and testing of a minimum viable proof of concept prototype of the “Vereatable” solution.
    2019Book part Open access Show more
  • Solar Dehydrator
    Publication . Szabó, Dániel; Justo, Jorge; Silva, Manuel F.; Ferreira, Paulo; Guedes, Pedro; Gillet, Elisa; Vallés, Ignacio; Pereira, João; Keppens, Marie; Krommendijk, Pascal; Duarte, Abel J.; Malheiro, Benedita; Castro Ribeiro, Maria Cristina De
    This paper provides an overview of the development of a solar dehydrator, a project undertaken by a team of six Erasmus students from different countries during the European Project Semester at the Instituto Superior de Engenharia do Porto in the spring of 2019. The main objective of the European Project Semester is to develop teamwork, communication and problem-solving skills through team work and project-based learning. The purpose of the project was to design a sustainable solution to dehydrate and preserve food, build and test the corresponding proof-of-concept prototype, while respecting requirements such as the budget, the use of reusable materials and components or European Union directives. To achieve this goal, the team considered the technological, ethical and deontological, economic and environmental perspectives in the design of the Dryfoo prototype. This paper describes, after a short introduction, the performed research, the development and the testing of the proof-of-concept prototype, as well as the personal outcomes of this learning experience.
    2019Conference object Restricted access Show more
  • Water Intellibuoy—An EPS@ISEP 2018 Project
    Publication . Colen, Mireia Estruga; Houard, Hervé; Imenkamp, Charlotte; van Velthoven, Geert; Pajula, Sten; Malheiro, Benedita; Castro Ribeiro, Maria Cristina De; Justo, Jorge Fonseca; Silva, Manuel; Ferreira, Paulo; Guedes, Pedro
    This paper reports the collaborative learning experience of a team of five Erasmus students who participated in EPS@ISEP—the European Project Semester (EPS) at Instituto Superior de Engenharia do Porto (ISEP)—during the spring of 2018. EPS@ISEP is a project-based learning capstone programme for third and fourth year engineering, product design and business students, focussing on teamwork and multidisciplinary problem solving as well as on the development of sustainable and ethical practices. In this context, the Team developed a drifting intelligent buoy to monitor the water quality of urban water spaces. Motivated by the desire to build an intelligent buoy for urban water bodies, the Team conducted several scientific, technical, sustainability, marketing, ethical and deontological analyses. Based on the findings, it has derived the requirements, designed the structure and functional system, selected the list of components and providers and assembled a proof of concept prototype. The result is Aquality, an intelligent drifting buoy prototype, designed for private sustainable pools. Aquality monitors the quality of the pool water by measuring its temperature and turbidity, while interfacing with the user through a mobile application. Considering the EPS@ISEP learning experience, the Team valued the knowledge and skills acquired, and, particularly, the collaborative learning and working component of the project, i.e., working together towards one goal while maintaining high motivation and cohesion.
    2019Book part Open access Show more