A Multidisciplinary Mechatronics Program: From Project-Based Learning to a Community-Based Approach on an Open Platform

Phan, Mai-Ha; Ngo, Ha Quang Thinh

doi:10.3390/electronics9060954

Cited by 18 publications

(15 citation statements)

References 64 publications

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“…Educational robotics and the STEM (Science, Technology, Engineering, and Mathematics) approach, in general, have proven their capability to engage students in the implementation of minimal systems and to the understanding of their functionalities [7,8]. The development of a robotic system, as an educational activity, contributes to the ability to design a system, combine different components, and solve real challenges, such as economic and environmental limitations, safety issues, and construction constraints [9]. The mutual benefits of combining STEM practices and agricultural education objectives are many and significant [10,11].…”

Section: Introductionmentioning

confidence: 99%

Enhanced Robots as Tools for Assisting Agricultural Engineering Students’ Development

et al. 2022

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Inevitably, the rapid growth of the electronics industry and the wide availability of tailored programming tools and support are accelerating the digital transformation of the agricultural sector. The latter transformation seems to foster the hopes for tackling the depletion and degradation of natural resources and increasing productivity in order to cover the needs of Earth’s continuously growing population. Consequently, people getting involved with modern agriculture, from farmers to students, should become familiar with and be able to use and improve the innovative systems making the scene. At this point, the contribution of the STEM educational practices in demystifying new areas, especially in primary and secondary education, is remarkable and thus welcome, but things become quite uncertain when trying to discover efficient practices for higher education, and students of agricultural engineering are not an exception. Indeed, university students are not all newcomers to STEM and ask for real-world experiences that better prepare them for their professional careers. Trying to bridge the gap, this work highlights good practices during the various implementation stages of electric robotic ground vehicles that can serve realistic agricultural tasks. Several innovative parts, such as credit card-sized systems, AI-capable modules, smartphones, GPS, solar panels, and network transceivers are properly combined with electromechanical components and recycled materials to deliver technically and educationally meaningful results.

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Section: Introductionmentioning

confidence: 99%

Enhanced Robots as Tools for Assisting Agricultural Engineering Students’ Development

et al. 2022

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“…This paper extensively focused on the development of entrepreneurship education at the European level by examining how the EntreComp framework can act as an engine for transnational policy implementation driving entrepreneurial competences. This is the first time an entrepreneurship education study has respondents from so many different countries (46). Such major international studies have previously been, e.g., global reviews of studies conducted on entrepreneurship education in teacher education (e.g., [55]).…”

Section: Discussionmentioning

confidence: 95%

“…It is also a pedagogical strategy that intentionally integrates services to the community through classroom learning [42]. The literature describes numerous and diverse benefits of student engagement with community-based learning across multiple domains, including academic development, socio-personal development and civic engagement (e.g., [42][43][44][45][46][47]. It also supports active citizenship through sustainable development [48], enables and encourages people to take direct actions to tackle the challenges of a rapidly changing, increasingly global world by offering knowledge and skills to improve citizens' lives in sustainable ways (e.g., eco-friendly farming and addressing social and economic inequalities).…”

Section: Learning Communities Of Ee Driving Educational Changementioning

confidence: 99%

EU Policies Driving Entrepreneurial Competences—Reflections from the Case of EntreComp

et al. 2021

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The United Nations’ Sustainable Development Goals promote entrepreneurial competences as a means of supporting young people to innovate, start businesses, and create jobs. Furthermore, the European Union considers entrepreneurial skills to be essential in creating welfare and economic sustainability. Empowering individuals with entrepreneurship education, an entrepreneurial mindset and behaviors, are tools to develop human capital. This article explores how European policies can drive development of entrepreneurial competences by examining the case of the European Framework for Entrepreneurial Competences (EntreComp) and its integration into education and training development in different countries. With this research, we contribute education development from the practical point of view by analyzing how a cross section of actors, using EntreComp as a European framework for entrepreneurial competences, see that entrepreneurial learning has been realized and could be further supported in transnational education contexts. We will also expand the theoretical discussion of entrepreneurship education from the perspective of education sciences, as we have not previously obtained clarifying results or conclusions on how, for example, the educational change related to the development of entrepreneurship education should be implemented. The research data was collected through a case study, for which an online survey including both quantitative and qualitative approaches was conducted in 2020. Responses from 348 respondents from 47 countries were analyzed through an extended model for learning originally conceptualized by Shulman and Shulman (2004). The findings suggest that EntreComp has been widely recognized as a critical driver of competence in entrepreneurial education. However, a lack of shared vision and development of practice in the use of EntreComp can hinder the effective implementation of the framework. Thus, further support and guidance are needed in promoting the learning process of policymakers, educators, trainers, and other stakeholders, on both micro- and macro-level education design, to support successful adoption and adaptation of the policy-driven frameworks.

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“…Gazebo simulator provides several extremely useful functionalities in order to launch features and properties similar to a real-life environment such that sensing devices consisting of digital Kinect sensor and laser scanner with real-time simulated data that observed in the testing area, physical characteristics of mobile robot and environment, that is, frictions or inertial moment. In the laboratory tests, the multifunctional autonomous robot (MAR) 36,37 is attached a digital camera Kinect and a laser scanner sensor. The powerful camera Kinect contains an infrared light projector, depth sensor, 640 × 480 pixels resolution of camera and a multi-array microphone.…”

Section: Results Of Studymentioning

confidence: 99%

Develop the socially human-aware navigation system using dynamic window approach and optimize cost function for autonomous medical robot

Ngo

Thien

et al. 2014

Advances in Mechanical Engineering

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In previous works, the perceived safety and comfort are currently not the principal objectives of all industries, especially robotics system. It might lead not to take psychological safety into consideration of adjusting robot behavior, hence, the human-robot interaction lacks of ease and naturalness. In this paper, a novel framework of human’s zones to ensure safety for social interactions in human-machine system is proposed. In the context of service robot in hospital, machine should not produce any actions that may induce worry, surprise or bother. To maintain the comfortable interaction, an algorithm to update human’s state into personal space is developed. Then, a motion model of robot is demonstrated with assumption of the reference path under segmentation. Dynamic Window Approach is employed for motion planning while Optimize Cost function searches the shortest path in a graph. To validate our approach, three test cases (without human-aware framework, with basic model of human’s zone and with extended personal space) are carried out in the same context. Moreover, three interactive indicators, for instance collision index (CI), interaction index (CII) and relative velocity of robot (Vr), are analyzed in different situations. Lack of human-aware framework, robot might break all thresholds and meet the potential collisions. While robot with basic model of human’s zone in its perception maintains the physically safe thresholds but not socially, it respects whole criterions in both physical constraints and social relations. As a result, our findings are useful for robot’s navigation in presence of human while the socially comfortable interaction is guaranteed.

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A Multidisciplinary Mechatronics Program: From Project-Based Learning to a Community-Based Approach on an Open Platform

Cited by 18 publications

References 64 publications

Enhanced Robots as Tools for Assisting Agricultural Engineering Students’ Development

Enhanced Robots as Tools for Assisting Agricultural Engineering Students’ Development

EU Policies Driving Entrepreneurial Competences—Reflections from the Case of EntreComp

Develop the socially human-aware navigation system using dynamic window approach and optimize cost function for autonomous medical robot

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