In today's world, remote-controlled robots are widely used across various industries due to their ability to enhance working efficiency in various applications. Learning about robot operation and human-computer interaction has emerged as a popular topic in recent times. Indeed, learning robotics can be challenging for many students as it requires…

Background: In responding to the global problems facing humankind, there is great value in equipping science and engineering students with skills to function well in multidisciplinary teams. Little attention has been paid into the factors that influence multidisciplinary collaboration and teamwork of science and engineering students. Purpose: This…

This paper presents a comprehensive study on the integration of 3D printing technology in biomedical robotics education with undergraduate students learning about the design of robotic systems. The research investigated the effectiveness of this new teaching strategy in enhancing students' understanding of complex engineering principles by…

This paper presents a competition-based active learning approach that prepares undergraduate students for careers in the drone industry. The competition-based learning (CBL) approach focuses on preparing students for three key drone industry requirements (1) drone assembly, testing, and validation using commercial off-the-shelf (COTS) parts, (2)…

Background: There is a well-known gender disparity in the engineering field. Three of the most important factors related to the participation of women in engineering are differences in perceived societal relevance, technical self-efficacy, and tinkering self-efficacy. Purpose/Hypothesis: Soft robotics is a relatively new engineering application…

Contribution: Prior studies have shown that project-based learning (PBL) is an effective approach on engineering education. This study further identifies the impact of a design thinking (DT) integrated PBL approach on the college students' learning motivation and creativity. Background: A well-developed robot and its project often require…

Student engagement has been described as active involvement in a learning activity that significantly affects learning achievement. This study investigated student engagement in robotics education, considering it as an instant emotional reaction on interaction with the teacher, the peers, and the robotic environment. The objective was to…

In this article, we draw on sociocultural perspectives on literacy to explore the ways in which pre-engineering students took up and made sense of engineering notebooks implemented as part of a robotics project in a first-semester university study course at a large, public Hispanic-Serving Institution. Through ethnographic methods, we uncovered…

This paper summarizes our experience of teaching undergraduate robotic courses in the past ten years. The objective is to introduce students to the fundamental knowledge in robotics. Lecture topics covered subjects in both Autonomous Mobile Robots and Robotic Manipulator. In the lab sessions, students work on physical robots to acquire basic…

This article proposes an alternative (or additional) place for the use of robotics within the secondary school curriculum. Robotics provides a unique opportunity to engage students in genuinely multidisciplinary learning that challenges their misperceptions about the nature of science/technology and engages them with 'big questions'. After…

Ed+gineering, an NSF-funded program, adapted hands-on robotics instruction for online delivery in response to the COVID-19 pandemic. This qualitative multiple case study shares the experiences of participating education students in spring 2021 as they collaborated virtually with engineering students and fifth graders to engineer bioinspired robots…

The broad case being made in this paper is that recognizing student assets--rather than focusing on deficits--is essential for making engineering education more equitable. The paper begins with our exploration of an epistemic practice of engineering, ''making tradeoffs,'' as enacted by kindergartners after experiencing design failure and during…

The damped harmonic oscillator physics problem is a standard oscillation problem in calculus physics for pre-engineering students in a community college. The use of alternative linear algebra eigenvalue stability method is consistent with the upper engineering courses using control theory. The external force and friction damping would become the…

Studies have shown that educational robotics (ER) may impact student learning, especially in relation to STEM (science, technology, engineering, and mathematics) areas. In the STEM framework, particularly for younger children, the "E" and the "T" are considered to be missing letters, because few studies have concentrated on…

Research around problem solving in collaborative groups has made progress, but several conceptual and methodological issues remain. These issues include the appropriate choices of units of analysis; the ability of current theoretical sets of macrocognition codes to capture group dynamics; detection and identification of potentially emergent…