More Like this

1. AI Meets Holographic Pepper’s Ghost: A Co-Creative Public Dance Experience

   https://doi.org/10.1145/3563703.3596658  

   Trajkova, Milka; Deshpande, Manoj; Knowlton, Andrea; Monden, Cassandra; Long, Duri; Magerko, Brian (July 2023, DIS '23 Companion: Companion Publication of the 2023 ACM Designing Interactive Systems Conference)

   In this demonstration, we present a holographic projected version of LuminAI, which is an interactive art installation that allows participants to collaborate with an AI dance partner by improvising movements together. By utilizing a mix of a top-down and bottom-up approach, we seek to understand embodied co-creativity in an improvisational dance setting to better develop the design of the modular AI agent to creatively collaborate with a dancer. The purpose of this demonstration is to describe the five-module agent design and investigate how we can design an immersive experience that is design-efficient, portable, light, and duo-user participation. Through this installation in an imitated black box space, audience members and dancers engage in an immersive co-creative dance experience, inspiring discussion on the limitless applications of dance and technology in the realms of learning, training, and creativity. 

   more » « less
2. Dynamic Gain Adaptation in Linear Quadratic Regulators

   https://doi.org/10.1109/TAC.2023.3344551  

   Komaee, Arash (August 2024, IEEE Transactions on Automatic Control)

   In feedback control of dynamical systems, the choice of a higher loop gain is typically desirable to achieve a faster closed-loop dynamics, smaller tracking error, and more effective disturbance suppression. Yet, an increased loop gain requires a higher control effort, which can extend beyond the actuation capacity of the feedback system and intermittently cause actuator saturation. To benefit from the advantages of a high feedback gain and simultaneously avoid actuator saturation, this paper advocates a dynamic gain adaptation technique in which the loop gain is lowered whenever necessary to prevent actuator saturation, and is raised again whenever possible. This concept is optimized for linear systems based on an optimal control formulation inspired by the notion of linear quadratic regulator (LQR). The quadratic cost functional adopted in LQR is modified into a certain quasi-quadratic form in which the control cost is dynamically emphasized or deemphasized as a function of the system state. The optimal control law resulted from this quasi-quadratic cost functional is essentially nonlinear, but its structure resembles an LQR with an adaptable gain adjusted by the state of system, aimed to prevent actuator saturation. Moreover, under mild assumptions analogous to those of LQR, this optimal control law is stabilizing. As an illustrative example, application of this optimal control law in feedback design for dc servomotors is examined, and its performance is verified by numerical simulations. 

   more » « less
3. An Approach to Understand the Role of Identity in Engineering Leadership

   Schell, Wiliam J; Hughes, Bryce E. (June 2017, ASEE annual conference & exposition)

   In order to most effectively contribute to the development of solutions to society’s greatest challenges, engineers must learn to lead the interdisciplinary teams required to develop these solutions. However, most undergraduate engineering programs do little to develop leadership skills in their students. Perhaps, one reason for this gap between needs and education is a conflict between the development of an engineering identity and a leadership identity. To date, the literature contains little work that illustrates the role leadership concepts play in the formation of an engineering identity. Therefore, more work is needed to understand the formation of a leadership identity within the formation of an engineering identity. Together, these development processes constitute the formation of engineering leaders. This paper presents the methods underway to validate and refine a proposed theoretical model of engineering leadership identity development. This model can be used to reshape existing engineering leadership education programs and integrate leadership into the engineering curriculum in an innovative manner. The model starts with a fundamental assumption that the engineering leadership formation process is, at its core, an identity development process. This assumption is also central to two established theoretical perspectives that informed the construction of this model. Lave and Wenger’s (1991) communities of practice model argues that the development of a professional identity is the outcome of learning within a community of practice, and is frequently used to explain the process by which undergraduates develop a sense of engineering identity. The communities of practice model is then combined with Komives, Owen, Longerbeam, Mainella, and Osteen’s (2005) Leadership Identity Development Model to outline how engineering students might cultivate a self-concept as a leader. A key argument within this model is that college students develop a personal sense of leadership as an identity when they view leadership as a process, not merely a position. This paper first explains the development of this theoretical model of engineering leadership identity development combining the literature from engineering identity development, leadership identity development within collegiate populations, and engineering leadership. Following this explanation, this work focuses on the methods developed and currently being deployed to validate and refine the model, including initial findings from this research. 

   more » « less
4. Centering Latinx students in STEM education research through pláticas methodology

   https://doi.org/10.1080/09518398.2024.2323492  

   Garcia, Katherine Arias (March 2024, International Journal of Qualitative Studies in Education)

   Pláticas methodology is introduced in this article to advance the centering of Latinx researchers and Latinx students in STEM research. As an increase in Latinx educational researchers enter academia, engaging an appropriate epistemology and methodology that is culturally relevant and race-centered is key in the ongoing STEM education research which aims to diversify and create equitable outcomes for Students of Color. This article draws from a study with 24 Latinx STEM students and 48 pláticas. An overview of pláticas methodology, Chicana/Latina Feminist Epistemology, along with an examination of the principles of pláticas methodology in STEM education. This article is timely as the Latinx student population and Hispanic-Serving Institutions are growing in higher education. This article places emphasizes reframing methodology to provide a culturally relevant and holistic methodology to engage Latinx Students and advance STEM education research focusing on Latinx students. 

   more » « less
5. Approaching Convergence from an Undergraduate Engineering Perspective

   https://doi.org/10.1109/FIE61694.2024.10893391  

   Thompson, Michael S; Applehans, Sarah; Cheville, Alan; Thomas, Rebecca; Thomas, Stewart J; Nickel, Robert; Asare, Philip (October 2024, IEEE)

   This research-to-practice full paper presents and approach to bringing convergence to the undergraduate engineering context. Convergence is the process of integrating a variety of ideas, skills, and methods to create new ideas, skills, and methods in order to address complex, socially relevant challenges like the UN Sustainable Development Goals [1] and the National Academy of Engineering's (NAE) Grand Challenges [2]. In the US, the National Science Foundation (NSF) has been a major driver of convergence related research and has focused on work primarily at the graduate level and beyond. To explore how convergence concepts translate to an undergraduate engineering context this research to practice paper describes a taxonomy that translates convergent knowledge, skills, and mindsets into the domain of undergraduate engineering education. While we do not believe it is reasonable to expect undergraduates to engage with convergence in the same way as graduate students or postdoctoral scholars, we believe that they can develop in areas that will allow them to engage in convergent work later in their careers. This paper first defines convergence and then examines the challenges and opportunities related to developing a student's ability to do convergent work in an undergraduate context. The developed taxonomy outlines the knowledge, skills, mindsets, and structures that support convergent work from the larger research literature, and adapts these to an undergraduate context. The taxonomy is then used to conduct a gap analysis of an undergraduate electrical and computer engineering degree program. This analysis is based on the syllabi. This work was conducted in the context of an electrical and computer engineering department situated in a medium-sized primarily undergraduate liberal arts institution in the mid-Atlantic region. As the challenges and opportunities are similar to but also unique to this institution this work forms a rich case study that can inform similar efforts in other institutions and contexts where a similar gap analysis may be beneficial. The goal of this work is to enable others to analyze an their existing student experience to see what aspects of convergence are currently included. 

   more » « less