Robust Optimization for Micromachine Design Problems Involving Multimodal Distributions

Huang, Zhi; Zhang, J. W.; Kumar, T. Kishore; Yang, Tongguang; Deng, Shuguang; Li, Fangyi

doi:10.1109/access.2019.2924931

Cited by 4 publications

(2 citation statements)

References 41 publications

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“…We proposed an image sensor design problem at the board level as the design task for this practicum. It comes from a real-world challenge [33] that requires students to explore a way to improve the imaging quality of the sensor under inevitable uncertainties. As shown in Figure 2, the image sensing module with an ultra-low-noise image sensor was developed for surveillance cameras under extremely low-light conditions.…”

Section: Study_1 In a Sensor Technology Coursementioning

confidence: 99%

A Design-Based Learning Approach for Fostering Sustainability Competency in Engineering Education

et al. 2020

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This paper provides and illustrates a design-based learning (DBL) approach for fostering individual sustainability competency in engineering education. We performed two studies with engineering students in typical educational activities. The first study helped students perform a topic-specific design task in the practicum unit of a sensor technology course, which compared the performance of the DBL approach and conventional passive learning approach. The second study guided students to develop innovative projects for participating in the "Internet Plus" Innovation and Entrepreneurship Competition (IPIEC). To validate the proposed approach, stakeholder questionnaires and performance evaluations were implemented. The results show that the DBL approach was viable for sustainability competency teaching in terms of learning demand and teaching procedure. We found that students in the DBL group gave more prominence in the individual competencies, such as system-thinking, multidisciplinary applications, and collaboration. These findings suggest that applying the DBL approach to train sustainability competency in engineering education is beneficial for promoting students’ abilities in dealing with challenges involved in sustainability practice.

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Section: Study_1 In a Sensor Technology Coursementioning

confidence: 99%

A Design-Based Learning Approach for Fostering Sustainability Competency in Engineering Education

et al. 2020

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“…Since it is impossible to fully characterize power systems with deterministic methods, stochastic approaches have been attracting more attention. A series of anomaly indicators and fault detection filters have been developed based on the Tracy-Widom distribution [11] [12]. In probabilistic load flow, each input is considered as a random variable in order to incorporate the effects of uncertainties.…”

Section: Introductionmentioning

confidence: 99%

Modeling and Analysis of Residential Electricity Consumption Statistics: A Tracy-Widom Mixture Density Approximation

et al. 2020

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Residential electricity loads highly fluctuate which makes it challenging to predict and estimate changes and anomalies. This paper studies the statistical distribution of the maximum load of residential settlements and proposes a new model that is more reliable than conventional methods to predict extreme events in residential electricity consumption. Specially, a multimodal Tracy-Widom distribution is proposed to characterize the maximum residential electricity consumption data. We also propose a numerical method to approximate the density function of the multimodal Tracy-Widom distribution as opposed to the conventional approach in the literature, where a multimodal normal distribution is utilized. A simulated electricity consumption data set is used to test and validate the proposed methods. The results demonstrate that the multimodal Tracy-Widom distribution is more accurate than conventional methods in modeling residential electricity consumption data. In addition, the numerical results show that residential electricity consumption behavior is determined by certain socioeconomic factors for which correlations with household electricity consumption exist.

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Design-Based Learning as a Pedagogical Approach in an Online Learning Environment for Science Undergraduate Students

Azizan

Shamsi

2022

Front. Educ.

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Design-based learning (DBL) is a learning strategy that requires students to use their theoretical knowledge to develop an artifact or system to tackle a real-life problem. DBL has long been utilized in design-related curricula in higher education such as engineering, computer science, and architecture. However, little is known about how DBL in non-design-based courses enhances students’ learning experience, especially in recent years when the COVID-19 pandemic has compelled the worldwide education systems to adapt to online learning. Hence, this study aims to investigate the experience of science undergraduate students after one semester of participating in online DBL. The participants include 25 second-year science undergraduate students enrolling in the Managing New Technologies course. Using semi-structured interviews and thematic analysis, the findings of this study indicated that online DBL contributes to easy access to learning, enhances creativity, and allows students to think outside the box. Nevertheless, students highlighted online learning as an obstacle to their DBL experience. They claimed that online platforms as a means of communication are not practical due to insufficient interaction time and misunderstanding of information. In addition, some students stated that the online environment poses difficulties for collaborative learning.

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Robust Optimization for Micromachine Design Problems Involving Multimodal Distributions

Cited by 4 publications

References 41 publications

A Design-Based Learning Approach for Fostering Sustainability Competency in Engineering Education

A Design-Based Learning Approach for Fostering Sustainability Competency in Engineering Education

Modeling and Analysis of Residential Electricity Consumption Statistics: A Tracy-Widom Mixture Density Approximation

Design-Based Learning as a Pedagogical Approach in an Online Learning Environment for Science Undergraduate Students

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