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1. Exploring Multiscale Navigation of Homogeneous and Dense Objects with Progressive Refinement in Virtual Reality

Author

Pavanatto, Leonardo, Giovannelli, Alexander, Giera, Brian, Bremer, Peer-Timo, Miao, Haichao, and Bowman, Doug

Subjects
Computer Science - Human-Computer Interaction
Abstract

Locating small features in a large, dense object in virtual reality (VR) poses a significant interaction challenge. While existing multiscale techniques support transitions between various levels of scale, they are not focused on handling dense, homogeneous objects with hidden features. We propose a novel approach that applies the concept of progressive refinement to VR navigation, enabling focused inspections. We conducted a user study where we varied two independent variables in our design, navigation style (STRUCTURED vs. UNSTRUCTURED) and display mode (SELECTION vs. EVERYTHING), to better understand their effects on efficiency and awareness during multiscale navigation. Our results showed that unstructured navigation can be faster than structured and that displaying only the selection can be faster than displaying the entire object. However, using an everything display mode can support better location awareness and object understanding., Comment: 10 pages, 5 figures, 1 table, to be published in 2025 IEEE conference on virtual reality and 3D user interfaces (VR) more...

Published
2025

2. Investigating the Influence of Playback Interactivity during Guided Tours for Asynchronous Collaboration in Virtual Reality

Author

Giovannelli, Alexander, Pavanatto, Leonardo, Davari, Shakiba, Miao, Haichao, Chheang, Vuthea, Giera, Brian, Bremer, Peer-Timo, and Bowman, Doug

Subjects
Computer Science - Human-Computer Interaction
Abstract

Collaborative virtual environments allow workers to contribute to team projects across space and time. While much research has closely examined the problem of working in different spaces at the same time, few have investigated the best practices for collaborating in those spaces at different times aside from textual and auditory annotations. We designed a system that allows experts to record a tour inside a virtual inspection space, preserving knowledge and providing later observers with insights through a 3D playback of the expert's inspection. We also created several interactions to ensure that observers are tracking the tour and remaining engaged. We conducted a user study to evaluate the influence of these interactions on an observing user's information recall and user experience. Findings indicate that independent viewpoint control during a tour enhances the user experience compared to fully passive playback and that additional interactivity can improve auditory and spatial recall of key information conveyed during the tour., Comment: 11 pages, 4 figures, 2 tables, to be published in 2025 IEEE conference on virtual reality and 3D user interfaces (VR) more...

Published
2025

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3. Enabling Additive Manufacturing Part Inspection of Digital Twins via Collaborative Virtual Reality

Author

Chheang, Vuthea, Narain, Saurabh, Hooten, Garrett, Cerda, Robert, Au, Brian, Weston, Brian, Giera, Brian, Bremer, Peer-Timo, and Miao, Haichao

Subjects
Computer Science - Human-Computer Interaction
Abstract

Digital twins (DTs) are an emerging capability in additive manufacturing (AM), set to revolutionize design optimization, inspection, in situ monitoring, and root cause analysis. AM DTs typically incorporate multimodal data streams, ranging from machine toolpaths and in-process imaging to X-ray CT scans and performance metrics. Despite the evolution of DT platforms, challenges remain in effectively inspecting them for actionable insights, either individually or in a multidisciplinary team setting. Quality assurance, manufacturing departments, pilot labs, and plant operations must collaborate closely to reliably produce parts at scale. This is particularly crucial in AM where complex structures require a collaborative and multidisciplinary approach. Additionally, the large-scale data originating from different modalities and their inherent 3D nature pose significant hurdles for traditional 2D desktop-based inspection methods. To address these challenges and increase the value proposition of DTs, we introduce a novel virtual reality (VR) framework to facilitate collaborative and real-time inspection of DTs in AM. This framework includes advanced features for intuitive alignment and visualization of multimodal data, visual occlusion management, streaming large-scale volumetric data, and collaborative tools, substantially improving the inspection of AM components and processes to fully exploit the potential of DTs in AM., Comment: 10 Pages, 6 Figures more...

Published
2024

4. Accelerating climate technologies through the science of scale-up

Author

Moore, Thomas, Wong, Andrew A., Giera, Brian, Oyarzun, Diego I., Gongora, Aldair E., Lin, Tiras Y., Li, Wenqin, Owens, Tracie, Nguyen, Du, Ehlinger, Victoria M., Prajapati, Aditya, Chung, Seung Whan, Roy, Pratanu, DeOtte, Joshua, Cross, Nicholas R., Aui, Alvina, Choi, Youngsoo, Goldman, Maxwell, Jeong, Hui-Yun, Ye, Congwang, Sarkar, Amitava, Duoss, Eric B., Hahn, Christopher, and Baker, Sarah E. more...

Published
2024
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5. A Virtual Environment for Collaborative Inspection in Additive Manufacturing

Author

Chheang, Vuthea, Weston, Brian Thomas, Cerda, Robert William, Au, Brian, Giera, Brian, Bremer, Peer-Timo, and Miao, Haichao

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Additive manufacturing (AM) techniques have been used to enhance the design and fabrication of complex components for various applications in the medical, aerospace, energy, and consumer products industries. A defining feature for many AM parts is the complex internal geometry enabled by the printing process. However, inspecting these internal structures requires volumetric imaging, i.e., X-ray CT, leading to the well-known challenge of visualizing complex 3D geometries using 2D desktop interfaces. Furthermore, existing tools are limited to single-user systems making it difficult to jointly discuss or share findings with a larger team, i.e., the designers, manufacturing experts, and evaluation team. In this work, we present a collaborative virtual reality (VR) for the exploration and inspection of AM parts. Geographically separated experts can virtually inspect and jointly discuss data. It also supports VR and non-VR users, who can be spectators in the VR environment. Various features for data exploration and inspection are developed and enhanced via real-time synchronization. We followed usability and interface verification guidelines using Nielsen's heuristics approach. Furthermore, we conducted exploratory and semi-structured interviews with domain experts to collect qualitative feedback. Results reveal potential benefits, applicability, and current limitations. The proposed collaborative VR environment provides a new basis and opens new research directions for virtual inspection and team collaboration in AM settings., Comment: Conditionally Accepted - CHI LBW 2024 more...

Published
2024

10. Particle-Based Simulations of Electrophoretic Deposition with Adaptive Physics Models

Author

Karnes, John J., Pascall, Andrew J., Rehbock, Christoph, Ramesh, Vaijayanthi, Worsley, Marcus A., Barcikowski, Stephan, Lee, Elaine, and Giera, Brian

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Computational Physics
Abstract

This work represents an extension of mesoscale particle-based modeling of electrophoretic deposition (EPD), which has relied exclusively on pairwise interparticle interactions described by Derjaguin-Landau-Verwey-Overbeek (DLVO) theory. With this standard treatment, particles continuously move and interact via excluded volume and electrostatic pair potentials under the influence of external fields throughout the EPD process. The physics imposed by DLVO theory may not be appropriate to describe all systems, considering the vast material, operational, and application space available to EPD. As such, we present three modifications to standard particle-based models, each rooted in the ability to dynamically change interparticle interactions as simulated deposition progresses. This approach allows simulations to capture charge transfer and/or irreversible adsorption based on tunable parameters. We evaluate and compare simulated deposits formed under new physical assumptions, demonstrating the range of systems that these adaptive physics models may capture., Comment: 34 pages, 10 figures more...

Published
2023

18. Market Access, Trade Costs, and Technology Adoption: Evidence from Northern Tanzania.

Author

Aggarwal, Shilpa, Giera, Brian, Jeong, Dahyeon, Robinson, Jonathan, and Spearot, Alan

Subjects
TRAVEL costs, PRICES, AGRICULTURAL productivity, INNOVATION adoption, STANDARD deviations
Abstract

We collect data on prices, travel costs, and farmer decisions to quantify market access for chemical fertilizer and its impact on agricultural productivity in 1,180 villages in Northern Tanzania. Villages at the bottom of the travel cost-adjusted input price distribution face 40%–55% less favorable prices than those at the top. A standard deviation increase in village-level remoteness is associated with 20%–25% lower input adoption. A spatial model of input adoption conservatively estimates that total trade costs are 4 times pecuniary travel costs. Counterfactuals suggest that halving travel costs would more than double adoption and reduce the adoption-remoteness gradient by 63%. [ABSTRACT FROM AUTHOR] more...

Published
2024
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22. Electric Double-Layer Structure in Primitive Model Electrolytes: Comparing Molecular Dynamics with Local-Density Approximations

Author

Giera, Brian, Henson, Neil, Kober, Edward M, Shell, M Scott, and Squires, Todd M

Subjects
Chemical Physics
Abstract

We evaluate the accuracy of local-density approximations (LDAs) using explicit molecular dynamics simulations of binary electrolytes comprised of equisized ions in an implicit solvent. The Bikerman LDA, which considers ions to occupy a lattice, poorly captures excluded volume interactions between primitive model ions. Instead, LDAs based on the Carnahan-Starling (CS) hard-sphere equation of state capture simulated values of ideal and excess chemical potential profiles extremely well, as well as the relationship between surface charge density and electrostatic potential. Excellent agreement between the EDL capacitances predicted by CS-LDAs and computed in molecular simulations is found even in systems where ion correlations drive strong density and free charge oscillations within the EDL, despite the inability of LDAs to capture the oscillations in the detailed EDL profiles. more...

Published
2015

26. Essays in Economic Development

Author

Giera, Brian Jonathan

Subjects
Economics, African studies, Business education
Abstract

This dissertation studies the impact that various programs, from small-scale behavioral interventions to large-scale multi-national projects, have on those living in the developing world.The first chapter of this dissertation, "Business Training and Behavioral Biases: A Field Experiment with Micro-Entrepreneurs in Ethiopia", is joint work with Biruk Tekle, a researcher at the Ethiopian Development Research Institute. We conducted a field experiment with 590 small businesses in Addis Ababa where we designed two, cross-cut interventions, that were motivated by simple heuristics and physical convenience. We provided rm owners: (1) a highly simplified informational poster to be conveniently placed in their business, and (2) an additional wallet to facilitate the separation of business and personal finances. Business owners consulted the poster on a regular basis and reported higher investment, revenue, and prot. The wallet was actively used to keep their expenses separated, but had mixed evidence on investment and prot. We conclude that the content from a business training can be cost-effectively delivered to micro-enterprises and that the lack of access to simplified and convenient management information can partially explain why protable investments commonly go unrealized. This project was generously funded by the Center for Effective Global Action, East African Social Science Translation.My second dissertation chapter, "Myopic Loss Aversion and Multi-Dimensional Framing: A Lab-in-the-Field Experiment with Micro-Entrepreneurs in Ethiopia", is joint work with Sameh Habib (Ph.D. Student, UCSC) and Biruk Tekle (Researcher, EDRI) and looks at the puzzle of low reinvestment through the idea of myopic loss aversion (MLA). Using data from a lab-in-the-field experiment with 199 retail shops in Ethiopia, we first replicate [87] and find that our sample does not display any tendencies of myopic loss aversion when bracketing the traditional risky gamble across time. Motivated by recent theoretical work from [39] along with anecdotal discussions with small shops, we then extend the experimental design to offer the same gambles packaged as a cross-sectional, portfolio of investments. We find that respondents willingly take on more risk when looking across a basket of products, suggesting that tendencies of loss aversion could be mitigated by adjustments to the frame over which investments are made, leading to higher business investment.The third chapter of this dissertation is an impact evaluation of five large-scale agricultural programs run by International Fund for Agricultural Development (IFAD), a branch of the United Nations based in Rome, Italy. This chapter is co-authored with Dr. Alessandra Garbaro (Econometrician, IFAD). When the 2015 Millennium Goals were put in place, IFAD and other large governmental organizations began aiming their funds at alleviating the conditions of children under the age of five. Given the focus of IFAD to finance agricultural projects in the developing world, the theorized first order effect of said programs should be an increase in agricultural production among smallholder farmers. Once these higher yields are realized, it should lead to improved access to not just food, but also food varieties. This should then imply an increase in nutritional intake by all members of the family, specifically the children. The goal of this paper is to assess the impact that a random sample of IFAD projects has had on childhood nutrition by looking at a variety of anthropometric outcomes. Our overall findings are mixed, finding that some projects have led to improved child well-being, others have done the opposite, and the remaining project effects are unable to be detected due to low precision. more...

Published
2017

28. Anisotropic Thermally Conductive Composites Enabled by Acoustophoresis and Stereolithography

Author

Melchert, Drew S., primary, Tahmasebipour, Amir, additional, Liu, Xin, additional, Mancini, Julie, additional, Moran, Bryan, additional, Giera, Brian, additional, Joshipura, Ishan D., additional, Shusteff, Maxim, additional, Meinhart, Carl D., additional, Cobb, Corie L., additional, Spadaccini, Christopher, additional, Gianola, Daniel S., additional, and Begley, Matthew R., additional more...

Published
2022
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31. Primitive Model Simulations and Mean-Field Studies of Electric Double Layers

Author

Giera, Brian

Subjects
Chemical engineering, Dissertation, Electric Double Layer, Mean-Field Theory, Molecular Dynamics, Primitive Model, Theory
Abstract

When a charged surface, such as an electrode, colloid, or protein, is submerged into an electrolyte or ionic liquid, ions within the fluid rearrange into electric double layers (EDLs) that electrostatically screen the interfacial charge. The electrostatic potential and ion distributions within EDLs have long been described by mean-field local-density approximations (LDAs) that assume flat electrodes, uncorrelated ions, and bulk forms for the chemical potential. The objective of this work is to elucidate LDA failure mechanisms and supplement or supplant mean-field treatments of electrochemical systems that fail to capture correlated behavior. We develop an exceedingly general method, which requires no a priori model and identifies whether EDLs in a given electrolyte can obey a LDA, or whether more advanced approaches (e.g. integro-differential equations, atomistic simulations, etc.) are required, irrespective of the source of LDA breakdown. We combine continuum-level theoretical studies with complementary simulations in order to critically assess the accuracy of LDA models of implicit solvent electrolytes with equal and differently sized ions. We also pose a novel LDA model that seeks to address solvation, polarizability, and finite-size interactions present in actual and simulated EDLs with explicit solvent. more...

Published
2014

33. Correlating dynamic microstructure to observed color in electrophoretic displays via in situ small-angle x-ray scattering

Author

Bukosky, Scott C., primary, Hammons, Joshua A., additional, Giera, Brian, additional, Lee, Elaine, additional, Han, Jinkyu, additional, Freyman, Megan C., additional, Ivanovskaya, Anna, additional, Krauter, Kerry G., additional, Kuntz, Joshua D., additional, Worsley, Marcus A., additional, Han, T. Yong-Jin, additional, Ristenpart, William D., additional, and Pascall, Andrew J., additional more...

Published
2020
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45. TrueNorth Ecosystem for Brain-Inspired Computing: Scalable Systems, Software, and Applications

Author

Sawada, Jun, primary, Akopyan, Filipp, additional, Cassidy, Andrew S., additional, Taba, Brian, additional, Debole, Michael V., additional, Datta, Pallab, additional, Alvarez-Icaza, Rodrigo, additional, Amir, Arnon, additional, Arthur, John V., additional, Andreopoulos, Alexander, additional, Appuswamy, Rathinakumar, additional, Baier, Heinz, additional, Barch, Davis, additional, Berg, David J., additional, Di Nolfo, Carmelo, additional, Esser, Steven K., additional, Flickner, Myron, additional, Horvath, Thomas A., additional, Jackson, Bryan L., additional, Kusnitz, Jeff, additional, Lekuch, Scott, additional, Mastro, Michael, additional, Melano, Timothy, additional, Merolla, Paul A., additional, Millman, Steven E., additional, Nayak, Tapan K., additional, Pass, Norm, additional, Penner, Hartmut E., additional, Risk, William P., additional, Schleupen, Kai, additional, Shaw, Benjamin, additional, Wu, Hayley, additional, Giera, Brian, additional, Moody, Adam T., additional, Mundhenk, Nathan, additional, Van Essen, Brian C., additional, Wang, Eric X., additional, Widemann, David P., additional, Wu, Qing, additional, Murphy, William E., additional, Infantolino, Jamie K., additional, Ross, James A., additional, Shires, Dale R., additional, Vindiola, Manuel M., additional, Namburu, Raju, additional, and Modha, Dharmendra S., additional more...

Published
2016
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49. Enabling additive manufacturing part inspection of digital twins via collaborative virtual reality.

Author

Chheang V, Narain S, Hooten G, Cerda R, Au B, Weston B, Giera B, Bremer PT, and Miao H

Abstract

Digital twins (DTs) are an emerging capability in additive manufacturing (AM), set to revolutionize design optimization, inspection, in situ monitoring, and root cause analysis. AM DTs typically incorporate multimodal data streams, ranging from machine toolpaths and in-process imaging to X-ray CT scans and performance metrics. Despite the evolution of DT platforms, challenges remain in effectively inspecting them for actionable insights, either individually or in a multidisciplinary, geographically distributed team setting. Quality assurance, manufacturing departments, pilot labs, and plant operations must collaborate closely to reliably produce parts at scale. This is particularly crucial in AM where complex structures require a collaborative and multidisciplinary approach. Additionally, the large-scale data originating from different modalities and their inherent 3D nature pose significant hurdles for traditional 2D desktop-based inspection methods. To address these challenges and increase the value proposition of DTs, we introduce a novel virtual reality (VR) framework to facilitate collaborative and real-time inspection of DTs in AM. This framework includes advanced features for intuitive alignment and visualization of multimodal data, visual occlusion management, streaming large-scale volumetric data, and collaborative tools, substantially improving the inspection of AM components and processes to fully exploit the potential of DTs in AM., Competing Interests: Declarations. Competing interests: The authors declare no competing interests., (© 2024. The Author(s).) more...

Published
2024
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50. The multivariate interaction between Au and TiO 2 colloids: the role of surface potential, concentration, and defects.

Author

Lau K, Giera B, Barcikowski S, and Reichenberger S

Abstract

The established DLVO theory explains colloidal stability by the electrostatic repulsion between electrical double layers. While the routinely measured zeta potential can estimate the charges of double layers, it is only an average surface property which might deviate from the local environment. Moreover, other factors such as the ionic strength and the presence of defects should also be considered. To investigate this multivariate problem, here we model the interaction between a negatively charged Au particle and a negatively charged TiO 2 surface containing positive/neutral defects ( e.g. surface hydroxyls) based on the finite element method, over 6000 conditions of these 6 parameters: V Part (particle potential), V Surf (surface potential), V Def (defect potential), DD (defect density), Conc (salt concentration), and R (particle radius). Using logistic regression, the relative importance of these factors is determined: V Surf > V Part > DD > Conc > R > V Def , which agrees with the conventional wisdom that the surface (and zeta) potential is indeed the most decisive descriptor for colloidal interactions, and the salt concentration is also important for charge screening. However, when defects are present, it appears that their density is more influential than their potential. To predict the fate of interactions more confidently with all the factors, we train a support vector machine (SVM) with the simulation data, which achieves 97% accuracy in determining whether adsorption is favorable on the support. The trained SVM including a graphical user interface for querying the prediction is freely available online for comparing with other materials and models. We anticipate that our model can stimulate further colloidal studies examining the importance of the local environment, while simultaneously considering multiple factors. more...

Published
2024
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