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1. Interaction Techniques for User-friendly Interfaces for Gate-based Quantum Computing

Author

Kim, Hyeok and Smith, Kaitlin N.

Subjects
Computer Science - Human-Computer Interaction, Electrical Engineering and Systems Science - Systems and Control
Abstract

Quantum computers offer promising approaches to various fields. To use current noisy quantum computers, developers need to examine the compilation of a logical circuit, the status of available hardware, and noises in results. As those tasks are less common in classical computing, quantum developers may not be familiar with performing them. Therefore, easier and more intuitive interfaces are necessary to make quantum computers more approachable. While existing notebook-based toolkits like Qiskit offer application programming interfaces and visualization techniques, it is still difficult to navigate the vast space of quantum program design and hardware status. Inspired by human-computer interaction (HCI) work in data science and visualization, our work introduces four user interaction techniques that can augment existing notebook-based toolkits for gate-based quantum computing: (1) a circuit writer that lets users provide high-level information about a circuit and generates a code snippet to build it; (2) a machine explorer that provides detailed properties and configurations of a hardware with a code to load selected information; (3) a circuit viewer that allows for comparing logical circuit, compiled circuit, and hardware configurations; and (4) a visualization for adjusting measurement outcomes with hardware error rates., Comment: A poster accepted to IEEE QCE 2024

Published
2024

2. Bringing Data into the Conversation: Adapting Content from Business Intelligence Dashboards for Threaded Collaboration Platforms

Author

Kim, Hyeok, Srinivasan, Arjun, and Brehmer, Matthew

Subjects
Computer Science - Human-Computer Interaction
Abstract

To enable data-driven decision-making across organizations, data professionals need to share insights with their colleagues in context-appropriate communication channels. Many of their colleagues rely on data but are not themselves analysts; furthermore, their colleagues are reluctant or unable to use dedicated analytical applications or dashboards, and they expect communication to take place within threaded collaboration platforms such as Slack or Microsoft Teams. In this paper, we introduce a set of six strategies for adapting content from business intelligence (BI) dashboards into appropriate formats for sharing on collaboration platforms, formats that we refer to as dashboard snapshots. Informed by prior studies of enterprise communication around data, these strategies go beyond redesigning or restyling by considering varying levels of data literacy across an organization, introducing affordances for self-service question-answering, and anticipating the post-sharing lifecycle of data artifacts. These strategies involve the use of templates that are matched to common communicative intents, serving to reduce the workload of data professionals. We contribute a formal representation of these strategies and demonstrate their applicability in a comprehensive enterprise communication scenario featuring multiple stakeholders that unfolds over the span of months., Comment: 5 pages, 5 figures, accepted to IEEE VIS 2024 Short Paper

Published
2024
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3. Measure-Observe-Remeasure: An Interactive Paradigm for Differentially-Private Exploratory Analysis

Author

Nanayakkara, Priyanka, Kim, Hyeok, Wu, Yifan, Sarvghad, Ali, Mahyar, Narges, Miklau, Gerome, and Hullman, Jessica

Subjects
Computer Science - Cryptography and Security, Computer Science - Databases, Computer Science - Human-Computer Interaction
Abstract

Differential privacy (DP) has the potential to enable privacy-preserving analysis on sensitive data, but requires analysts to judiciously spend a limited ``privacy loss budget'' $\epsilon$ across queries. Analysts conducting exploratory analyses do not, however, know all queries in advance and seldom have DP expertise. Thus, they are limited in their ability to specify $\epsilon$ allotments across queries prior to an analysis. To support analysts in spending $\epsilon$ efficiently, we propose a new interactive analysis paradigm, Measure-Observe-Remeasure, where analysts ``measure'' the database with a limited amount of $\epsilon$, observe estimates and their errors, and remeasure with more $\epsilon$ as needed. We instantiate the paradigm in an interactive visualization interface which allows analysts to spend increasing amounts of $\epsilon$ under a total budget. To observe how analysts interact with the Measure-Observe-Remeasure paradigm via the interface, we conduct a user study that compares the utility of $\epsilon$ allocations and findings from sensitive data participants make to the allocations and findings expected of a rational agent who faces the same decision task. We find that participants are able to use the workflow relatively successfully, including using budget allocation strategies that maximize over half of the available utility stemming from $\epsilon$ allocation. Their loss in performance relative to a rational agent appears to be driven more by their inability to access information and report it than to allocate $\epsilon$., Comment: Published in IEEE Symposium on Security and Privacy (SP) 2024

Published
2024
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4. Erie: A Declarative Grammar for Data Sonification

Author

Kim, Hyeok, Kim, Yea-Seul, and Hullman, Jessica

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Sound
Abstract

Data sonification-mapping data variables to auditory variables, such as pitch or volume-is used for data accessibility, scientific exploration, and data-driven art (e.g., museum exhibitions) among others. While a substantial amount of research has been made on effective and intuitive sonification design, software support is not commensurate, limiting researchers from fully exploring its capabilities. We contribute Erie, a declarative grammar for data sonification, that enables abstractly expressing auditory mappings. Erie supports specifying extensible tone designs (e.g., periodic wave, sampling, frequency/amplitude modulation synthesizers), various encoding channels, auditory legends, and composition options like sequencing and overlaying. Using standard Web Audio and Web Speech APIs, we provide an Erie compiler for web environments. We demonstrate the expressiveness and feasibility of Erie by replicating research prototypes presented by prior work and provide a sonification design gallery. We discuss future steps to extend Erie toward other audio computing environments and support interactive data sonification., Comment: 19 pages, 19 tables, 4 figures. Accepted at ACH CHI 2024

Published
2024
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6. Opportunities in Mental Health Support for Informal Dementia Caregivers Suffering from Verbal Agitation

Author

Kim, Taewook, Kim, Hyeok, Roberts, Angela, Jacobs, Maia, and Kay, Matthew

Subjects
Computer Science - Human-Computer Interaction
Abstract

People with dementia (PwD) often present verbal agitation such as cursing, screaming, and persistently complaining. Verbal agitation can impose mental distress on informal caregivers (e.g., family, friends), which may cause severe mental illnesses, such as depression and anxiety disorders. To improve informal caregivers' mental health, we explore design opportunities by interviewing 11 informal caregivers suffering from verbal agitation of PwD. In particular, we first characterize how the predictability of verbal agitation impacts informal caregivers' mental health and how caregivers' coping strategies vary before, during, and after verbal agitation. Based on our findings, we propose design opportunities to improve the mental health of informal caregivers suffering from verbal agitation: distracting PwD (in-situ support; before), prompting just-in-time maneuvers (information support; during), and comfort and education (social & information support; after). We discuss our reflections on cultural disparities between participants. Our work envisions a broader design space for supporting informal caregivers' well-being and describes when and how that support could be provided., Comment: 26 pages, 1 figure, 2 tables. Accepted to PACM HCI (CSCW 2024)

Published
2023

7. Fostering Enterprise Conversations Around Data on Collaboration Platforms

Author

Kim, Hyeok, Srinivasan, Arjun, and Brehmer, Matthew

Subjects
Computer Science - Human-Computer Interaction
Abstract

In enterprise organizations, data-driven decision making processes include the use of business intelligence dashboards and collaborative deliberation on communication platforms such as Slack. However, apart from those in data analyst roles, there is shallow engagement with dashboard content due to insufficient context, poor representation choices, or a lack of access and guidance. Data analysts often need to retarget their dashboard content for those with limited engagement, and this retargeting process often involves switching between different tools. To inform the design of systems that streamline this work process, we conducted a co-design study with nine enterprise professionals who use dashboard content to communicate with their colleagues. We consolidate our findings from the co-design study into a comprehensive demonstration scenario. Using this scenario as a design probe, we interviewed 14 data workers to further develop our design recommendations., Comment: 21 pages, 7 figures

Published
2023

10. Dupo: A Mixed-Initiative Authoring Tool for Responsive Visualization

Author

Kim, Hyeok, Rossi, Ryan, Hullman, Jessica, and Hoffswell, Jane

Subjects
Computer Science - Human-Computer Interaction
Abstract

Designing responsive visualizations for various screen types can be tedious as authors must manage multiple chart~versions across design iterations. Automated approaches for responsive visualization must take into account the user's need for agency in exploring possible design ideas and applying customizations based on their own goals. We design and implement Dupo, a mixed-initiative approach to creating responsive visualizations that combines the agency afforded by a manual interface with automation provided by a recommender system. Given an initial design, users can browse automated design suggestions for a different screen type and make edits to a chosen design, thereby supporting quick prototyping and customizability. Dupo employs a two-step recommender pipeline that first suggests significant design changes (Exploration) followed by more subtle changes (Alteration). We evaluated Dupo with six expert responsive visualization authors. While creating responsive versions of a source design in Dupo, participants could reason about different design suggestions without having to manually prototype them, and thus avoid prematurely fixating on a particular design. This process led participants to create designs that they were satisfied with but which they had previously overlooked., Comment: 10 pages, 5 figures, accepted to IEEE VIS 2023

Published
2023

12. Comparative Analysis of Time Series Forecasting Approaches for Household Electricity Consumption Prediction

Author

Bilal, Muhammad, Kim, Hyeok, Fayaz, Muhammad, and Pawar, Pravin

Subjects
Computer Science - Machine Learning
Abstract

As a result of increasing population and globalization, the demand for energy has greatly risen. Therefore, accurate energy consumption forecasting has become an essential prerequisite for government planning, reducing power wastage and stable operation of the energy management system. In this work we present a comparative analysis of major machine learning models for time series forecasting of household energy consumption. Specifically, we use Weka, a data mining tool to first apply models on hourly and daily household energy consumption datasets available from Kaggle data science community. The models applied are: Multilayer Perceptron, K Nearest Neighbor regression, Support Vector Regression, Linear Regression, and Gaussian Processes. Secondly, we also implemented time series forecasting models, ARIMA and VAR, in python to forecast household energy consumption of selected South Korean households with and without weather data. Our results show that the best methods for the forecasting of energy consumption prediction are Support Vector Regression followed by Multilayer Perceptron and Gaussian Process Regression.

Published
2022

16. Cicero: A Declarative Grammar for Responsive Visualization

Author

Kim, Hyeok, Rossi, Ryan, Du, Fan, Koh, Eunyee, Guo, Shunan, Hullman, Jessica, and Hoffswell, Jane

Subjects
Computer Science - Human-Computer Interaction
Abstract

Designing responsive visualizations can be cast as applying transformations to a source view to render it suitable for a different screen size. However, designing responsive visualizations is often tedious as authors must manually apply and reason about candidate transformations. We present Cicero, a declarative grammar for concisely specifying responsive visualization transformations which paves the way for more intelligent responsive visualization authoring tools. Cicero's flexible specifier syntax allows authors to select visualization elements to transform, independent of the source view's structure. Cicero encodes a concise set of actions to encode a diverse set of transformations in both desktop-first and mobile-first design processes. Authors can ultimately reuse design-agnostic transformations across different visualizations. To demonstrate the utility of Cicero, we develop a compiler to an extended version of Vega-Lite, and provide principles for our compiler. We further discuss the incorporation of Cicero into responsive visualization authoring tools, such as a design recommender., Comment: 14 pages, 15 figures, accepted to CHI 2022

Published
2022
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17. Personalization Trade-offs in Designing a Dialogue-based Information System for Support-Seeking of Sexual Violence Survivors

Author

Kim, Hyeok, Hwang, Youjin, Lee, Jieun, Kwon, Youngjin, Park, Yujin, and Lee, Joonhwan

Subjects
Computer Science - Human-Computer Interaction
Abstract

The lack of reliable, personalized information often complicates sexual violence survivors' support-seeking. Recently, there is an emerging approach to conversational information systems for support-seeking of sexual violence survivors, featuring personalization with wide availability and anonymity. However, a single best solution might not exist as sexual violence survivors have different needs and purposes in seeking support channels. To better envision conversational support-seeking systems for sexual violence survivors, we explore personalization trade-offs in designing such information systems. We implement a high-fidelity prototype dialogue-based information system through four design workshop sessions with three professional caregivers and interviewed with four self-identified survivors using our prototype. We then identify two forms of personalization trade-offs for conversational support-seeking systems: (1) specificity and sensitivity in understanding users and (2) relevancy and inclusiveness in providing information. To handle these trade-offs, we propose a reversed approach that starts from designing information and inclusive tailoring that considers unspecified needs, respectively., Comment: 15 pages, 2 figures, 1 table, accepted for CHI 2022

Published
2022

22. An Automated Approach to Reasoning About Task-Oriented Insights in Responsive Visualization

Author

Kim, Hyeok, Rossi, Ryan, Sarma, Abhraneel, Moritz, Dominik, and Hullman, Jessica

Subjects
Computer Science - Human-Computer Interaction
Abstract

Authors often transform a large screen visualization for smaller displays through rescaling, aggregation and other techniques when creating visualizations for both desktop and mobile devices (i.e., responsive visualization). However, transformations can alter relationships or patterns implied by the large screen view, requiring authors to reason carefully about what information to preserve while adjusting their design for the smaller display. We propose an automated approach to approximating the loss of support for task-oriented visualization insights (identification, comparison, and trend) in responsive transformation of a source visualization. We operationalize identification, comparison, and trend loss as objective functions calculated by comparing properties of the rendered source visualization to each realized target (small screen) visualization. To evaluate the utility of our approach, we train machine learning models on human ranked small screen alternative visualizations across a set of source visualizations. We find that our approach achieves an accuracy of 84% (random forest model) in ranking visualizations. We demonstrate this approach in a prototype responsive visualization recommender that enumerates responsive transformations using Answer Set Programming and evaluates the preservation of task-oriented insights using our loss measures. We discuss implications of our approach for the development of automated and semi-automated responsive visualization recommendation., Comment: 9 pages, 11 figures, 2 tables. Accepted at IEEE VIS 2021

Published
2021

28. Design Patterns and Trade-Offs in Responsive Visualization for Communication

Author

Kim, Hyeok, Moritz, Dominik, and Hullman, Jessica

Subjects
Computer Science - Human-Computer Interaction
Abstract

Increased access to mobile devices motivates the need to design communicative visualizations that are responsive to varying screen sizes. However, relatively little design guidance or tooling is currently available to authors. We contribute a detailed characterization of responsive visualization strategies in communication-oriented visualizations, identifying 76 total strategies by analyzing 378 pairs of large screen (LS) and small screen (SS) visualizations from online articles and reports. Our analysis distinguishes between the Targets of responsive visualization, referring to what elements of a design are changed and Actions representing how targets are changed. We identify key trade-offs related to authors' need to maintain graphical density, referring to the amount of information per pixel, while also maintaining the "message" or intended takeaways for users of a visualization. We discuss implications of our findings for future visualization tool design to support responsive transformation of visualization designs, including requirements for automated recommenders for communication-oriented responsive visualizations., Comment: 10 pages, 9 figures, accepted to Computer Graphics Forum (EuroVis 2021)

Published
2021

29. Effects of the Anode Diffusion Layer on the Performance of a Nonenzymatic Electrochemical Glucose Fuel Cell with a Proton Exchange Membrane.

Author

Kim, Jaeyeon, Choi, Heesoo, Yoo, Hongnyoung, Kim, Hyeok, Park, Taehyun, Cha, Hyeonjin, and Kwon, Obeen

Abstract

It is necessary to apply a nonenzymatic glucose fuel cell using a proton exchange membrane for an implantable biomedical device that operates at low power. The permeability of glucose with high viscosity and a large molecular weight in the porous medium of the diffusion layer was investigated for use in fuel cells. Carbon paper was prepared as an anode diffusion layer, and it was analyzed with a diffusion layer treated with polytetrafluoroethylene (PTFE) and a microporous layer (MPL). When untreated carbon paper was applied, the peak power density (PPD) and open-circuit voltage (OCV) increased as the glucose concentration and flow rate increased. On this occasion, the highest PPD of 17.81 μW cm-2 was achieved at 3 mM and a 2.0 mL min-1 glucose aqueous solution (at atmospheric pressure and 36.5 °C). The diffusion layer, which became more hydrophobic through PTFE treatment, adversely affected glucose permeability. In addition, the addition of an MPL decreased OCV and PPD with increasing glucose concentrations and flow rates. Compared with untreated carbon paper, the PPD was six times lower approximately. Consequently, it was confirmed that the properties of carbon paper, such as low hydrophobicity, high porosity, and thin thickness, would be advantageous for nonenzymatic glucose fuel cells.

Published
2021

33. Application of Genetic Algorithm for More Efficient Multi-Layer Thickness Optimization in Solar Cells

Author

Vincent, Premkumar, Sergio, Gwenaelle Cunha, Jang, Jaewon, Kang, In Man, Park, Jaehoon, Kim, Hyeok, Lee, Minho, and Bae, Jin-Hyuk

Subjects
Computer Science - Neural and Evolutionary Computing
Abstract

Thin-film solar cells are predominately designed similar to a stacked structure. Optimizing the layer thicknesses in this stack structure is crucial to extract the best efficiency of the solar cell. The commonplace method used in optimization simulations, such as for optimizing the optical spacer layers' thicknesses, is the parameter sweep. Our simulation study shows that the implementation of a meta-heuristic method like the genetic algorithm results in a significantly faster and accurate search method when compared to the brute-force parameter sweep method in both single and multi-layer optimization. While other sweep methods can also outperform the brute-force method, they do not consistently exhibit $100\%$ accuracy in the optimized results like our genetic algorithm. We have used a well-studied P3HT-based structure to test our algorithm. Our best-case scenario was observed to use $60.84\%$ fewer simulations than the brute-force method., Comment: Published (https://www.mdpi.com/1996-1073/13/7/1726), Code (https://github.com/gcunhase/GeneticAlgorithm-SolarCells)

Published
2019
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41. Wide Bandgap Donor can Offer High‐Efficiency LED Indoor Organic Photovoltaic with Indium‐Doped Zinc Oxide Electron Transport Layer.

Author

Lee, Hyeong Won, Biswas, Swarup, Choi, Hyojeong, Lee, Yongju, and Kim, Hyeok

Subjects
ELECTRON transport, ELECTRON mobility, LED lighting, ENERGY bands, ELECTRONIC equipment
Abstract

Indoor organic photovoltaic (OPV) cells offer a compelling solution for powering diverse electronic devices integrated into the Internet of Things (IoT) network. They are prized for their robust power conversion efficiency (PCE), mechanical resilience, and ultra‐thin nature. The recent surge in inverted‐structure OPVs reflects their enhanced stability over conventional designs. Despite the advantage, their adaptation for indoor light utilization remains underexplored. Optimal selection of an electron transport layer (ETL) with precise energy band alignment is critical in this system. Herein, an inverted‐structured OPV is fabricated utilizing PBDB‐T as the wide bandgap donor, with a focus on enhancing its PCE under 1000 lx LED illumination through the doping of the zinc oxide‐ (ZnO‐) based ETL with indium (In). The results indicate that the device utilizing undoped ZnO as the ETL achieves a peak PCE of 9.42% under these specified conditions. Conversely, the OPV utilizing In‐doped ZnO as the ETL achieves a significantly higher PCE of 29.78% with 5 at% In, indicates the usefulness of ETL doping by In. This may be caused by the tuning of energy band alignment, improvement in electron mobility, and reduction in surface roughness of ZnO by In doping. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Author Correction: Human cardiac stem cells rejuvenated by modulating autophagy with MHY-1685 enhance the therapeutic potential for cardiac repair

Author

Park, Ji Hye, Kim, Hyeok, Moon, Hyung Ryong, Park, Bong-Woo, Park, Jae-Hyun, Sim, Woo-Sup, Kim, Jin-Ju, Lim, Hye Ji, Kim, Yeon-Ju, Ji, Seung Taek, Jang, Woong Bi, Rethineswaran, Vinoth Kumar, Van, Le Thi Hong, Giang, Ly Thanh Truong, Yun, Jisoo, Ha, Jong Seong, Ban, Kiwon, Chung, Hae Young, Baek, Sang Hong, Park, Hun-Jun, and Kwon, Sang-Mo

Published
2022
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