Exploring Aerospace Design in Virtual Reality with Dimension Reduction

Tadeja, Sławomir K.; Seshadri, Pranay; Kristensson, Per Ola

doi:10.2514/6.2019-2206

Cited by 8 publications

(24 citation statements)

References 20 publications

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“…26 In addition, users can freely move within and maneuver in the 3D space to explore all parts of the visualization. 4 Furthermore, our system augments the pattern identification task with 3D scatter plots, [4][5][6] that can substantially aid users in isolating groups of data items that can potentially form patterns.…”

Section: A 3-dimensional and Immersive Parallel Coordinatesmentioning

confidence: 99%

“…This is The green markers with accompanying letters are showing mapping between the action-buttons on both types of controllers. The description of user's movement in the 3D space together with interaction details can be found in Tadeja et al 5,6 a high-dimensional design space with many controllable and uncontrollable parameters. Controllable parameters include rendering parameters, such as colors and shapes, visual/auditory feedback design, interaction techniques, and choice of headset and hardware controllers.…”

Section: A Overviewmentioning

confidence: 99%

“…A description of the first thereof which briefly discusses the observational user study, results of which we used to trim the vast design space, can be found in Tadeja et al 4 The underpinning VR system that included the basis of interaction techniques i.e. the gaze-tracking and racy tracing facilitated by a cross-hair was discussed in Tadeja et al 5,6 and is built based on the Unity VR Samples Pack 7 that utilizes the well-know concept of a cross-hair to simulate the user's gaze (for instance, see orange circle in Fig. 4) and Oculus Utilities for Unity 8 together with some elements from the Unity asset store packages.…”

Section: Introductionmentioning

confidence: 99%

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IPCP: Immersive Parallel Coordinates Plots for Engineering Design Processes

Tadeja

Kipouros

Kristensson

2020

AIAA Scitech 2020 Forum

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Computational engineering design methods and tools are common practice in modern industry. Such approaches are integral in enabling designers to efficiently explore larger and more complex design spaces. However, at the same time, computational engineering design methods tend to dramatically increase the number of candidate solutions that decision-makers must interpret in order to make appropriate choices within a set of solutions. Since all candidate solutions can be represented in digital form together with their assessment criteria, evaluated according to some sort of simulation model, a natural way to explore and understand the complexities of the design problem is to visualize their multidimensional nature. The task now involves the discovery of patterns and trends within the multidimensional design space. In this work, we aim to enhance the design decision-making process by embedding visual analytics into an immersive virtual reality environment. To this end, we present a system called IPCP: immersive parallel coordinates plots. IPCP combines the well-established parallel coordinates visualization technique for high-dimensional data with immersive virtual reality. We propose this approach in order to exploit and discover efficient means to use new technology within a conventional decision-making process. The aim is to provide benefits by enhancing visualizations of 3D geometry and other physical quantities with scientific information. We present the design of this system, which allows the representation and exploration of multidimensional scientific datasets. A qualitative evaluation with two surrogate expert users, knowledgeable in multidimensional data analysis, demonstrate that the system can be used successfully to detect both known and previously unknown patterns in a real-world test dataset, producing an early indicative validation of its suitability for decision support in engineering design processes.

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Section: A 3-dimensional and Immersive Parallel Coordinatesmentioning

confidence: 99%

Section: A Overviewmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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IPCP: Immersive Parallel Coordinates Plots for Engineering Design Processes

Tadeja

Kipouros

Kristensson

2020

AIAA Scitech 2020 Forum

Self Cite

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“…The copy of the selected items will be generated in a preconfigured fixed distance towards the direction in which the user is gazing following a tap of a button on the controller. The design and functionality of the interactive 3D scatter plots was borrowed from Tadeja et al [17]. They can be freely moved in 3D space, rotated along any of the three main axes in 90°intervals ( Figure 2) and have very basic, built-in clustering capabilities (Figure 3).…”

Section: Visualizationmentioning

confidence: 99%

“…3D scatter plot[17] automatically generated out of the selected dimensions. (a) A sample of selected points in the bottom-left corner.…”

mentioning

confidence: 99%

Exploring Parallel Coordinates Plots in Virtual Reality

Tadeja

Kipouros

Kristensson

2019

Extended Abstracts of the 2019 CHI Conference on Human Factors in Computing Systems

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Parallel Coordinates Plots (PCP) are a widely used approach to interactively visualize and analyze multidimensional scientific data in a 2D environment. In this paper, we explore the use of Parallel Coordinates in an immersive Virtual Reality (VR) 3D visualization environment as a means to support the decision-making process in engineering design processes. We evaluate the potential of VR PCP using a formative qualitative study with seven participants. In a task involving 54 points with 29 dimensions per point, we found that participants were able to detect patterns in the dataset compared with a previously published study with two expert users using traditional 2D PCP, which acts as the gold standard for the dataset. The dataset describes the Pareto front for a three-objective aerodynamic design optimization study in turbomachinery.

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Virtual Reality Assisted General Education of Nuclear Chemistry and Radiochemistry

et al. 2022

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Nuclear chemistry and radiochemistry is a branch of chemistry that has high experimental risks, has high research costs, and is subject to certain prejudices. However, it has an extremely important influence on the development of human life. It is particularly important to emphasize the general education of nuclear chemistry and radiochemistry without compromising the quality of the teaching. The introduction of the general education mode into nuclear chemistry and radiochemistry overcomes the shortcomings of narrow audiences. However, single theoretical courses are limited to a slide-based lecture. Although the audience for general education is wide, it is difficult to carry out related experiments because of safety responsibility and teaching funds. In this work, VR technology was first applied to the general education of nuclear chemistry and radiochemistry, and the audiences of the course were not limited to students who major in chemistry. The research results showed that not only did the VR platform effectively improve students' learning confidence, but also the effect of teacher−student interaction and the usability of VR equipment were recognized. This work may bring enlightenment to the popularization of nuclear chemistry and radiochemistry through new media technology.

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Exploring Aerospace Design in Virtual Reality with Dimension Reduction

Cited by 8 publications

References 20 publications

IPCP: Immersive Parallel Coordinates Plots for Engineering Design Processes

IPCP: Immersive Parallel Coordinates Plots for Engineering Design Processes

Exploring Parallel Coordinates Plots in Virtual Reality

Virtual Reality Assisted General Education of Nuclear Chemistry and Radiochemistry

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