Exploring the Potential of 3D Visualization Techniques for Usage in Collaborative Design

Best practice for collaborative design demands good interaction between its collaborators. The capacity to share common knowledge about design models at hand is a basic requirement. With current advancing technologies gathering collective knowledge is more straightforward, as the dialog between experts can be supported better. The potential for 3D visualization techniques to become the right support tool for collaborative design is explored. Special attention is put on the possible usage for remote collaboration. The opportunities for current state-of-the-art visualization techniques from stereoscopic vision to holographic displays are researched. A classification of the various systems is explored with respect to their tangible usage for augmented reality. Appropriate interaction methods can be selected based on the usage scenario

Tangible user interfaces : past, present and future directions

In the last two decades, Tangible User Interfaces (TUIs) have emerged as a new interface type that interlinks the digital and physical worlds. Drawing upon users' knowledge and skills of interaction with the real non-digital world, TUIs show a potential to enhance the way in which people interact with and leverage digital information. However, TUI research is still in its infancy and extensive research is required in or- der to fully understand the implications of tangible user interfaces, to develop technologies that further bridge the digital and the physical, and to guide TUI design with empirical knowledge. This paper examines the existing body of work on Tangible User In- terfaces. We start by sketching the history of tangible user interfaces, examining the intellectual origins of this field. We then present TUIs in a broader context, survey application domains, and review frame- works and taxonomies. We also discuss conceptual foundations of TUIs including perspectives from cognitive sciences, phycology, and philoso- phy. Methods and technologies for designing, building, and evaluating TUIs are also addressed. Finally, we discuss the strengths and limita- tions of TUIs and chart directions for future research

AI EDAM special issue: advances in implemented shape grammars: solutions and applications

This paper introduces the special issue “Advances in Implemented Shape Grammars: Solutions and Applications” and frames the topic of computer implementations of shape grammars, both with a theoretical and an applied focus. This special issue focuses on the current state of the art regarding computer implementations of shape grammars and brings a discussion about how those systems can evolve in the coming years so that they can be used in real life design scenarios. This paper presents a brief state of the art of shape grammars implementation and an overview of the papers included in the current special issue categorized under technical design, interpreters and interface design, and uses cases. The paper ends with a comprehensive outlook into the future of shape grammars implementations.info:eu-repo/semantics/acceptedVersio

Augmented and Virtual Reality techniques for footwear

The use of 3D imaging techniques has been early adopted in the footwear industry. In particular, 3D imaging could be used to aid commerce and improve the quality and sales of shoes. Footwear customization is an added value aimed not only to improve product quality, but also consumer comfort. Moreover, customisation implies a new business model that avoids the competition of mass production coming from new manufacturers settled mainly in Asian countries. However, footwear customisation implies a significant effort at different levels. In manufacturing, rapid and virtual prototyping is required; indeed the prototype is intended to become the final product. The whole design procedure must be validated using exclusively virtual techniques to ensure the feasibility of this process, since physical prototypes should be avoided. With regard to commerce, it would be desirable for the consumer to choose any model of shoes from a large 3D database and be able to try them on looking at a magic mirror. This would probably reduce costs and increase sales, since shops would not require storing every shoe model and the process of trying several models on would be easier and faster for the consumer. In this paper, new advances in 3D techniques coming from experience in cinema, TV and games are successfully applied to footwear. Firstly, the characteristics of a high-quality stereoscopic vision system for footwear are presented. Secondly, a system for the interaction with virtual footwear models based on 3D gloves is detailed. Finally, an augmented reality system (magic mirror) is presented, which is implemented with low-cost computational elements that allow a hypothetical customer to check in real time the goodness of a given virtual footwear model from an aesthetical point of view

Exploring virtual reality to improve engineering students' spatial abilities pilot study

A Virtual Reality pilot study is conducted to improve the spatial ability of engineering students based on solid geometry scenarios. The investigation focused on the Graphic Expression and Computer-Aided Design (GECAD) course, specifically on the study of the spatial abilities developed and the assessment of the academic results in the solid geometry module. A total of 20 participants completed three activities (6 h) in an immersive virtual learning environment (IVLE), using head-mounted display (HMD) glasses. Modeling exercises of three-dimensional geometric shapes are proposed, based on concepts of solid geometry. The scenarios are built step by step and the students can regulate the progress between stages while observing the geometric components at the scale and in the point of view they wish. Beyond academic results, the assessment of student improvement is based on spatial abilities tests: the Differential Aptitude Test: Spatial Relations Subset DAT-SR, Purdue Spatial Visualisation Test: Rotations PSVT:R and Mental Cutting Test MCT. Those tests are applied for evaluating different skills: mental folding, mental rotation and section by a plane. In summary, a methodology is proposed developing activities in an (IVLE) with 3D modelling software applied in solid geometry, in order to promote the development of spatial ability (SA). Spatial abilities are measured before and after the classroom activities and looking for correlations between the spatial perception tests (DAT:SR, PSVT:R and MCT) and academic results in solid geometry. In addition, we also wish to determine the students' opinion with regard to the proposed activities. The results obtained confirm the interest in using IVLE to develop spatial abilities in engineering students. Substantial increases of 10,9% in DAT:SR, 8,8 % in PSVT:R and 9,5% in MCT between pre- and post-tests were found. Moreover, the students' opinion of IVLE/HMD activities is positive. The methodology can be summarized in the following steps: 1. Students take the DAT:SR , PSVT:R and MCT prior to the activities. They also answer the survey on other variables that can affect SA (1 h). 2. The students individually complete the exercises with the 3D modelling software SolidWorks (10 h). 3. The IVLE activities consist of the guided reading by the professor of the completed exercise. The professor addresses the concepts of solid geometry used in each step. The students have a few minutes to view with HMD the animation showing the construction of the geometric shape, and once the representation is finished, they can move freely throughout the scenario, using the keyboard options (6 h). 4. Students solve the (DAT:SR, PSVT:R and MCT after the IVLE activities. At the end, the groups answer the satisfaction survey (1 h). 5. All the students are evaluated on their knowledge of the solid geometry contents by means of a test and 3D modelling exercises similar to those done in class and those described in the IVRL (1h). 6. Finally, the analysis of the spatial abilities test data, the controlled variables survey, satisfaction surveys and the academic results obtained in the solid geometry module enable us to examine the correlations and the strongest determining factors in order to obtain good academic results and propose IVLE activities to improve the levels of spatial ability obtained on the tests. This paper describes the exploratory methodology used and its results.Postprint (published version

Augmented and virtual realities : the future of building design and visualization

The present study precisely conveys the methodology of developing a three-dimensional (3D) architectural model of a villa with its walk-through and displaying the model in virtual reality, which as a result, be used by the clients to spectate, customize and buy the real estate property. Additionally, the case study highlights the advancement in architecture, as certain specifications of each element of a 3D model can be viewed in a virtual environment. Virtual reality is a transpiring platform, and in addition to that, the real-estate sector shows its incorporation in designing, marketing, and selling projects. The teaching and learning process can be eased out by intervening it with technology that generates an enhanced visualization environment. These technologies, when used constructively, save time and energy and also hoard economic standards ensuing lucrative benefits