BITS Faculty Publications
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Item Visualization of urban development 3D layout plans with augmented reality(Elsevier, 2022-06) Rohil, Mukesh KumarIn recent times, requirements in urban planning and construction of buildings have dramatically increased with the drastic growth of population in urban areas. Well-designed urban planning helps in the provision of excellent facilities to the public. Furthermore, it transforms a city into a smart city. Urban planning simplifies the provision of resources, i.e. transportation, communication, water provision, garbage disposal system, etc. The existing construction planning visualizations of 2D CAD and 3D BIM renderings work entirely in virtual digital content, which reduces the graphical object's real-time exposure to the construction process. This work explores some software-driven approaches to visualize 3D layout plans for urban development using Augmented Reality (AR). AR environment gives full-scale walkthroughs of designs to workers and designers. The article analyzes two urban planning scenarios (a) creation of new structures, (b) recreation of existing designs. The creation of new structures is done using Building Information Modeling (BIM) with AR to make 3D layout blueprints come alive. Recreation of existing designs develops BIM after merging two environments together, i.e. already existing structures and designs of new structures. Experimental results consisting of photorealistic AR digital visualizations of indoor as well as outdoor scenes of 3D layouts are used to assess the validity of our approach. The article also reports the historical growth of Augmented Reality, and explores the possible ways to architect and design urban planning 3D layout in the AR environment. Furthermore, it discusses certain possible applications of AR in urban planning.Item Image feature detection using an improved implementation of maximally stable extremal regions for augmented reality applications(Taylor & Francis, 2017-05) Rohil, Mukesh Kumar; Gupta, NeetikaAugmented Reality for all practical purposes requires extensive computation, accurate view alignment and real-time performance. To address some of these limitations, an improved method of feature detection is proposed using Maximally Stable Extremal Regions. The approach used for feature detection extracts the regions of interest using a true flood fill approach for building and maintaining the component tree. This approach has true worst-case linear complexity (Linear-MSER). In the present work, Linear-MSER is implemented at multiple scales of an image in order to increase the affine invariance properties of the detector (MSLinear-MSER). The two detectors, Linear-MSER and MSLinear-MSER, are then combined separately with Scale Invariant Feature Transform and Speeded-Up Robust Feature descriptors for performance comparison. Performance evaluation is done under varying imaging conditions like changes in viewpoint, scale, blur, illumination and JPEG compression. Results show that, MSLinear-MSER+SIFT performs best in terms of time-complexity and number of keypoint matches when executed at six octaves and five levels. This observation is true for all image-sets taken into consideration, containing images that are affine transformed in one way or other. To exhibit the efficiency of MSLinear-MSER+SIFT, a prototype of an AR system is also developed and discussed in this article using this approach.Item Exploring Possible Applications of Augmented Reality in Education(IEEE, 2017) Rohil, Mukesh Kumar; Gupta, NeetikaIn recent years, use of Augmented Reality (AR) has been explored in a wide range of applications in various fields. Among these, one of the most inquired is the field of education. Many of these studies have shown that the use of AR in any learning environment promotes critical thinking, better understanding and motivates the learner for further studies. This is due to the real-time experience that AR brings with it to the learners. This paper reports some of the recent studies that list positive and negative impact of AR in an educational setting and how beneficial the employment of this technology is. The paper also gives an overview of some of the possible and promising applications of AR in the fields of science, social science, mathematics and language. Furthermore, the paper discusses trends and the vision towards future opportunities for possible research in augmented reality for education.