Augmented and virtual reality art: a new frontier of legal protection

Olivia Jean-Baptiste

doi:10.4337/ielr.2021.02.02

Augmented Reality Berbasis Android Sebagai Media Pembelajaran Sistem Tata Surya

Jurnal CoSciTech (Computer Science and Information Technology) ◽

10.37859/coscitech.v2i1.2178 ◽

2021 ◽

Vol 2 (1) ◽

pp. 53-59

Author(s):

Yulia Fatma ◽

Armen Salim ◽

Regiolina Hayami

Keyword(s):

Augmented Reality ◽

Solar System ◽

Real Time ◽

Real World ◽

Virtual World ◽

The Real ◽

Virtual Objects ◽

Augmented Reality Technology ◽

The Revolution

Along with the development, the application can be used as a medium for learning. Augmented Reality is a technology that combines two-dimensional’s virtual objects and three-dimensional’s virtual objects into a real three-dimensional’s then projecting the virtual objects in real time and simultaneously. The introduction of Solar System’s material, students are invited to get to know the planets which are directly encourage students to imagine circumtances in the Solar System. Explenational of planets form and how the planets make the revolution and rotation in books are considered less material’s explanation because its only display objects in 2D. In addition, students can not practice directly in preparing the layout of the planets in the Solar System. By applying Augmented Reality Technology, information’s learning delivery can be clarified, because in these applications are combined the real world and the virtual world. Not only display the material, the application also display images of planets in 3D animation’s objects with audio.

Download Full-text

Real-Life Continuous Flash Suppression - Rendering The Real World Unconscious Using Augmented Reality Goggles

10.31234/osf.io/y3fcz ◽

2018 ◽

Author(s):

Uri Korisky ◽

Rony Hirschhorn ◽

Liad Mudrik

Keyword(s):

Augmented Reality ◽

Real World ◽

Three Dimensional ◽

Real Life ◽

Continuous Flash Suppression ◽

Future Studies ◽

The Real ◽

Dominant Eye ◽

Novel Variant ◽

Real Objects

Notice: a peer-reviewed version of this preprint has been published in Behavior Research Methods and is available freely at http://link.springer.com/article/10.3758/s13428-018-1162-0Continuous Flash Suppression (CFS) is a popular method for suppressing visual stimuli from awareness for relatively long periods. Thus far, it has only been used for suppressing two-dimensional images presented on-screen. We present a novel variant of CFS, termed ‘real-life CFS’, with which the actual immediate surroundings of an observer – including three-dimensional, real life objects – can be rendered unconscious. Real-life CFS uses augmented reality goggles to present subjects with CFS masks to their dominant eye, leaving their non-dominant eye exposed to the real world. In three experiments we demonstrate that real objects can indeed be suppressed from awareness using real-life CFS, and that duration suppression is comparable that obtained using the classic, on-screen CFS. We further provide an example for an experimental code, which can be modified for future studies using ‘real-life CFS’. This opens the gate for new questions in the study of consciousness and its functions.

Download Full-text

Virtual reality: Using the virtual world to improve quality of life in the real world

Bulletin of the Menninger Clinic ◽

10.1521/bumc.65.1.78.18713 ◽

2001 ◽

Vol 65 (1) ◽

pp. 78-91 ◽

Cited By ~ 42

Author(s):

Page L. Anderson ◽

Barbara O. Rothbaum ◽

Larry Hodges

Keyword(s):

Quality Of Life ◽

Virtual Reality ◽

Real World ◽

Virtual World ◽

Improve Quality ◽

The Real

Download Full-text

Difference between the Real World and Virtual World

Proceedings ◽

10.3390/proceedings2020047035 ◽

2020 ◽

Vol 47 (1) ◽

pp. 35

Author(s):

Wei Wang

Keyword(s):

Virtual Reality ◽

Real World ◽

Virtual World ◽

Actual World ◽

Scientific Representation ◽

The Real ◽

The Difference

The development of virtual reality brings an old and historic question on the difference between the real world and unreal world. In this paper, starting from the concept of representation, I argued that what we call “virtual reality” is a representation of an actual or non-actual world and the criterion of difference between the “real world” and “virtual reality” is whether we present it with the intention of using it as a representation. After that, the thesis is demonstrated again from different theories of scientific representation. Therefore, the intuitive distinction between the “real world” and “virtual reality” can be drawn on the epistemological criterion; that is to say, the virtual world is a representation while the real world is not.

Download Full-text

Influence of Physical Characteristics of Routes on Distance Cognition in Virtual Environments

Environment and Planning B Planning and Design ◽

10.1068/b31191 ◽

2005 ◽

Vol 32 (5) ◽

pp. 777-785 ◽

Cited By ~ 26

Author(s):

Ebru Cubukcu ◽

Jack L Nasar

Keyword(s):

Virtual Reality ◽

Virtual Environments ◽

Virtual Environment ◽

Real World ◽

Three Dimensional ◽

Spatial Behavior ◽

Self Report ◽

Parking Garage ◽

The Real ◽

Predicting Behavior

Discrepanices between perceived and actual distance may affect people's spatial behavior. In a previous study Nasar, using self report of behavior, found that segmentation (measured through the number of buildings) along the route affected choice of parking garage and path from the parking garage to a destination. We recreated that same environment in a three-dimensional virtual environment and conducted a test to see whether the same factors emerged under these more controlled conditions and to see whether spatial behavior in the virtual environment accurately reflected behavior in the real environment. The results confirmed similar patterns of response in the virtual and real environments. This supports the use of virtual reality as a tool for predicting behavior in the real world and confirms increases in segmentation as related to increases in perceived distance.

Download Full-text

Augmented Reality Research and Applications in Education

10.5772/intechopen.99356 ◽

2021 ◽

Author(s):

Ezgi Pelin Yildiz

Keyword(s):

Virtual Reality ◽

Augmented Reality ◽

Real Time ◽

Virtual Environment ◽

Real World ◽

The Real ◽

Virtual Objects ◽

Physical Environments ◽

Real Objects ◽

As If

Augmented reality is defined as the technology in which virtual objects are blended with the real world and also interact with each other. Although augmented reality applications are used in many areas, the most important of these areas is the field of education. AR technology allows the combination of real objects and virtual information in order to increase students’ interaction with physical environments and facilitate their learning. Developing technology enables students to learn complex topics in a fun and easy way through virtual reality devices. Students interact with objects in the virtual environment and can learn more about it. For example; by organizing digital tours to a museum or zoo in a completely different country, lessons can be taught in the company of a teacher as if they were there at that moment. In the light of all these, this study is a compilation study. In this context, augmented reality technologies were introduced and attention was drawn to their use in different fields of education with their examples. As a suggestion at the end of the study, it was emphasized that the prepared sections should be carefully read by the educators and put into practice in their lessons. In addition it was also pointed out that it should be preferred in order to communicate effectively with students by interacting in real time, especially during the pandemic process.

Download Full-text

Supporting STEAM learning through student-developed Mixed Reality (MR) experiences

Pacific Journal of Technology Enhanced Learning ◽

10.24135/pjtel.v3i1.83 ◽

2021 ◽

Vol 3 (1) ◽

pp. 6-7

Author(s):

Kathryn MacCallum

Keyword(s):

Virtual Reality ◽

Augmented Reality ◽

Virtual Worlds ◽

Virtual World ◽

Teaching And Learning ◽

Mixed Reality ◽

Learning Experience ◽

Low Cost ◽

Computational Thinking ◽

The Real

Mixed reality (MR) provides new opportunities for creative and innovative learning. MR supports the merging of real and virtual worlds to produce new environments and visualisations where physical and digital objects co-exist and interact in real-time (MacCallum & Jamieson, 2017). The MR continuum links both virtual and augmented reality, whereby virtual reality (VR) enables learners to be immersed within a completely virtual world, while augmented reality (AR) blend the real and the virtual world. MR embraces the spectrum between the real and the virtual; the mix of the virtual and real worlds may vary depending on the application. The integration of MR into education provides specific affordances which make it specifically unique in supporting learning (Parson & MacCallum, 2020; Bacca, Baldiris, Fabregat, Graf & Kinshuk, 2014). These affordance enable students to support unique opportunities to support learning and develop 21st-century learning capabilities (Schrier, 2006; Bower, Howe, McCredie, Robinson, & Grover, 2014). In general, most integration of MR in the classroom tend to be focused on students being the consumers of these experiences. However by enabling student to create their own experiences enables a wider range of learning outcomes to be incorporated into the learning experience. By enabling student to be creators and designers of their own MR experiences provides a unique opportunity to integrate learning across the curriculum and supports the develop of computational thinking and stronger digital skills. The integration of student-created artefacts has particularly been shown to provide greater engagement and outcomes for all students (Ananiadou & Claro, 2009). In the past, the development of student-created MR experiences has been difficult, especially due to the steep learning curve of technology adoption and the overall expense of acquiring the necessary tools to develop these experiences. The recent development of low-cost mobile and online MR tools and technologies have, however, provided new opportunities to provide a scaffolded approach to the development of student-driven artefacts that do not require significant technical ability (MacCallum & Jamieson, 2017). Due to these advances, students can now create their own MR digital experiences which can drive learning across the curriculum. This presentation explores how teachers at two high schools in NZ have started to explore and integrate MR into their STEAM classes. This presentation draws on the results of a Teaching and Learning Research Initiative (TLRI) project, investigating the experiences and reflections of a group of secondary teachers exploring the use and adoption of mixed reality (augmented and virtual reality) for cross-curricular teaching. The presentation will explore how these teachers have started to engage with MR to support the principles of student-created digital experiences integrated into STEAM domains.

Download Full-text

Penerapan Teknologi Augmented Reality Sebagai Model Media Edukasi Kesehatan Gigi Bagi Anak

Creative Information Technology Journal ◽

10.24076/citec.2014v2i1.39 ◽

2015 ◽

Vol 2 (1) ◽

pp. 77

Author(s):

Tonny Hidayat

Keyword(s):

Computer Vision ◽

Augmented Reality ◽

Real World ◽

Dental Health ◽

Three Dimensional ◽

Video Stream ◽

Public Understanding ◽

Added Value ◽

Input Device ◽

The Real

Augmented Reality adalah sebuah teknologi yang relatif baru dan masih dikembangkan sampai saat ini. Konsepnya adalah menggabungkan dimensi dunia nyata dengan dimensi 'dunia nyata' yang termediasi, atau dunia virtual, untuk menciptakan kesan bahwa dimensi dunia nyata kita diperkaya dengan objek maya tiga dimensi. Hal ini dilakukan dengan cara 'menggambar' objek tiga dimensi pada marker, yakni sebuah 'pola' dalam bingkai segi empat yang bersifat unik dan dapat dikenali oleh aplikasinya. Aplikasi yang bersangkutan menerima input berupa video stream, yang berarti menggunakan input berupa citraan dari perangkat keras yang berfungsi menangkap gambar, biasanya sebuah webcam. Karena berupa video stream, artinya gambaran yang ditangkap sebagai input akan berubah-ubah, dan program harus dapat tetap mengenali marker meskipun berubah posisi dan orientasi relatif terhadap perangkat input. Pengenalan terhadap posisi dan pergerakan ini adalah salah satu konsep Teknologi Informasi yang bernama Computer Vision, dan digunakan untuk mendeteksi pola pergerakan relatif objek terhadap kamera.Pendidikan terhadap anak harus dilakukan sedini mungkin terutama dalam hal kesehatan. Seiring dengan berkembangnya pemahaman masyarakat tentang pentingnya kesehatan gigi, banyak pihak yang telah memberikan informasi terkait kesehatan gigi di berbagai media. Tidak hanya orang dewasa yang menjadi sasaran akan tetapi juga mulai dari anak-anak sudah dikenalkan dengan pengetahuan tersebut. Karena dibutuhkan media penyampaian untuk anak maka banyak bermunculan media edukasi yang diharapkan bisamendidik anak dengan berbagai macam cara..Pemanfaatan Augmented Realitysebagai alat untuk mengedukasi anak, ini akan memberikan pandangan baru terhadap media edukasi yang ada pada saat ini, bukan hanya menggunakan objek secara nyata tapi juga bisa digunakan objek berbentuk virtual dalam penyampaian informasi. Nilai tambah dari media ini adalah mempermudah penyampaian dan membuat informasi semakin menarik terutama bagi anak.Augmented Reality is a technology that is relatively new and still being developed today. The concept is to combine real-world dimensions to the dimensions of the 'real world' are mediated, or the virtual world, to create the impression that the dimensions of the real world we are enriched by virtual three-dimensional objects. This is done by 'drawing' a three-dimensional object on the marker, which is a 'pattern' in a rectangular frame that is unique and can be recognized by the application. Pertinent application accepts input in the form of a video stream, which means using the input in the form of images of the hardware image capture function, typically a webcam. Because the form of a video stream, meaning that as the input image captured will vary, and programs must be able to recognize the markers remained unchanged despite the position and orientation relative to the input device. Introduction to the position and movement is one of the Information Technology concept called Computer Vision, and is used to detect object movement patterns relative to the camera.Education of children should be done as early as possible, especially in terms of health. Along with the development of public understanding about the importance of dental health, many people who have provided information related to dental health in a variety of media. Not only adults who were targeted but also start from the children has been introduced with such knowledge. Because it takes delivery of media for children then many emerging medium of education is expected to educate children with a variety of ways.Utilization of Augmented Reality as a tool to educate the child, this will provide a new perspective on media education that existed at this time, instead of just using the real object but also can be used in the form of a virtual object in the delivery of information. The added value of this medium is to facilitate the delivery and make the information more interesting, especially for children.

Download Full-text

Challenges in Surgical Training- Exploring the role of virtual and augmented reality

Health Professions Educator Journal ◽

10.53708/hpej.v3i1.751 ◽

2020 ◽

Vol 3 (1) ◽

pp. 9-10

Author(s):

Rehan Ahmed Khan

Keyword(s):

Virtual Reality ◽

Augmented Reality ◽

Surgical Training ◽

Real World ◽

Mixed Reality ◽

Virtual Patients ◽

Virtual Image ◽

The Real ◽

Surgical Residents ◽

Number Of Patients

In the field of surgery, major changes that have occurred include the advent of minimally invasive surgery and the realization of the importance of the ‘systems’ in the surgical care of the patient (Pierorazio & Allaf, 2009). Challenges in surgical training are two-fold: (i) to train the surgical residents to manage a patient clinically (ii) to train them in operative skills (Singh & Darzi,2013). In Pakistan, another issue with surgical training is that we have the shortest duration of surgical training in general surgery of four years only, compared to six to eight years in Europe and America (Zafar & Rana, 2013). Along with it, the smaller number of patients to surgical residents’ ratio is also an issue in surgical training. This warrants formal training outside the operation room. It has been reported by many authors that changes are required in the current surgical training system due to the significant deficiencies in the graduating surgeon (Carlsen et al., 2014; Jarman et al., 2009; Parsons, Blencowe, Hollowood, & Grant, 2011). Considering surgical training, it is imperative that a surgeon is competent in clinical management and operative skills at the end of the surgical training. To achieve this outcome in this challenging scenario, a resident surgeon should be provided with the opportunities of training outside the operation theatre, before s/he can perform procedures on a real patient. The need for this training was felt more when the Institute of Medicine in the USA published a report, ‘To Err is Human’ (Stelfox, Palmisani, Scurlock, Orav, & Bates, 2006), with an aim to reduce medical errors. This is required for better training and objective assessment of the surgical residents. The options for this training include but are not limited to the use of mannequins, virtual patients, virtual simulators, virtual reality, augmented reality, and mixed reality. Simulation is a technique to substitute or add to real experiences with guided ones, often immersive in nature, that reproduce substantial aspects of the real world in a fully interactive way. Mannequins, virtual simulators are in use for a long time now. They are available in low fidelity to high fidelity mannequins and virtual simulators and help residents understand the surgical anatomy, operative site and practice their skills. Virtual patients can be discussed with students in a simple format of the text, pictures, and videos as case files available online, or in the form of customized software applications based on algorithms. In a study done by Courtielle et al, they reported that knowledge retention is increased in residents when it is delivered through virtual patients as compared to lecturing (Courteille et al., 2018).But learning the skills component requires hands-on practice. This gap can be bridged with virtual, augmented, or mixed reality. There are three types of virtual reality (VR) technologies: (i) non-immersive, (ii) semi-immersive, and (iii) fully immersive. Non-immersive (VR) involves the use of software and computers. In semi-immersive and immersive VR, the virtual image is presented through the head-mounted display(HMD), the difference being that in the fully immersive type, the virtual image is completely obscured from the actual world. Using handheld devices with haptic feedback the trainee can perform a procedure in the virtual environment (Douglas, Wilke, Gibson, Petricoin, & Liotta, 2017). Augmented reality (AR) can be divided into complete AR or mixed reality (MR). Through AR and MR, a trainee can see a virtual and a real-world image at the same time, making it easy for the supervisor to explain the steps of the surgery. Similar to VR, in AR and MR the user wears an HMD that shows both images. In AR, the virtual image is transparent whereas, in MR, it appears solid (Douglas et al., 2017). Virtual augmented and mixed reality has more potential to train surgeons as they provide fidelity very close to the real situation and require fewer physical resources and space compared to the simulators. But they are costlier, and affordability is an issue. To overcome this, low-cost solutions to virtual reality have been developed. It is high time that we also start thinking on the same lines and develop this means of training our surgeons at an affordable cost.

Download Full-text

Pemanfaatan Augmented Reality Sebagai Media Pembelajaran Pengenalan Buah-Buahan

INTENSIF Jurnal Ilmiah Penelitian dan Penerapan Teknologi Sistem Informasi ◽

10.29407/intensif.v3i1.12573 ◽

2019 ◽

Vol 3 (1) ◽

pp. 54

Author(s):

Anang Pramono ◽

Martin Dwiky Setiawan

Keyword(s):

Virtual Reality ◽

Augmented Reality ◽

Mobile Phones ◽

Mobile Device ◽

Real World ◽

Three Dimensional ◽

Motivation To Learn ◽

Two Dimensional ◽

Virtual Objects ◽

Real Environment

The concept of education for children is important. The aspects that must be considered are methods and learning media. In this research innovative and alternative learning media are made to understand fruits for children with Augmented Reality (AR). Augmented Reality (AR) in principle is a technology that is able to combine two-dimensional or three-dimensional virtual objects into a real environment and then project it. This learning media combines picture cards and virtual reality. Markers contained on picture cards will be captured by the mobile device camera, processed and will 3D animated pieces appear on the mobile screen in realtime. By using the concept of combining real world, real images on cards and virtual, applications can stimulate imagination and sense of desire in children and motivation to learn more and more. 3D fruit estimation created using the 3D Blender application and the Augmented Rea process lity is made using Unity and the Vuforia SDK library. The application of fruit recognition has been applied to several child respondents and has been tested on several types and brands of Android-based mobile phones. Based on research trials, 86% of 30 respondents stated that the application which was developed very effectively as a medium for the introduction of fruits.

Download Full-text