Abstract
Recently, a lot of researches have been conducted on a platform that provides a Visual Programming development environment capable of 3D editing and interactive editing in an In-VR (Virtual Reality) environment so that VR/AR (Augmented Reality) contents can be quickly worked on. In this paper, a functional language-based VR/AR specialized language(VAL) and Visual Language were developed, and VR/AR prototypes were easily implemented using these languages on the platform. Then, prototypes based on the 5G network can be shared and collaborated with others, and content creation can be continued in Unity and Unreal without interruption. In addition, this paper shows the recognition process for users, the PS/CS check process and the node processing process for transmitting content by limiting the process for transmitting VAL-based mass data in 5G environment. The proposed platform can easily create a prototype of their intended VR/AR App (or content) even for users (beginners) who do not have a certain level of knowledge and experience in 3D graphics and software coding, and share it with others. It has characteristics that can be done. Consequently, we propose a method to use VAL more effectively in a 5G environment.
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References
Wayne EC (2017) Computer graphics and computer animation: a retrospective overview. Ohio State University, Columbus, pp 511–536
Sun C, Wei Hu, Diqiong Xu (2019) Navigation modes, operation methods, observation scales and background options in UI design for high learning performance in VR-based architectural applications. J Comput Design Eng 6(2):189–196
Li L, Lei Y, Tang L, Yan F, Luo F, Zhu H (2019) A 3D spatial data model of the solar rights associated with individual residential properties. Comput Environ Urban Syst 74:88–99
Erik NG, Paul AI (2019) Chapter 8 - 3D graphics to virtual reality in medicine: opportunities and prospective of engineering in medicine, advances and challenges, pp 201–218
Hewitt D (1985) Crane and Carroll M Steele, Generation-V dual-Purkinje-image eyetracker. Appl Opt 24(4):527–537
Dan Witzner H, Qiang J (2010) In the eye of the beholder: a survey of models for eyes and gaze. IEEE Trans Pattern Anal Mach Intell 32(3)
Guidotti A, Cioni S, Colavolpe G, Conti M, Foggi T, Mengali A, Montorsi G, Piemontese A, Vanelli-Coralli A (2020) Architectures, standardisation, and procedures for 5G satellite communications: a survey. Comput Netw 183(107588):24
Philipp AR, Reto F, Chris H (2019) Augmented reality marketing: how mobile AR-apps can improve brands through inspiration. J Retail Consumer Serv 49:43–53
Mana F, Jeannette P, Theresa E, Jan K (2018) Go y!: Explore augmented reality (AR), virtual reality (VR), and mixed reality (MR) for business. Bus Horiz 61(5):657–663
Scott GD (2017) Enabling smart retail settings via mobile augmented reality shopping apps. Technol Forecast Soc Chang 124:243–256
Pagés R, Amplianitis K, Monaghan D, Ondřej J, Smolić A (2018) Affordable content creation for free-viewpoint video and VR/AR applications. J Vis Commun Image Represent 53:192–201
Xiao L, Wen Y, Hung-Lin C, Xiangyu W, Chan APC (2018) A critical review of virtual and augmented reality (VR/AR) applications in construction safety. Autom Constr 86:150–162
Seonghyeon G, Abir ELA, Jeonghun C, Jong HP (2020) Secure secondary authentication framework for efficient mutual authentication on a 5G data network. Appl Sci 10(2):727. https://doi.org/10.3390/app10020727
Qiang T, Kezhi W, Yun S, Feng L, Jong HP (2020) Waiting time minimized charging and discharging strategy based on mobile edge computing supported by software-defined network. IEEE Internet Things J 7(7):6088–6101
Fasiul A, Serafeim K, Olga B, Stathes H (2017) Augmented and virtual reality based monitoring and safety system: a prototype IoT platform. J Netw Comput Appl 89(1):109–119
Satish NS, Freddy MSD, Mainak A (2021) Akka framework based on the Actor model for executing distributed Fog Computing applications. Fut Gen Comput Syst 117:439–452
Jianzhou Z, Santosh N, Milo MKM, Steve Z (2012) Formalizing the LLVM intermediate representation for verified program transformations. ACM SIGPLAN Notices 47(1)
Mylonas G, Triantafyllis C, Amaxilatis D (2019) An augmented reality prototype for supporting IoT-based educational activities for energy-efficient school buildings. Electron Notes Theor Comput Sci 343:89–101
Zeph MCB, Eva AR, Edith GS, Nynke L (2021) Brands in virtual reality games: affective processes within computer-mediated consumer experiences. J Bus Res 122:458–465
David DE, Edward A, Hikari NC, Nadia N (2019) Development of Escape Room Game using VR Technology. Procedia Comput Sci 157:646–652
Xia JY, Xiao BJ, Dan L, Wang KR (2018) Improvement of virtual EAST system based on WebVR. Fusion Eng Design 127:267–274
Honfi D, Micskei Z (2020) White-box software test generation with Microsoft Pex on open source C# projects: a dataset. Data in Brief 31:105962
Liu D, Peng J, Wang Y, Huang M, He Q, Yan Y, Ma B, Yue C (2019) Implementation of interactive three-dimensional visualization of air pollutants using WebGL. Environ Model Softw 114:188–194
Perovšek M, Kranjc J, Erjavec T, Cestnik B, Lavrač N (2016) TextFlows: a visual programming platform for text mining and natural language processing. Sci Comput Program 121:128–152
Baltasar GP-S, Francisco O (2019) A didactic object-oriented, prototype-based visual programming environment. Sci Comput Program 176:1–13
Huang H, Yi Xu, Hua X, Yan W, Huang Y (2019) A crowdsourced system for robust eye tracking. J Vis Commun Image Represent 60:28–32
Yasui Y, Tanaka J, Kakudo M, Tanaka M (2019) Relationship between preference and gaze in modified food using eye tracker. J Prosthodont Res 63(2):210–215
Jia ML, Xinxing X, Clemen OW, Felix C, Yunqing G (2020) VEGO: a novel design towards customizable and adjustable head-mounted display for VR. Virtual Real Intell Hardw 2(5):443–453
Gallo L, Minutolo A, De Pietro G (2010) A user interface for VR-ready 3D medical imaging by off-the-shelf input devices. Comput Biol Med 40(3):350–358
Farshad M, Sergio ASM, Arash B, Daniele T (2020) Optimal auction for delay and energy constrained task offloading in mobile edge computing. Comput Netw 183:107527
Xiao L, Wen Y, Hung-Lin C, Xiangyu W, Albert PCC (2018) A critical review of virtual and augmented reality (VR/AR) applications in construction safety. Autom Constr 86:150–162
Palash R, Sujan S, Abdur R, Mohammad MH, Salman AA, Gianluca A, Giancarlo F (2020) AI-enabled mobile multimedia service instance placement scheme in mobile edge computing. Comput Netw 182:107573
Shuchen Z, Waqas J (2020) The partial computation offloading strategy based on game theory for multi-user in mobile edge computing environment. Comput Netw 178:107334. https://doi.org/10.1016/j.comnet.2020.107334
Athirah S, Yiwei G, Ryan L (2020) VR industrial applications—a singapore perspective. Virtual Real Intell Hardw 2(5):409–420
Škola F, Liarokapis F (2018) Embodied VR environment facilitates motor imagery brain–computer interface training. Comput Graph 75:59–71
Luís FSC, Flávia CCMQM, Ezequiel RZ (2020) A survey of industrial augmented reality. Comput Ind Eng 139:106159
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Joo, HJ., Jeong, HY. A study on VAL platform for 5G network for large-capacity data transmission. J Supercomput 77, 10791–10803 (2021). https://doi.org/10.1007/s11227-021-03700-z
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DOI: https://doi.org/10.1007/s11227-021-03700-z