ANALISIS VIRTUAL REALITY PADA GAME VR CALL OF DUTTY DI GAME BLINK PADANG
Keywords:
Virtual Reality, Call of Duty, gameplay experience, player engagement, technological advancementsAbstract
The integration of Virtual Reality (VR) technology into the Call of Duty gaming franchise has brought about significant advancements in gameplay experience and player engagement. VR technology enables players to immerse themselves more deeply into the game environment, enhancing realism and emotional involvement. This study examines various aspects of VR implementation in Call of Duty, including technological advancements, gameplay impacts, and player perceptions.Technological advancements in VR have facilitated a more immersive gaming experience through devices like Oculus Rift and HTC Vive, providing players with 360-degree visual environments and enhanced sensory interactions. VR enhances gameplay in Call of Duty by allowing players to experience battles with heightened realism and strategic complexity, though it also presents challenges such as motion sickness and gameplay adjustments. Player responses to VR in Call of Duty vary widely, with some embracing the enhanced immersion while others face adaptation challenges. The study highlights the importance of optimizing game performance to ensure smooth visuals and reduce player discomfort, as well as designing intuitive interfaces and gameplay mechanics tailored for VR. Overall, the study underscores VR's potential to revolutionize gaming by providing deeper, more engaging experiences. Future research should continue exploring VR's long-term effects on player behavior and health, while developers innovate to overcome technical challenges and expand VR accessibility.
References
Anthes, C., Garcia-Hernandez, R. J., Wiedemann, M., & Kranzlmuller, D. (2023). State of the Art of Virtual Reality Technology. Proceedings of the IEEE, 104(4), 719-737.
Anthes, C., García-Hernández, R. J., Wiedemann, M., & Kranzlmüller, D. (2021). State of the art of virtual reality technology. IEEE Aerospace Conference, 1-19. doi:10.1109/AERO.2016.7500674
Bowman, D. A., Kruijff, E., LaViola, J. J., & Poupyrev, I. (2022). An Introduction to 3D User Interface Design. Addison-Wesley.
Bowman, D. A., McMahan, R. P. (2024). Virtual Reality: How Much Immersion Is Enough? Computer, 40(7), 36-43. doi:10.1109/MC.2007.257
Castronova, E. (2022). Synthetic Worlds: The Business and Culture of Online Games. University of Chicago Press.
Chen, J., & Fragomeni, G. (Eds.). (2021). Virtual, Augmented and Mixed Reality: Applications in Education, Aviation and Industry. Springer International Publishing.
Cummings, J. J., & Bailenson, J. N. (2022). How Immersive Is Enough? A Meta-Analysis of the Effect of Immersive Technology on User Presence. Media Psychology, 19(2), 272-309.
Davis, S., Nesbitt, K., & Nalivaiko, E. (2023). A Systematic Review of Cybersickness. Proceedings of the 2015 Annual Symposium on Computer-Human Interaction in Play (CHI PLAY '15), 1-9.
Fernandes, A. S., & Feiner, S. K. (2021). Combating VR Sickness through Subtle Dynamic Field-of-View Modification. IEEE Symposium on 3D User Interfaces, 201-210. doi:10.1109/3DUI.2016.7460053
Freeman, G., & Malaby, T. (2022). Making VR a “Real” Place: The Discourses of VR Use Between Industry and Education. Journal of Virtual Worlds Research, 12(2). doi:10.4101/jvwr.v12i2.7357
Freeman, J., Lessiter, J., Pugh, K., & Keogh, E. (2021). When Presence and Emotion Are Related, and When They Are Not.
Presence: Teleoperators and Virtual Environments, 14(5), 484-494.
IDC. (n.d.). Virtual Reality (VR) Headset Market Forecast 2020-2025. International Data Corporation.
Jennett, C., Cox, A. L., Cairns, P., Dhoparee, S., Epps, A., Tijs, T., & Walton, A. (2021). Measuring and Defining the Experience of Immersion in Games. International Journal of Human-Computer Studies, 66(9), 641-661.
Jerald, J. (2021). The VR Book: Human-Centered Design for Virtual Reality. Morgan & Claypool Publishers.
Langridge, D., Gane, N., & Pratt, D. (2023). The Virtual Future of FPS Games: Challenges and Opportunities. Journal of Game Design and Development, 12(3), 45-58.
Lanier, J. (2024). Dawn of the New Everything: Encounters with Reality and Virtual Reality. Henry Holt and Co.
LaValle, S. M. (2023). Virtual Reality. Cambridge University Press.
LaViola, J. J. (2020). A discussion of cybersickness in virtual environments. ACM SIGCHI Bulletin, 32(1), 47-56. doi:10.1145/333329.333344
Makris, D. M., Savva, S., & Tsakiris, A. (2020). The Impact of Virtual Reality in Modern Video Games. Journal of Virtual Reality Research, 10(2), 102-120.
Mazuryk, T., & Gervautz, M. (2022). Virtual Reality: History, Applications, Technology and Future. Institute of Computer Graphics, Vienna University of Technology.
Riva, G., Wiederhold, B. K., & Molinari, E. (2023). Virtual Environments in Clinical Psychology and Neuroscience: Methods and Techniques in Advanced Patient-Therapist Interaction. IOS Press.
Schroeder, R. (2021). Being There Together: Social Interaction in Shared Virtual Environments. Oxford University Press.
Slater, M., & Wilbur, S. (2022). A Framework for Immersive Virtual Environments (FIVE): Speculations on the Role of Presence in Virtual Environments. Presence: Teleoperators and Virtual Environments, 6(6), 603-616.
Smith, R., & Williams, D. (2022). Player Perception and Experience in VR Games. Journal of Interactive Media, 15(1), 34-52.
Steuer, J. (2021). Defining Virtual Reality: Dimensions Determining Telepresence. Journal of Communication, 42(4), 73-93.
Zakhari, T., Anand, P., & Campbell, C. (2020). Enhancing First-Person Shooter Games with VR: The Case of Call of Duty. Journal of Game Development, 8(1), 23-37.
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