Virtual Reality
We develop virtual reality games using Unreal Engine. We are also proficient in XR and AR technologies. We have completed various projects so far; one of them is the horror game Grisly.
The Grisly Project and Our Developed Technologies
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Grisly is a horror game enhanced with virtual reality (VR) technologies. Developed using the Unreal Engine, this project aims to offer players a deeper horror experience by integrating hardware such as VR headsets and VR vests.
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Atmosphere and Realism in the Grisly Horror Experience:
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One of the key features of Grisly is its highly detailed atmosphere, designed to make players experience fear as realistically as possible. The use of VR headsets and vests makes the game's dark and tense environment even more immersive. The VR headset allows players to see their surroundings in 360 degrees, while the VR vest provides physical feedback, such as vibrations and impact sensations. This way, players can react more realistically to various dangers and horror elements within the game.
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Virtual Reality Integration:
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Grisly fully utilizes the freedom and interaction capabilities offered by VR technology. Players' real-world movements are reflected in the game, and they can directly interact with objects. This interaction makes the horror elements more impactful. Players’ interactions with their environment are enhanced by sudden appearances of horror elements, lighting effects, and sound design.
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Virtual Shooting Range and Advanced Weapon Testing:
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Another important technology we’ve developed, aside from Grisly, is the ability to test weapons in a virtual shooting range. This feature allows users to safely test both in-game and real-world weapons in a virtual environment. The virtual shooting range replicates real-world conditions, allowing users to test weapons under various scenarios.
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Shooting Range Features:
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The virtual shooting range includes various targets, variable distances, and dynamic difficulty levels. Users can analyze weapons' firing capabilities, accuracy, and recoil within this range. These tests provide an educational and entertaining experience, helping users improve their skills.
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Technological Approach and Challenges:
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One of the biggest challenges we faced in the Grisly and virtual shooting range projects was overcoming the technical barriers posed by VR and AR technologies. This includes elements such as high-performance graphics, realistic physics simulations, and low latency. Additionally, ensuring the proper integration of hardware and software to optimize the user experience was a crucial step.
To overcome these challenges, we continuously follow advancements in technology and develop innovative solutions. For instance, we use advanced optimization techniques to ensure low latency and high resolution. We also continuously improve game design and hardware integration by taking user feedback into account.