#South Korea #Seoul #XR Technology #DEEP FINE #CES Innovation

DEEP FINE Triumphs at CES Innovation Awards 2025

Introduction
In a remarkable achievement, DEEP FINE, led by CEO Kim Hyun-bae, has been honored with the CES Innovation Awards Honoree designation for its groundbreaking XR spatial information construction solution known as DSC (DEEP.FINE Spatial Crafter). This prestigious recognition was announced on November 27, ahead of the upcoming CES (Consumer Electronics Show) 2025 set to take place in Las Vegas this January. The award is a testament to DEEP FINE's commitment to innovation in technology, particularly in the XR (Extended Reality) field.

Revolutionizing 3D Space Creation
DEEP FINE's DSC stands out in the XR Technologies Accessories category, enabling users to effortlessly create real-world spaces in stunning 3D. Unlike traditional methods that often require expensive equipment like LiDAR or specialized personnel, DSC simplifies the process to something as straightforward as shooting a video on a mobile device. This accessibility is crucial, especially for small and medium enterprises (SMEs) seeking to modernize their operations without incurring prohibitively high costs.

The core technology behind DSC is DEEP FINE's proprietary Visual Positioning System (VPS). This system is capable of navigating through complex indoor settings such as warehouses and museums where GPS signals may be weak or unavailable. By utilizing image recognition, DSC ensures high precision in determining a user's location, which opens up countless possibilities in augmented and mixed reality applications.

Enhancing Industry Transformation
As industries such as manufacturing, construction, energy, and logistics embrace the digital transformation, DEEP FINE is making strides to ensure that cost does not obstruct progress. Kim Hyun-bae remarked that while digital innovation provides great advantages, the associated costs have historically deterred many institutions from implementation. Through its ingenious DSC, DEEP FINE claims to reduce costs by up to 80%, significantly lowering the barriers for many organizations to access groundbreaking technologies.

DEEP FINE's vision includes enhancing collaboration and efficiency across multiple users by allowing real-time data sharing through the cloud. This feature is essential for teams that require immediate data access to make informed decisions quickly. The DSC system is fundamentally designed to empower users, allowing anyone with a mobile device to create and manage digital spaces seamlessly.

Real-World Applications and Future Plans
The company has already showcased its capabilities through practical applications, such as a recent project with the Seoul Metropolitan Government. DEEP FINE participated in the AR-based Indoor Positioning Navigation Pilot Project, effectively mapping out a substantial 50,000 square meters of the Gwanghwamun area. The results highlight the DSC’s versatility and potential for real-world impact, which the company aims to demonstrate further at CES 2025.

Moreover, the DSC has been implemented to enhance the exhibition experiences at Seoul City Libraries through an AR docent feature that guides visitors and promotes engagement with exhibits. This innovative approach not only enriches the visitor experience but also exemplifies how technology can be integrated into public spaces.

Conclusion
With the CES Innovation Award 2025 under its belt, DEEP FINE is poised to advance its efforts in developing XR solutions that cater to a global audience. The company’s commitment to making technology user-friendly and accessible is paving the way for a future where digital transformation is achievable for businesses of all sizes. As it prepares to showcase DSC at CES, the anticipation surrounding DEEP FINE is palpable, and the potential for this technology to reshape industries is enormous. The move toward lowering entry barriers in the digital landscape stands as a promise of a more inclusive technological future, one where all can benefit from the advancements in XR and spatial computing technologies.