Industrial Design Division
INDUSTRIAL DESIGN
ADVANCED SYSTEMS | MOBILITY
Design and development of aerial platforms, from concept to prototype and production planning
MEDICAL | MED-TECH
OPTECH X: THE FUTURE OF TOUCH
A fingertip based input concept for AR and VR, designed to improve tactile control and tracking accuracy for training and simulation.
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Ergonomic Architecture
Dual component propulsion layout concept
Separating lift and steering to improve controllability and stability in a compact airframe.
High-Fidelity Contact Pads
Textured optical sensors positioned on the fingertips to ensure pixel-perfect spatial tracking and realistic tactile feedback.
Centralized Smart Hub
The integrated interface serves as a physical command center, providing real-time data and instant access to professional VR/AR toolsets.
OMNI-TECH // CORE UNIT SERIES-01
THE NON-AXIS PROPULSION SYSTEM
NON-AXIS
HOLLOW VENT
We explored a hubless stator concept to reduce airflow obstruction and potentially improve efficiency. This is an early concept study.
Material
Aerospace Grade
TITANIUM G5
Magnetic Core
High-Flux N52 Neodymium
System Type
Hubless Induction Drive
Outer Thrust Ring
High-torque peripheral ring for primary lift and maximum airframe stability.
PROJECT_ARC // SERIES_A
OMNI |
ARC ANGEL
Elegant aerial mobility realized. The Arc Angel serves as the primary application of our hollow-core technology, featuring a seamless aerodynamic frame that integrates the propulsion system directly into the airframe for maximum structural stability and a minimal acoustic footprint.
Navigation Vent
Central hollow-core blower for independent, high-precision steering
Maglev Integration
Friction-free magnetic rotors housed in a modular carrier platform
OMNI DRONE // HYBRID DRIVE
Introducing the dual-component propulsion system, a breakthrough in aerial design. By separating lift from steering, the Hybrid Drive achieves unprecedented stability. The Outer Thrust Ring generates primary vertical lift, while the central Navigation Vent (Blower-style) manages high-precision maneuvers, ensuring the drone’s perfect structural silhouette.
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Tactical Safety Vest
Next-Generation High-Visibility PPE for Industrial Environments
Designed for extreme industrial environments such as cargo ports and construction sites, this tactical safety vest redefines personal protective equipment (PPE). The slip-on architecture eliminates the need for a front zipper, allowing for continuous hexagonal impact padding across the chest. Featuring a segmented spine protector, integrated LED work lights, and a central back marker strip, the vest merges passive reflectivity with active illumination to ensure maximum worker safety, ergonomics, and visibility in low-light conditions.
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01 / Concept Ideation
Initial ergonomic investigation exploring a slip-on architecture, active LED integration, and segmented spine protection.
02 / 3D CAD MODELING
Precise 3D NURBS surface modeling in Rhinoceros, refining the hexagonal impact padding and component integration.
03 / Final Visualization
Real-world application demonstrating the tactical vest in a demanding industrial port environment.