Haply Robotics and NVIDIA Revolutionize AI with Haptic Technology at CES 2026

At CES 2026, Haply Robotics and NVIDIA have unveiled a groundbreaking collaboration that introduces haptic technology into AI training and simulation. This innovative partnership aims to integrate the sense of touch into digital environments, marking a significant leap forward in the development of more realistic and immersive AI experiences. The technology enables both humans and machines to perceive pressure, force, and resistance in virtual settings, paving the way for advancements in robotics, physical AI, and extended reality (XR).

The Future of Haptic Technology in AI

Haply Robotics is at the forefront of this revolution, showcasing haptic devices that allow users to interact with digital objects as if they were physically present. These devices, resembling sophisticated controllers, provide precise feedback, enabling users to feel textures, surfaces, and even the resistance of virtual objects. This development goes beyond mere vibrations, offering a nuanced and immersive tactile experience that bridges the gap between the digital and physical worlds.

The implications of this technology are vast. For designers working with 3D objects, the ability to feel the shape and texture of their creations in real-time transforms the design process. Engineers training robots can now guide machines remotely while experiencing the physical feedback of the robot's actions, helping to refine movements and interactions. In gaming and virtual reality, players can interact with virtual environments in ways that were previously impossible, enhancing immersion and realism.

Applications Across Industries

The collaboration between Haply Robotics and NVIDIA extends beyond consumer applications. The companies are focused on building a foundational layer for haptic technology that can be integrated into various industries, including robotics, 3D design, engineering, and training simulations. By making touch as integral to technology as sight and sound, they aim to create more intuitive and natural interactions between humans and machines.

In robotics, the addition of haptic feedback allows for more precise control and training of robotic systems. Engineers can teach robots through touch, providing a more intuitive and effective method of programming. This approach not only improves the accuracy of robotic tasks but also opens new possibilities for human-robot collaboration.

For 3D design and engineering, the ability to feel digital creations as they are being designed offers a level of precision and interaction that was previously unattainable. Designers can now sculpt and refine their work with the same tactile sensitivity they would use in the physical world, leading to more detailed and accurate digital models.

In training simulations, haptic technology provides a more immersive and effective learning environment. Trainees can experience the physical sensations associated with various tasks, enhancing their understanding and retention of the material. This is particularly valuable in fields such as healthcare, manufacturing, and aerospace, where tactile feedback is critical for mastering complex procedures.

The partnership between Haply Robotics and NVIDIA highlights a broader shift in the AI landscape. As AI continues to evolve, the focus is increasingly on creating more immersive, human-like experiences. By incorporating haptic technology, these companies are redefining what it means for AI to interact with the world, emphasizing the importance of touch alongside sight and sound.