Collaborations
Live House

Research Area


In the Information Age, our perception of reality has fundamentally transformed, with sensory interfaces emerging as critical conduits for human-computer interaction. As we increasingly conceptualize everything as information, our sensory experiences become dynamic mechanisms—bridges that convert human perception into computational language and vice versa.
Our laboratory explores this profound paradigm by examining sensory information as a complex, multilayered system of communication and translation. We focus on challenging and reimagining the traditional boundaries between technological capabilities, human experience, and sensory perception.
信息时代,我们对现实的感知发生了根本性的转变。感官接口成为人机交互的重要纽带。随着我们越来越多地将一切概念化为信息,我们的感官体验变成了动态的机制——将人类感知转化为计算语言。我们专注于挑战和重新构想技术能力、人类体验与感官知觉之间的传统边界。



Soft robots and intelligent wearable installations
软体机器人与智能可穿戴装置


At the intersection of biomimetics, materials science, and human-centered design, we develop adaptive robotic systems and wearable technologies that radically expand human sensory potential. Our research goes beyond mere technological innovation; we're crafting interfaces that can seamlessly integrate with human physiological and cognitive processes.
Key focus areas include:

  • Multimodal soft robotic systems capable of nuanced environmental interaction
  • Wearable devices that extend sensory capabilities in medical rehabilitation
  • Entertainment technologies that create immersive, responsive experiences
  • Adaptive prosthetics that provide near-natural sensory feedback
  • Ergonomic interfaces that adjust dynamically to individual user needs

Our approach combines advanced materials engineering with deep insights from neuroscience and human-computer interaction design.




Immersive and interaction
沉浸式与交互设计


We are pioneering transformative experiences that deliberately blur distinctions between physical and digital realms. Our work creates new paradigms of sensory participation, where technological interfaces become fluid, responsive environments rather than static tools.
Our immersive experience research encompasses:

Multimodal interaction design
Sensory augmentation technologies
VR,AR and XR experiences that engage multiple sensory channels
Computational systems that adapt in real-time to user physiological and emotional states.



Animal and Computer interaction
动机交互


Animal-Computer Interaction
We recognize that interspecies communication represents a fascinating frontier of sensory information exchange. By studying how different species perceive and interact with computational systems, we gain profound insights into alternative modes of sensing and communication.

Our research explores:

Communication protocols between animals and digital interfaces
Sensory translation mechanisms across different biological systems
Potential computational models inspired by animal perception
Ethical frameworks for interspecies technological engagement