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Core platforms

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Our Approach

Built on the rigorous medical, engineering, neuroscientific knowledge, our digital rehabilitation programs are designed for those with physical and emotional disabilities. We focus on supporting patients to stay involved during their long journey of recovery, with our motivating digital therapy contents. 

We aim to build our proprietary platform based on our scalable technologies,

where customers enjoy their bespoke treatments anywhere, anytime they want to play.  

Our platforms are engineered with adaptive alrorithms, which enables individuals to enjoy personalized treatments.  


Functional Recovery Exercise Engine - Body

  • FREE-B is designed to treat and manage physical inconveniences caused by neurological, musculoskeletal disorders. 

  • FREE-B brings home intensive physical exercises required for standard rehabilitation therapies.

  • FREE-B is verified by many of the renowned SCI papers (10+), and also going to be extended to target broader range of indicants. 



Functional Recovery Exercise Engine - Mind

  • FREE-M is designed to treat and manage psychological symptoms caused by addiction or mood disorders.

  • FREE-M corrects a distorted cognitive processes via brain exercise programs. 

  • FREE-M is verified by many of the renowned SCI papers. 


We develop flexible pipelines based on two powerful platform and enable digital diagnosis through artificial intelligece.

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We verify our platform and usability through a scientific approach.


Scientific reports

Feasibility study of immersive virtual prism adaptation therapy with depth-sensing camera using functional near-infrared spectroscopy in healthy adults


Virtual prism adaptation therapy: Protocol for validation in healthy adults

Plos one

Upper extremity functional evaluation by Fugl-Meyer assessment scoring using depth-sensing camera in hemiplegic stroke patients

Frontiers in oncology

Integrative Analysis of Gene Expression Data by RNA Sequencing for Differential Diagnosis of Acute Leukemia: Potential Application of Machine Learning


A low cost kinect-based virtual rehabilitation system for inpatient rehabilitation of the upper limb in patients with subacute stroke; A randomized, double-blind, sham-controlled pilot trial

Journal of clinical medicine

Clinical application of virtual reality for upper limb motor rehabilitation in stroke: review of technologies and clinical evidence

IEEE computer graphics and applications

Upper-limb function assessment using VBBTs for stroke patients

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