Core Technologies
Solving patient problems with three techniques
Can it be used by patients with weak myoelectric signal?Can it be used by patients with co-contraction?
Fast and sensitive measurement of myoelectric
MELTz measures vast amounts of myoelectric data, analyzes weak myoelectric signal at high speed and with high accuracy, and converts them into robotic movements.
The patient's motor intentions and movements are synchronized.
Can it be used by patients with co-contraction?
AI analysis technology identifies the patient’s motor intent
The myoelectric pattern of three forearm sites is used to identify movement intentions.
Matching with the patient's own data in real-time with online learning, MELTz can recognize subtle changes in bio signal while training.
Even weak or co-contraction myoelectric signal can be recognized by MELTz.
Assisting force is enough for patients with spasticity?How versatile is MELTz for
various hand rehabilitations?
Five-finger exoskeletal-type robot allows for strong force and flexible movement and grasping of diverse objects
The cables, which correspond to muscles and tendons, have the traction force to pull on a substantial MAS3 of digits, producing enough force to assist with hand movement in persons who cannot grip their hands and open them by themselves.
The 5-finger robot is equipped with individual motors, enabling the grasping of various objects with different sizes and shapes.
Measurement of myoelectric
Fast and sensitive measurement of myoelectric
MELTz measures vast amounts of myoelectric data, analyzes weak myoelectrons at high speed and with high accuracy, and converts them into robotic movements.
The patient's motor intentions and movements are instantaneously linked.
AI analysis technology
AI analysis technology identifies the patient's motor intent
The myoelectric pattern of three forearm sites is used to identify movement intentions.
Matching with the patient's own data and real-time learning including subtle changes in biological signals due to the training.
Even weak myoelectric and co-contraction can be used to read exercise intentions.
Exoskeletal-type robot
Five-finger skeletal-type robot allows for strong and flexible traction forces and grasping of diverse objects
The wires, which correspond to muscles and tendons, have the traction force to pull on a substantial MAS3 of digits, producing enough force to assist with hand movement in persons who cannot grip their hands and open them by themselves.
The 5-finger robot is equipped with individual motors, enabling the grasping of various objects with different sizes and shapes.
We realized the activities of grasping and pinching, which are essential for occupational therapy.
