ArmMotus™ M2 Gen
Upper Limb Rehabilitation Robotics
ArmMotus ™ M2 Gen can perform diversified task-oriented training and quantify each movement accurately and objectively. It also provides an immersive interactive experience to rapidly improve the strength, speed, and accuracy of the user's movement, which will ultimately reshape the upper limb function.
Interactive Gamification Experience
The diversified games are able to simulate different realistic scenarios with the combination of visual, audio and kinesthetics inputs to escalate the user’s experience to the next level and motivate the active participation of the user. Compared to the conventional rehabilitation process which can be boring, the user can now overcome this by completing their rehabilitation process through gaming.
Quantifiable Training Report
Robotics are integrated with high-precision force and position sensors to measure every movement. The device can measure a user's performance from multiple prospects, including the range of motion, strength, cognition, response time, etc. These analyses and training reports should be considered to ensure better training outcome. The auto-generated training reports provide measurable results for the user's and therapist’s reference.
Advance Craft with Advance Technologies
Precise motion control module
Outstanding floating-point processor
Highly sensitive force sensor
Precise and efficient transmission system
ArmMotus™ M2 Gen provides abundant therapies for the compound movement of the shoulder and elbow joints. A therapist can tailor a targeted therapy according to the patient's training outcomes and needs by customising the training trajectory.
PROTRACTION AND RETRACTION OF SCAPULA
RANGE OF MOTION TRAINING
FLEXION AND EXTENSION OF ELBOW JOINT
UNILATERAL NEGLECT TRAINING
INTERNAL AND EXTERNAL ROTATION OF SHOULDER JOINT
Triple Safety Protection
At Fourier Intelligence, the user’s safety is our main concern. The robot's control system can continuously sense the user's muscle tension, which can automatically detect possible complications and deal with them. When the user is overloaded during the training process, the robot gradually reduces its speed until it stops to ensure safety during the training process.