• Forouzan Farzinnejad: IT engineer. Programmer and Unity developer. • Amir Hossein Divanpour: Biomedical Engineer (Bioelectric). C, C++, C#, and Java developer. • Amir Parsa Karimi: High School Junior. 3Ds MAX modeler and Unity game developer. • Abbas Ali Dadkhah: IT engineer. C# programmer. • Sedigheh Shafipour: Biomedical engineer (Bioelectric). Programmer. Watch the trailer Goals
• Improve athlete’s hand strength: When throwing the ball, the athlete must rotate their hand 90 degrees right, left, up, and down while holding a weight. • Improving muscular strength in hand injuries: A great physiotherapy exercise for those who have recently removed their hand’s cast. • Rehabilitation: Helping with injured wrist joints, Ducron disease, and carpal tunnel syndrome. • Enhancing attention and concentration.
• Improve athlete’s hand strength: When throwing the ball, the athlete must rotate their hand 90 degrees right, left, up, and down while holding a weight.
• Improving muscular strength in hand injuries: A great physiotherapy exercise for those who have recently removed their hand’s cast.
• Rehabilitation: Helping with injured wrist joints, Ducron disease, and carpal tunnel syndrome.
• Enhancing attention and concentration.
The game will be upgraded to more steps for foot rehabilitation and more exercises for improving hand muscles. Competitors Behshad paly therapy belt developed at the University of Isfahan Center of Video Game has similar technology. It helps to keep the waist at a right angle. Status The team has completed the game’s modeling and hardware. The game is implemented using Unity, and it’ll be soon completed. Necessary tools and equipment to present the product:
• Laptop. • Arduino board. • Gyroscope sensor mpu6050.
• Laptop.
• Arduino board.
• Gyroscope sensor mpu6050.
An advantage of the product is its affordable start-up cost.