MUSKULO: YOUR AR LEARNING TOOL
Muskulo is a mobile learning app that leverages Augmented Reality (AR) to visualize the human musculoskeletal system in 3D. Designed for Medical students, it provides interactive anatomy learning in simplified Indonesian, making complex structures like bones, muscles, and joints easier to understand.
Organizer
Program Kreativitas Mahasiswa 2025
Role
UI/UX Designer & Developer
Partner
Diva Apriliya S, Nurudin Wafiq M, Rizka Muzakki S
Platform
Android Mobile Application
Client
Medical Students
Intro
👋 Welcome to MUSKULO
Muskulo is an ongoing AR-based mobile app project that helps Medical students learn the human musculoskeletal system more interactively. By integrating 3D anatomy visuals in Indonesian, this app aims to make it easier to understand bones, muscles, and joints anytime and anywhere. The design focuses on clarity, usability, and enhancing educational accessibility through immersive technology.
👋 Welcome to MUSKULO
Muskulo is an ongoing AR-based mobile app project that helps Medical students learn the human musculoskeletal system more interactively. By integrating 3D anatomy visuals in Indonesian, this app aims to make it easier to understand bones, muscles, and joints anytime and anywhere. The design focuses on clarity, usability, and enhancing educational accessibility through immersive technology.
👋 Welcome to MUSKULO
Muskulo is an ongoing AR-based mobile app project that helps Medical students learn the human musculoskeletal system more interactively. By integrating 3D anatomy visuals in Indonesian, this app aims to make it easier to understand bones, muscles, and joints anytime and anywhere. The design focuses on clarity, usability, and enhancing educational accessibility through immersive technology.
Problems
Healthcare students often struggle to understand the complexity of the musculoskeletal system due to limited visual learning media available.
Textbooks are often theoretical and lack detailed visual illustrations.
Existing physical props are expensive and require storage space.
Although there are already AR applications for anatomy, there is nothing specific and in-depth for the musculoskeletal system.
Problems
Healthcare students often struggle to understand the complexity of the musculoskeletal system due to limited visual learning media available.
Textbooks are often theoretical and lack detailed visual illustrations.
Existing physical props are expensive and require storage space.
Although there are already AR applications for anatomy, there is nothing specific and in-depth for the musculoskeletal system.
Problems
Healthcare students often struggle to understand the complexity of the musculoskeletal system due to limited visual learning media available.
Textbooks are often theoretical and lack detailed visual illustrations.
Existing physical props are expensive and require storage space.
Although there are already AR applications for anatomy, there is nothing specific and in-depth for the musculoskeletal system.
Solution
Develop an Android-based mobile application using Augmented Reality (AR) technology that displays 3D models of the musculoskeletal system in detail and interactively.
Solution
Develop an Android-based mobile application using Augmented Reality (AR) technology that displays 3D models of the musculoskeletal system in detail and interactively.
Solution
Develop an Android-based mobile application using Augmented Reality (AR) technology that displays 3D models of the musculoskeletal system in detail and interactively.
Features
Dashboard MockUp
Menu Class Dashboard MockUp
Sceletal Study Class MockUp
Quiz Study MockUp
Dashboard MockUp
Menu Class Dashboard MockUp
Sceletal Study Class MockUp
Quiz Study MockUp
Key Features
Detailed AR Visualizations: An interactive AR feature that displays 3D models of bones, muscles, and joints, allowing users to view structures from any angle and access detailed information for each part.
Organized Learning Modules: Interactive modules containing theory, images, and videos that are structured to align with the health curriculum.
Interactive Quizzes: A quiz feature with multiple-choice, image-based, and short-answer questions to test and reinforce understanding, complete with scores and explanations.
Key Features
Detailed AR Visualizations: An interactive AR feature that displays 3D models of bones, muscles, and joints, allowing users to view structures from any angle and access detailed information for each part.
Organized Learning Modules: Interactive modules containing theory, images, and videos that are structured to align with the health curriculum.
Interactive Quizzes: A quiz feature with multiple-choice, image-based, and short-answer questions to test and reinforce understanding, complete with scores and explanations.
Key Features
Detailed AR Visualizations: An interactive AR feature that displays 3D models of bones, muscles, and joints, allowing users to view structures from any angle and access detailed information for each part.
Organized Learning Modules: Interactive modules containing theory, images, and videos that are structured to align with the health curriculum.
Interactive Quizzes: A quiz feature with multiple-choice, image-based, and short-answer questions to test and reinforce understanding, complete with scores and explanations.
Tools
Conclusion
A Leap Forward in Medical Education
The AR Musculoskeletal Learning App demonstrates how technology can revolutionize traditional medical education. By merging 3D visualization, interactive AR, and quizzes, this project addresses critical gaps in anatomy learning bridging the divide between theoretical knowledge and practical understanding.
Key successes include:
User-centered design validated by positive feedback from health students.
Technical innovation in modeling complex anatomy for mobile AR.
Scalable framework adaptable to other body systems.
Moving forward, we aim to collaborate with medical institutions to integrate this tool into curricula, further enhancing accessibility and engagement in health sciences.
A Leap Forward in Medical Education
The AR Musculoskeletal Learning App demonstrates how technology can revolutionize traditional medical education. By merging 3D visualization, interactive AR, and quizzes, this project addresses critical gaps in anatomy learning bridging the divide between theoretical knowledge and practical understanding.
Key successes include:
User-centered design validated by positive feedback from health students.
Technical innovation in modeling complex anatomy for mobile AR.
Scalable framework adaptable to other body systems.
Moving forward, we aim to collaborate with medical institutions to integrate this tool into curricula, further enhancing accessibility and engagement in health sciences.
A Leap Forward in Medical Education
The AR Musculoskeletal Learning App demonstrates how technology can revolutionize traditional medical education. By merging 3D visualization, interactive AR, and quizzes, this project addresses critical gaps in anatomy learning bridging the divide between theoretical knowledge and practical understanding.
Key successes include:
User-centered design validated by positive feedback from health students.
Technical innovation in modeling complex anatomy for mobile AR.
Scalable framework adaptable to other body systems.
Moving forward, we aim to collaborate with medical institutions to integrate this tool into curricula, further enhancing accessibility and engagement in health sciences.
CATEGORY
Augmented Reality
Augmented Reality
Augmented Reality
Health Education
Health Education
Health Education
UI/UX Design
UI/UX Design
UI/UX Design
Musculoskeletal
Musculoskeletal
Musculoskeletal
DURATION
Mar 2025 - Jun 2025