TY  - THES
N2  - Abstract
The respiratory system is a process of taking oxygen, releasing CO2 and using the energy produced. The respiratory system consists of the nasal cavity, pharynx, larynx, trachea, bronchial branches and lungs. The respiratory system in humans can be studied directly and indirectly. However, these learning resources are less interesting and less interactive. Therefore AR (Augmented reality) technology is the right solution to overcome this problem. This study aims to create applications using Markerless Based Tracking augmented reality technology by integrating breathing simulation with 3D animation. By utilizing the camera features on smartphone devices to detect flat surfaces, a simulation of 3D animation will appear. Augmented reality is the incorporation of an object that exists in cyberspace (virtual) into the real world in the form of 2D or 3D that can be seen and heard in real time. The method used in this research is Markerless Based Tracking. Simulation integration application in augmented reality human respiratory system can be used by students, college students, millennial generation and the general public. By utilizing the camera features on smartphone devices to detect flat surfaces, a simulation of 3D animation will appear. This application will run on the Android 7.0 mobile platform (Nougat) and support ARCore with an application capacity of 36.4MB.
Keywords : Augmented reality (AR), Markerless Based Tracking, Respiratory System.
A1  - Aji, Selo
A1  - Tita Tosida, Eneng
A1  - Maesya, Aries
Y1  - 2019/12/18/
UR  - http://eprints.unpak.ac.id/3958/
PB  - Universitas Pakuan
TI  - INTEGRASI SIMULASI DALAM AUGMENTED REALITY SISTEM PERNAPASAN MANUSIA
ID  - eprintsunpak3958
AV  - none
M1  - Skripsi
ER  -