Indoor navigation refers to the ability to help user navigate inside an indoor environment. The phrase indoor environment could be associated with university, museum, office, or to find certain area in unfamiliar building. Indoor navigation systems itself is still categorized in early development stages as it remains relatively under-developed due to the inherent difficulty of geo-localization inside an indoor environment. In this thesis, we proposed a QR-Code Assisted Indoor Navigation System using Augmented Reality in order to aid people navigate in an indoor area. Augmented Reality considered to be one of the top innovations nowadays. It usually used for educational purpose, entertainment, and currently in navigation of huge multi-complexes too. This technology when used in navigation, could provide users with more interactive and immersive experience by showing augmented direction from the user’s current position to the desired destination in their physical surrounding. In addition, QR Code is utilized for localization to determine the user’s current position in the physical world hence makes it unnecessary to used additional devices. The purpose of this implementation is to deliver a novel indoor navigation with minimum system complexity, reliable, easy to use and implemented with minimal cost. The technologies we used in the implementation are Unity 3D, NavMesh, and ARCore SDK.