TY  - EJOU
AU  - Li, Chuanlong  
AU  - Sun, Xingming  
AU  - Cai, Junhao  

TI  - Intelligent Mobile Drone System Based on Real-Time Object Detection
T2  - Journal on Artificial Intelligence

PY  - 2019
VL  - 1
IS  - 1
SN  - 2579-003X

AB  - Drone also known as unmanned aerial vehicle (UAV) has drawn lots of attention in recent years. Quadcopter as one of the most popular drones has great potential in both industrial and academic fields. Quadcopter drones are capable of taking off vertically and flying towards any direction. Traditional researches of drones mainly focus on their mechanical structures and movement control. The aircraft movement is usually controlled by a remote controller manually or the trajectory is pre-programmed with specific algorithms. Consumer drones typically use mobile device together with remote controllers to realize flight control and video transmission. Implementing different functions on mobile devices can result in different behaviors of drones indirectly. With the development of deep learning in computer vision field, commercial drones equipped with camera can be much more intelligent and even realize autonomous flight. In the past, running deep learning based algorithms on mobile devices is highly computational intensive and time consuming. This paper utilizes a novel real-time object detection method and deploys the deep learning model on the modern mobile device to realize autonomous object detection and object tracking of drones.
KW  - Drone
KW  -  UAV
KW  -  CNN
KW  -  object detection
KW  -  mobile application
KW  -  Ios

DO  - 10.32604/jai.2019.06064