User's Manual

real time: pedestrian, cyclist, car, truck, boat, or animal. A real-time tracking

algorithm is used to automatically track the selected subject while avoiding

obstacles during flight. The function can track the subject in three modes: behind,

side-by-side, or fixed position.

 Viewpoint

Viewpoint allows the user to send the aircraft to a selected destination by

touching a point on the screen.

 Gesture Commands

The main camera uses deep learning algorithms to recognize and respond to

three gesture commands: outstretch your arms to set yourself as a target, raise

both arms to capture a photo, and raise one arm to start or stop recording.

 Accurate Landing

Accurate landing uses the aircraft’s bottom binocular vision system to save a

series of images indicating the aircraft's altitude and yaw during takeoff. During

the go-home and landing process, the aircraft matches the aircraft's altitude and

yaw to the images taken during takeoff, and calculates how far off the aircraft is

from its takeoff location. The aircraft is accurately controlled based on VIO

feedback, and lands in its takeoff position.

 Safe Landing

The safe landing function uses the aircraft’s bottom binocular camera to create a

density depth map. Then, it calculates the depth map's flatness and angles to

detect whether a surface is flat enough to ensure safe landing.

2.2 Remote Control

The EVO 2 has an unobstructed transmission range of up to 7 km under

optimum conditions. The remote control supports live video downlink, and

functions with or without a paired mobile device. The video downlink system and

aircraft remote control system operate at 900 MHz or 2.4 GHz. The 3.3-inch

OLED screen displays a live video feed, battery level, GPS signal, flight speed,

and more.