Team 6: DKar
- Aksharan Saravanan, ECE
- Hieu Luu, DSC
- Katada Siraj, MAE
A robot that acts as an aimbot, in that it follows a target and dynamically adjusts a laser pointing at that target. The robot should use OpenCV to detect the target and ROS to guide steering and throttle based on the target position and distance.
- Have the car be able to autonomously follow a target (e.g. a poster board)
- Modify the car to fit a laser pointer that aims at the target
- (Nice-to-have)Recognize targets of different colors and adjust the following distance.
- Alternative: Use depth data from intel to implement throttle control
~~image (original gantt)~~ ~~image (updated gantt)~~
~~image (robot hardware)~~
~~images (for cad models and lasercut board)~~ (and maybe short description?)
~~image (wiring schematic)~~
- Intel RealSense RGBD Camera
- Mini Laser
- Micro Servo
~~images (for each component)
~~video (of EMO)~~
some more explanation
How We Did It
- Image Processing using OpenCV to Detect a Colored Target
- Used Virtual Machine to run a simple python script that detects the largest rectangle which is the color blue, using masking, bound the rectangle, and then detect the line from the point at the center of the object to the point at the actual center of the frame
- Gathered Depth data using an RGBD camera
- Create a custom Target Detection node which Subscribes to Camera Topics and Publishes to the Twist and Servo Topics.
- Node was a python script using ROS2, and utilized Dominic's existing custom ROS2 metapackage to publish/subscribe to.
- Wrote a program which publishes commands to the appropriate nodes based on the gathered data.
- Implemented P controller for throttle which maintains a certain distance from the target
- Implemented a P controller for servo movement
- Integrated code into a ROS package (aimbot_pkg) within the ucsd_robocar_hub2 docker metapackage.
ROS Software Design
Github Link: Project Code
Custom ROS Node Link: Target Detection ROS2 Node
- Determining how to integrate custom ROS code within the Docker Container and getting the Nodes to communicate
- Integrating the Intel RealSense Camera
- Issue of possible “voltage spike” to the ESC causing full throttle in some cases
- Connecting ideas of OpenCV image detection and doing data processing to publish to ROS topics
- Components including the Jetson, PWM, and switch burned out so had to get new parts
Send reverse throttle controls.
- This would enable our car to be more robust in maintaining a following distance because it would be able to correct itself when overshooting. We weren’t able to implement this because we didn’t address it soon enough and with the little time we had, we didn’t want to risk messing around with the ESC.
Recognize different colors and dynamically adjust following distance.
- This would allow the car to be more responsive to the environment and more robust when following a target. We weren’t able to implement this as we didn’t get enough time and didn’t get to start.
Thanks to: Professor Silberman, Dominic, Ivan, Professor De Oliveira, as well as the other teams.