- Lovpreet Hansra, Computer Science BS
- Adam Porter, Electrical Engineering BS
- Luan Nguyen, Aerospace Engineering BS
Our goal was to provide our car with particular GPS coordinates, have the car navigate to the destination coordinates by using the magnetometer within the IMU, and then search for a particular object within a given radius. We utilized computer vision to distinguish between objects and find the desired one while the car circumnavigates the area.
- Object Recognition
- GPS Navigation
- Working IMU interface
Nice to Have
- Obstacle avoidance
- Search within specified radius
- IMU communicating directly to the Jetson without the Arduino
We went with a relatively simple base plate to accommodate all of our hardware and help a little with cable management.
We wanted an adjustable camera mount to experiment with different angles so we printed 2 separate pieces to mount the camera.
We printed some casings for our ultrasound sensors incase the car had any collisions.
- Insert picture and maybe some explanations
For object recognition, we implemented a YOLO algorithm trained using the COCO dataset which classifies 80 different classes of objects. The yolo algorithm essentially using bounding boxes to locate and classify objects in a given image. To classify the objects, I used a CNN using the darknet framework, but implemented using pytorch. The object detection model uses leaky ReLU as its activation function, and has a convolutional layer and pooling layer at every step. The last layers are fully connected and use softmax to get probabilities for each class. This is a commonly used and efficient sequence to classify images of objects. The yolo algorithm uses a bounding box method to detect multiple objects in a frame. The image is broken up into a grid and each section of the grid has a specified number of boxes and each box can detect an object. The box that contains the center of the object is the box responsible for classifying the object. For this implementation, I started with open source code and expanded it to work for our project and with the Jetson. The algorithm must be run in conjunction with the DonkeyCar program. The way we integrated the object detection was to have the program write to a file and create a donkey car part that continuously read the file for changes. When they donkey car reads that the specified object has been found, it stops moving, and if the object is removed from the frame it starts searching for the object again.
Steps to Reproduce Our Result
- Build a Donkey Car
- Implement GPS navigation on Donkey Car
- Install PyTorch and OpenCV on Jetson Nano
- Implement Object Recognition
- Specify object to find
- Run Object Recognition in conjunction with Donkey Car
Videos of Final Result
Our project is a pretty good base model for finding an object in some specified location. Improvements that could be made would be developing an efficient search algorithm for the 2 meter radius that GPS navigation allows us to reach.