Difference between revisions of "2021SpringTeam6"

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== Hardware ==
 
== Hardware ==
 
=== Components ===
 
=== Components ===
NVIDIA Jetson Nano
+
NVIDIA Jetson Nano,
Camera (get specific)
+
Camera (get specific),
Adafruit PWM Controller
+
Adafruit PWM Controller,
Electronic Speed Controller
+
Electronic Speed Controller,
12V-5V DC-DC voltage converter
+
12V-5V DC-DC voltage converter,
Throttle DC motor
+
Throttle DC motor,
Steering Servo Motor
+
Steering Servo Motor,
11.1V 3S LiPo Battery
+
11.1V 3S LiPo Battery,
Voltage Sensor
+
Voltage Sensor,
Remote relay
+
Remote relay,
 
HC-SRC04 Ultrasonic Sensor
 
HC-SRC04 Ultrasonic Sensor
 
  
 
=== Physical Design ===
 
=== Physical Design ===

Revision as of 14:11, 10 June 2021

Project Introduction

One of the things that we noticed with the Donkey car and ROS car, that would be a major problem for an actual passenger vehicle is the lack of object avoidance or the ability to stop during emergencies. While more expensive sensors exist for implementing object avoidance, like LIDAR, we thought that less expensive solutions could be made. For implementing object avoidance on our car, we chose to go with the inexpensive HC-SRC04 Ultrasonic Sensor.

Project Team Members

  • Dylan Perlson (ECE)
  • Harrison Lew (MAE)
  • Joshua Guy (MAE)
  • Arman Mansourian (CSE)

Hardware

Components

NVIDIA Jetson Nano, Camera (get specific), Adafruit PWM Controller, Electronic Speed Controller, 12V-5V DC-DC voltage converter, Throttle DC motor, Steering Servo Motor, 11.1V 3S LiPo Battery, Voltage Sensor, Remote relay, HC-SRC04 Ultrasonic Sensor

Physical Design

Wiring Schematic

Software

OpenCV

ROS (Robot Operating System)

Algorithm

Demos

Obstacles

Further Improvements

Awknowledgements