LogoLogo
  • Introduction
  • Getting Started with Control Hub
    • Connect to the Robot Controller Console
    • Updating Wi-Fi Settings
    • Connecting Driver Station to Control Hub
    • Wiring Diagram
    • Next Steps
  • Getting Started with Driver Hub
  • Adding More Motors
    • SPARKmini Motor Controller
    • Adding an Expansion Hub
  • Troubleshooting the Control System
    • General Troubleshooting
    • Control Hub Troubleshooting
    • Driver Hub Troubleshooting
      • Driver Hub Battery Troubleshooting
    • Expansion Hub Troubleshooting
    • Status LED Blink Codes
  • System Overview
    • Control Hub Specifications
    • Expansion Hub Specifications
    • Driver Hub Specifications
    • Port Pinouts
    • Protection Features
    • Cables and Connectors
      • XT-30 - Power Cable
      • JST VH - Motor Power
      • JST PH - Sensors and RS485
    • Integrated Sensors
    • Dimensions and Important Component Locations
  • Updating and Managing
    • Managing Wi-Fi on the Control Hub
    • REV Hardware Client
    • Updating Firmware
      • Firmware Changelog
    • Updating Operating System
      • Control Hub Operating System Changelog
    • Updating Robot Controller Application
      • Updating Robot Controller Application via Android Studio
    • Updating the Driver Hub
      • Driver Hub OS - Change Log
    • Accessing Log Files
    • Android Studio - Deploying Code Wirelessly
  • Hello Robot - Intro to Blocks Programming
    • Welcome to Hello Robot!
    • Where to Program - Client vs. Browser
      • What is an OpMode?
    • Setting up a Configuration
      • Common Errors in Configuration
    • Using a Gamepad
    • Part 1: Tackling the Basics
      • Tackling the Basics Directory - Blocks
      • Creating an OpMode - Blocks
      • Programming Essentials
      • Programming Servos
        • Programming Servo Basics
        • Using a Gamepad with a Servo
        • Programming Servo Telemetry
      • Programming Motors
        • Programming Motors Basics
        • Programming a Motor with a Gamepad
        • Programming Motor Telemetry
      • Programming Touch Sensors
      • Programming Color Sensors
        • Color Sensor Telemetry
        • Detecting Color
    • Part 2: Robot Control
      • Robot Control Blocks Directory
      • Programming Drivetrain Motors
      • Arcade Style TeleOp - Blocks
        • Establishing Variables in Blocks
        • Motor Power vs. Robot Movement
        • Programming Arcade Drive
      • Arm Control - Blocks
        • Adding a Limit Switch
      • Robot Control Full Program
    • Part 3: Autonomous and Encoders
      • ElapsedTime - Blocks
        • ElapsedTime Setup
        • ElapsedTime Logic
        • ElapsedTime - Multiple Movements
      • Encoder Basics
      • Drivetrain Encoders - Blocks
        • Converting Encoder Ticks to a Distance
        • Moving to a Target Distance
        • Setting Velocity
        • Turning the Drivetrain Using RUN_TO_POSITION
      • Arm Control with Encoders - Blocks
        • Estimating the Position of the Arm
        • Calculating Target Position
        • Using Limits to Control Range of Motion
    • Part 4: Going Beyond!
      • Exploring Functions
      • Programming Mecanum - Simplified
      • Programming Mecanum - Refined
  • Hello Robot - Intro to OnBot Java Programming
    • Welcome to Hello Robot!
    • Where to Program - Client vs. Browser
      • What is an OpMode?
    • Setting up a Configuration
      • Common Errors in Configuration
    • Using a Gamepad
    • Part 1: Tackling the Basics
      • Tackling the Basics Directory - OnBot
      • Creating an OpMode - OnBot
      • Programming Essentials
      • Programming Servos
        • Programming Servo Basics
        • Using a Gamepad with a Servo
        • Programming Servo Telemetry
      • Programming Motors
        • Programming Motor Basics
        • Programming a Motor with a Gamepad
        • Programming Motor Telemetry
      • Programming Touch Sensors
    • Part 2: Robot Control
      • Robot Control OnBot Java Directory
      • Programming Drivetrain Motors
      • Arcade Style TeleOp - OnBot Java
        • Establishing Variables in OnBot Java
        • Motor Power vs. Robot Movement
        • Programming Arcade Drive
      • Arm Control - OnBot Java
        • Adding a Limit Switch
      • Robot Control Full Program
    • Part 3: Autonomous and Encoders
      • ElapsedTime - OnBot Java
        • ElapsedTime Setup
        • ElapsedTime Logic
        • ElapsedTime - Multiple Movements
      • Encoder Basics
      • Drivetrain Encoders - OnBot Java
        • Converting Encoder Ticks to a Distance
        • Moving to a Target Distance
        • Setting Velocity
        • Turning the Drivetrain Using RUN_TO_POSITION
      • Arm Control with Encoders - OnBot Java
        • Estimating the Position of the Arm
        • Calculating Target Position
        • Using Limits to Control Range of Motion
  • Sensors
    • Introduction to Sensors
    • Digital
    • Analog
    • I2C
      • IMU
        • Orientating the IMU
      • Adding an External IMU to your Hub
    • Encoders
      • REV Motor Encoders
      • Through Bore Encoder
    • Using 3rd Party Sensors
      • Sensor Compatibility Chart
  • Useful Links
    • REV DUO Build System
  • Legacy Documentation
    • Configuring Your Android Devices
    • Expansion Hub with Android Device Robot Controller
      • Driver Station and Robot Controller Pairing
      • Wiring Diagram
      • Configuration
    • REV Hub Interface Software
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  1. Hello Robot - Intro to Blocks Programming

Part 3: Autonomous and Encoders

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Last updated 4 months ago

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We've tackled the basics. We have a robot able to drive around. What could be next?

Right now our robot is largely dependent on inputs from us as the driver from the gamepad. We've helped it learn to sense a little bit using the touch sensor, but there is still more we can do.

During Part 3 we will be learning how to help our robot navigate the world around it autonomously in different ways. To start we will look at how to use a timer for the robot to keep track of how long it should do something. From there, we will move on to using the built in encoders of the HD Hex and Core Hex Motors.

Encoders are a form of sensor that help collect data for the motor. Some encoders count the number of completed rotations. Others are able to track the exact position of a motor, similar to a servo. The use of encoders brings the need for more math and complex programming, however it will allow your robot to navigate more efficiently.

Quick Links

ElapsedTime
Drivetrain Encoders
Arm Encoders

Overview
Overview
Overview
ElapsedTime Set Up
Converting Encoder Ticks to a Distance
Estimating the Position of the Arm
ElapsedTime Logic
Moving to a Target Distance
Calculating Target Position
ElapsedTime - Multiple Movements
Setting Velocity
Using Limits to Control Range of Motion
Turning the Drivetrain Using RUN_TO_POSITION