284 lines
15 KiB
HTML
284 lines
15 KiB
HTML
<!DOCTYPE html>
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<html lang="en">
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<head>
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<meta charset="UTF-8">
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<meta name="viewport" content="width=device-width, initial-scale=1.0">
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<title>Swerve Drive Visualizer</title>
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<link rel="stylesheet" href="styles.css">
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</head>
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<body>
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<header>
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<h1>Swerve Drive Movement Visualizer</h1>
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<p>Interactive simulation of a swerve drive robot with configurable size, speeds, and number of wheels</p>
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</header>
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<main>
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<section class="visualization-canvas">
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<h2>Robot Visualization</h2>
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<canvas id="swerve-canvas" width="800" height="800"></canvas>
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</section>
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<section class="control-panel">
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<h2>Drive Controls</h2>
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<fieldset>
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<legend>Translation & Rotation</legend>
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<div class="control-group">
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<label for="vy-slider">Move Forward/Backward (pixels/s)</label>
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<input type="range" id="vy-slider" min="-300" max="300" step="10" value="0">
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<output id="vy-value">0</output>
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</div>
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<div class="control-group">
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<label for="vx-slider">Strafe Left/Right (pixels/s)</label>
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<input type="range" id="vx-slider" min="-300" max="300" step="10" value="0">
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<output id="vx-value">0</output>
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</div>
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<div class="control-group">
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<label for="omega-slider">Rotation (rad/s)</label>
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<input type="range" id="omega-slider" min="-3" max="3" step="0.1" value="0">
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<output id="omega-value">0</output>
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</div>
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<button id="reset-btn" type="button">Reset Controls</button>
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</fieldset>
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<fieldset>
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<legend>Performance Limits</legend>
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<div class="control-group">
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<label for="max-speed-slider">Max Module Speed (pixels/s)</label>
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<input type="range" id="max-speed-slider" min="0" max="300" step="10" value="150">
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<output id="max-speed-value">0</output>
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</div>
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</fieldset>
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</section>
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<section class="config-panel">
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<h2>Robot Configuration</h2>
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<fieldset>
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<legend>Quick Presets</legend>
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<div class="preset-buttons">
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<button id="preset-2wheel" type="button">2-Wheel</button>
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<button id="preset-3wheel" type="button">3-Wheel Triangle</button>
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<button id="preset-4wheel" type="button">4-Wheel Square</button>
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<button id="preset-4rect" type="button">4-Wheel Rectangle</button>
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<button id="preset-6wheel" type="button">6-Wheel Hexagon</button>
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<button id="preset-8wheel" type="button">8-Wheel Octagon</button>
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<button id="preset-8square" type="button">8-Wheel Square</button>
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<button id="preset-12hex" type="button">12-Wheel Hexagon</button>
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<button id="preset-16oct" type="button">16-Wheel Octogon</button>
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</div>
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</fieldset>
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<fieldset>
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<legend>Custom Configuration</legend>
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<div class="control-group">
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<label for="module-count">Number of Modules</label>
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<input type="number" id="module-count" min="2" max="12" value="4" step="1">
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</div>
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<button id="generate-inputs-btn" type="button">Generate Position Inputs</button>
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<button id="delete-inputs-btn" type="button">Remove Position Inputs</button>
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<div id="module-position-inputs" class="position-inputs">
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<!-- Dynamically generated position inputs will appear here -->
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</div>
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<button id="apply-custom-btn" type="button" style="display: none;">Apply Custom Configuration</button>
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</fieldset>
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</section>
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<section class="module-states">
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<h2>Module States</h2>
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<div id="current-config-info" class="config-info">
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Current Configuration: <strong id="config-name">4-Wheel Rectangle</strong>
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(<span id="module-count-display">4</span> modules)
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<br>
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Gyro Heading: <strong id="gyro-heading-display">0.0°</strong>
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</div>
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<div class="module-grid" id="module-grid">
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<!-- Dynamically generated module data will appear here -->
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</div>
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</section>
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<section class="documentation">
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<h2>About This Project</h2>
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<details>
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<summary>How To Use</summary>
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<div class="documentation-content">
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<h3>Getting Started</h3>
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<p>This interactive visualizer demonstrates how a swerve drive robot moves based on commanded
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velocities. Use the controls to experiment with different configurations and movement patterns.
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</p>
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<h3>Drive Controls</h3>
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<ul>
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<li><strong>Strafe Left/Right:</strong> Controls the robot's velocity in the X direction
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(field-relative). Positive values move right, negative values move left.</li>
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<li><strong>Move Forward/Backward:</strong> Controls the robot's velocity in the Y direction
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(field-relative). Positive values move forward, negative values move backward.</li>
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<li><strong>Rotation:</strong> Controls the robot's angular velocity (turn rate) in radians per
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second. Positive values rotate counter-clockwise.</li>
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<li><strong>Max Module Speed:</strong> Sets the maximum speed limit for any individual swerve
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module. If calculated speeds exceed this, all modules are scaled proportionally.</li>
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<li><strong>Reset Controls:</strong> Returns all velocity sliders to zero.</li>
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</ul>
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<h3>Preset Configurations</h3>
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<p>Choose from 9 pre-built robot configurations ranging from 2 to 16 wheels. Each preset
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demonstrates different module arrangements:</p>
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<ul>
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<li><strong>2-Wheel:</strong> Differential drive arrangement</li>
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<li><strong>3-Wheel Triangle:</strong> Three modules in an equilateral triangle</li>
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<li><strong>4-Wheel Square:</strong> Classic square configuration</li>
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<li><strong>4-Wheel Rectangle:</strong> Rectangular configuration for longer robots</li>
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<li><strong>6-Wheel Hexagon:</strong> Hexagonal arrangement</li>
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<li><strong>8-Wheel Octagon:</strong> Octagonal arrangement</li>
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<li><strong>8-Wheel Square:</strong> Double-layered square with inner and outer modules</li>
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<li><strong>12-Wheel Hexagon:</strong> Double-layered hexagonal arrangement</li>
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<li><strong>16-Wheel Octagon:</strong> Double-layered octagonal arrangement</li>
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</ul>
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<h3>Custom Configurations</h3>
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<p>Create your own robot configuration:</p>
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<ol>
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<li>Enter the desired number of modules (Minimum of 2)</li>
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<li>Click <strong>Generate Position Inputs</strong> to create input fields</li>
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<li>For each module, specify:
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<ul>
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<li><strong>Module Name:</strong> A label for the module</li>
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<li><strong>X Position:</strong> Distance from robot center (pixels, positive = right)
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</li>
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<li><strong>Y Position:</strong> Distance from robot center (pixels, positive = up)</li>
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</ul>
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</li>
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<li>Click <strong>Apply Custom Configuration</strong> to see your design</li>
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<li>Use <strong>Remove Position Inputs</strong> to clear the custom fields. This does not reset
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the robot, only clears the input box</li>
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</ol>
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<h3>Understanding the Visualization</h3>
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<ul>
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<li><strong>Robot Frame:</strong> The filled polygon connecting the outer-most module positions
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</li>
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<li><strong>Modules:</strong> Circular markers at each wheel position</li>
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<li><strong>Velocity Arrows:</strong> Red arrows showing the direction and magnitude of each
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module's velocity</li>
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<li><strong>Grid:</strong> Moves relative to the robot to show field-relative motion</li>
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<li><strong>Gyro Heading:</strong> The current rotation angle of the robot in degrees</li>
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</ul>
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<h3>Module States Panel</h3>
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<p>Displays real-time information for each module:</p>
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<ul>
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<li><strong>Angle:</strong> The direction the module is pointing (in degrees)</li>
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<li><strong>Speed:</strong> The velocity of the module (in pixels/second)</li>
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</ul>
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</div>
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</details>
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<details>
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<summary>Explanation of Swerve Kinematics</summary>
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<div class="documentation-content">
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<h3>What is Swerve Drive?</h3>
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<p>Swerve drive (also called holonomic drive) is a drivetrain design where each wheel module can
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independently rotate and drive in any direction. This allows the robot to move in any direction
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while simultaneously rotating, providing exceptional maneuverability.</p>
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<h3>Kinematic Equations</h3>
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<p>The simulator calculates each module's state using inverse kinematics. Given a desired robot
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velocity (v<sub>x</sub>, v<sub>y</sub>) and rotation rate (ω), we calculate each module's
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required velocity.</p>
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<h4>Field-Relative vs Robot-Relative</h4>
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<p>This simulator uses <strong>field-relative control</strong>, meaning the velocity commands are
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relative to the field, not the robot's current orientation. The inputs are transformed to
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robot-relative coordinates using the current gyro heading:</p>
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<pre>
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v<sub>robot_x</sub> = v<sub>field_x</sub> × cos(-θ) - v<sub>field_y</sub> × sin(-θ)
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v<sub>robot_y</sub> = v<sub>field_x</sub> × sin(-θ) + v<sub>field_y</sub> × cos(-θ)
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</pre>
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<p>Where θ is the robot's heading angle (gyro reading).</p>
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<h4>Module Velocity Calculation</h4>
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<p>For each module at position (x<sub>i</sub>, y<sub>i</sub>) relative to the robot's center of
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rotation:</p>
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<ol>
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<li><strong>Translation component:</strong> The robot's linear velocity (v<sub>robot_x</sub>,
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v<sub>robot_y</sub>)</li>
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<li><strong>Rotation component:</strong> Perpendicular to the position vector, with magnitude
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proportional to distance from center:
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<pre>
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v<sub>rot_x</sub> = -y<sub>i</sub> × ω
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v<sub>rot_y</sub> = x<sub>i</sub> × ω
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</pre>
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</li>
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<li><strong>Combined velocity:</strong> Vector sum of translation and rotation:
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<pre>
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v<sub>module_x</sub> = v<sub>robot_x</sub> + v<sub>rot_x</sub>
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v<sub>module_y</sub> = v<sub>robot_y</sub> + v<sub>rot_y</sub>
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</pre>
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</li>
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</ol>
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<h4>Module Angle and Speed</h4>
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<p>From the module's velocity vector, we calculate:</p>
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<ul>
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<li><strong>Speed:</strong> The magnitude of the velocity vector: √(v<sub>x</sub>² +
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v<sub>y</sub>²)</li>
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<li><strong>Angle:</strong> The direction of the velocity vector: arctan2(v<sub>y</sub>,
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v<sub>x</sub>)</li>
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</ul>
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<h4>Speed Normalization</h4>
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<p>If any module's calculated speed exceeds the maximum allowed speed, all module velocities are
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scaled proportionally. This preserves the movement direction while respecting hardware limits:
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</p>
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<pre>
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scale = max_speed / max(calculated_speeds)
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if scale < 1:
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all_module_speeds × scale
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</pre>
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<h3>Gyro Integration</h3>
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<p>The robot's heading (gyro angle) is continuously updated by integrating the rotation rate:</p>
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<pre>
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θ<sub>new</sub> = θ<sub>old</sub> + ω × Δt
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</pre>
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<p>Where Δt is the time step. The heading is normalized to stay within the range [-π, π].</p>
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<h3>Real-World Applications</h3>
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<p>Swerve drive systems are commonly used in:</p>
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<ul>
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<li><strong>FRC (FIRST Robotics Competition):</strong> For competitive robots requiring precise
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positioning</li>
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<li><strong>Industrial AGVs:</strong> Automated guided vehicles in warehouses</li>
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<li><strong>Research Platforms:</strong> Mobile robots requiring omnidirectional movement</li>
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</ul>
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<h3>Key Advantages</h3>
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<ul>
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<li>True holonomic motion (can move in any direction without rotating)</li>
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<li>Can translate and rotate simultaneously</li>
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<li>Excellent maneuverability in constrained spaces</li>
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<li>No "drift" or unwanted rotation during translation</li>
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</ul>
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<h3>Implementation Considerations</h3>
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<ul>
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<li><strong>Mechanical Complexity:</strong> Each module requires two motors (drive and steering)
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</li>
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<li><strong>Control Complexity:</strong> Requires coordinated control of all modules</li>
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<li><strong>Sensor Requirements:</strong> Absolute encoders recommended for module angles</li>
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<li><strong>Cost:</strong> More expensive than traditional drivetrains</li>
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</ul>
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</div>
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</details>
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</section>
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</main>
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<script type="module" src="vendor/lucio/graham-scan.mjs"></script>
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<script type="module" src="script.js"></script>
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</body>
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</html> |