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FPV Training

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FPV Simulator Training Program

A comprehensive 8-week training program designed to develop FPV piloting skills through systematic simulator practice using the Radiomaster Boxer controller and Uncrashed simulator software.

Initial Setup

Hardware Configuration

  1. USB Connection:
    • Plug Radiomaster Boxer into computer
    • Should appear as standard game controller
    • No additional drivers required for simulator use
  1. Uncrashed Settings:
    • Launch Uncrashed simulator
    • Navigate to Controller Configuration
    • Select "Game Controller" or "DirectInput"
    • Calibrate sticks through complete range of motion
  1. Channel Mapping:
    • Throttle: Axis 3
    • Yaw: Axis 4
    • Pitch: Axis 2
    • Roll: Axis 1
    • Verify all directions match physical stick movement

Recommended Beginner Settings

Rate Configuration:

  • Roll Rate: 400 degrees/second
  • Pitch Rate: 400 degrees/second
  • Yaw Rate: 200 degrees/second

Expo Settings:

  • Roll Expo: 0.3
  • Pitch Expo: 0.3
  • Yaw Expo: 0.3

Core Training Philosophy

Primary Objectives

  1. Knowledge Foundation
    • Understanding transmitter controls and their effects
    • Learning flight physics principles
    • Mastering stick control theory
    • Building muscle memory through deliberate practice
  1. Systematic Skill Development
    • Each skill builds on previous foundations
    • Measurable progress through specific benchmarks
    • Focused practice sessions with clear goals
    • Regular evaluation and adjustment
  1. Documentation and Analysis
    • Detailed session logs
    • Progress tracking
    • Skill assessment
    • Knowledge retention verification

Training Weeks

Week 0: Foundation Building

Knowledge Preparation:

Create study materials covering:

  • Stick axes and their effects on aircraft movement
  • Rate and expo settings impact on control feel
  • Basic flight physics and momentum principles
  • Common FPV terminology and concepts

Setup Tasks:

  1. Install and configure simulator software
  2. Set up Radiomaster Boxer for simulator use
  3. Configure rates to beginner-friendly settings
  4. Create practice environment presets
  5. Establish logging system for progress tracking

Week 1-2: Basic Control Development

Daily Practice Structure (1 hour):

Morning Session (30 minutes):

  • 10 min: Hovering practice
  • 10 min: Basic forward flight
  • 10 min: Flight physics flashcard review

Evening Session (30 minutes):

  • 15 min: Basic maneuver practice
  • 15 min: Control theory study

Skills Focus:

  1. Throttle Control:
    • Maintaining steady altitude
    • Smooth altitude changes
    • Hover stability
    • Power management
  1. Basic Directional Control:
    • Forward and backward movement
    • Left and right translation
    • Basic turns
    • Coordinated movement

Success Criteria:

  • Maintain hover within 1m cube for 30 seconds
  • Complete basic square pattern
  • Execute controlled takeoff and landing
  • Demonstrate understanding of stick positions

Week 3-4: Orientation and Movement

Daily Practice Structure (1 hour):

Morning Session (30 minutes):

  • 15 min: Orientation exercises
  • 15 min: Pattern flying

Evening Session (30 minutes):

  • 15 min: Recovery practice
  • 15 min: Advanced control theory study

Skills Focus:

  1. Orientation Training:
    • Nose-in hovering
    • Side-in hovering
    • Multiple orientation transitions
    • Spatial awareness development
  1. Basic Patterns:
    • Figure-8 patterns
    • Circular paths
    • Square paths with consistent altitude
    • Basic line practice

Success Criteria:

  • Complete figure-8 in all orientations
  • Maintain orientation during pattern work
  • Execute smooth transitions between patterns
  • Demonstrate consistent altitude control

Week 5-6: Advanced Control Development

Daily Practice Structure (1 hour):

Morning Session (30 minutes):

  • 20 min: Advanced pattern practice
  • 10 min: Speed control exercises

Evening Session (30 minutes):

  • 20 min: Precision exercises
  • 10 min: Advanced flight theory study

Skills Focus:

  1. Advanced Pattern Work:
    • Complex geometric patterns
    • Varying speed patterns
    • Multi-level patterns
    • Precision cornering
  1. Speed Management:
    • Controlled acceleration
    • Precise deceleration
    • Speed-dependent turn radius
    • Momentum management

Success Criteria:

  • Execute complex patterns at varying speeds
  • Demonstrate precise speed control
  • Complete advanced geometric patterns
  • Show consistent control in all orientations

Week 7-8: Racing and Technical Skills

Daily Practice Structure (1 hour):

Morning Session (30 minutes):

  • 20 min: Race track practice
  • 10 min: Technical skill development

Evening Session (30 minutes):

  • 20 min: Obstacle course navigation
  • 10 min: Race theory study

Skills Focus:

  1. Racing Fundamentals:
    • Racing lines
    • Gate approaches
    • Speed management
    • Corner optimization
  1. Technical Skills:
    • Split-S turns
    • Power loops
    • Inverted flight
    • Quick direction changes

Success Criteria:

  • Complete race track without crashes
  • Execute basic freestyle maneuvers
  • Navigate technical obstacles
  • Demonstrate race-ready control

Uncrashed Benchmark Course

Course Design

Initial Setup:

  1. Open Uncrashed Track Editor
  2. Select "Empty Track" as starting point
  3. Set environment to "Daytime Clear"

Gate Placement (Figure-8 Pattern):

  1. Start Gate: Ground level
  2. Gate 1: 20m forward, 3m high
  3. Gate 2: 20m right of Gate 1, 3m high
  4. Gate 3: 20m behind Gate 2, 3m high
  5. Gate 4: 20m left of Gate 3, 3m high
  6. Finish Gate: Return to start position

Course Specifications:

  • Total length: Approximately 100m
  • Gate size: 3m x 3m standard
  • Minimum flight height: 2m
  • Maximum flight height: 5m
  • Required turns: 4 (2 left, 2 right)

Training Protocol

Warm-up Phase:

  1. Load "Hover Practice" from Basic Training
  2. Complete 2-minute hover challenge
  3. Run Figure-8 training once

Benchmark Attempts:

  1. Three attempts at custom course
  2. Record total time, clean gates hit, height violations
  3. Track optimal line adherence

Progress Metrics:

  • Beginner Phase: Complete course, all gates clean, time under 90 seconds
  • Intermediate Phase: Consistent clean runs, time under 60 seconds
  • Advanced Phase: Time under 45 seconds, perfect racing line
  • Expert Phase: Time under 30 seconds, consistent clean runs

Documentation System

Daily Practice Log Template

Date: YYYY-MM-DD
Session Duration: XX minutes

Skills Practiced:
- [List specific exercises]
- [Note progress on each]

Knowledge Review:
- [Flash card topics covered]
- [New concepts learned]

Performance Metrics:
- Hover stability time: [seconds]
- Pattern completion success rate: [percentage]
- New skills attempted: [list]

Goals for Next Session:
- [Specific skills to focus on]
- [Areas needing improvement]

Weekly Assessment Checklist

  1. Control Precision
    • Hover stability
    • Pattern accuracy
    • Speed management
    • Orientation handling
  1. Knowledge Retention
    • Flash card review success
    • Theory application
    • Technical understanding
    • Problem-solving ability
  1. Skill Progression
    • New skills acquired
    • Improvement in existing skills
    • Areas needing focus
    • Overall progress assessment

Hardware Recommendations

Complete FPV Setup

Component Model Price Quantity
Drones Happymodel Mobula8 1-2S 85mm $116.99 2
Batteries Gaoneng GNB 2S 530mAh 90C LiPo $12.99 4
Goggles HDZero FPV Goggles $729.00 1
Recording Elgato Cam Link 4K $97.99 1
Expansion HDZero Analog Expansion Module V2 $49.99 1
Receiver ImmersionRC rapidFIRE w/ Analog PLUS $149.00 1
Total Base System $1,451.84

Spare Parts and Accessories

  • Propellers: Gemfan Hurricane 2023 Tri-Blade - $3.99 per set
  • Frames: Happymodel Mobula8 Frame - $5.99 each
  • Antennas: Lumenier AXII 2 Long Range 5.8GHz - $19.99 each
  • Tools: NewBeeDrone Tool Kit V1.6 - $39.99
  • Charger: ISDT Q6 Nano Battery Charger - $49.99

Long-Range Build Example

Based on community recommendation for 25-minute flight times:

  • Flight Controller: iFlight F7 TwinG V2.1
  • ESC: iFlight Sussex 50amp
  • Motors: Brother Hobby Avenger 2806.5 1300kv
  • FPV Camera: Runcam Micro Eagle V3
  • GPS: BrainFPV GPS
  • VTX: Rush Tank Ultimate Plus
  • Antenna: True RC Singularity
  • Transmitter: TBS Crossfire Nano TX V2 (500mw)

Essential Knowledge Areas

Transmitter Theory

  • Stick movement effects on aircraft attitude
  • Rate settings and control sensitivity
  • Expo curves and stick feel customization
  • Switch functions and flight mode management

Flight Physics

  • Pitch angle relationship to forward speed
  • Roll and yaw coordination in turns
  • Momentum and inertia effects on control
  • Prop wash and turbulence impacts

Technical Concepts

  • PID tuning basics and effects
  • Battery voltage sag compensation
  • Signal strength and failsafe procedures
  • Video transmission fundamentals

See Also

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