Autonomous Robots Lab
  • Home
  • News
  • Research
    • Autonomous Navigation and Exploration
    • Fixed-Wing UAVs
    • Agile and Physical Interaction Control
    • Localization and 3D Reconstruction
    • Subterranean Robotics
    • Collision-tolerant Aerial Robots
    • Marine Robotics
    • Intelligent Mobility >
      • Student Projects
      • Electric Bus Datasets
    • Robotics for Nuclear Sites
    • Degerminator
    • Autonomous Robots Arena
    • Code
    • Media
    • Research Presentations
    • Projects
  • Publications
  • Group
    • People
    • Research Collaborators
    • Positions
  • Education
    • Introduction to Aerial Robotics >
      • Online Textbook >
        • Modeling >
          • Frame Rotations and Representations
          • Multirotor Dynamics
        • State Estimation >
          • Inertial Sensors
          • Batch Discrete-Time Estimation
          • The Kalman Filter
        • Flight Control >
          • PID Control
          • LQR Control
          • Linear Model Predictive Control
        • Motion Planning >
          • Holonomic Vehicle BVS
          • Dubins Airplane
          • Collision-free Navigation
          • Structural Inspection Path Planning
        • Simulation Tools >
          • Simulations with SimPy
          • MATLAB & Simulink
          • RotorS Simulator >
            • RotorS Simulator Video Examples
      • Lecture Slides
      • Literature and Links
      • RotorS Simulator
      • Student Projects
      • Homework Assignments
      • Independent Study
      • Video Explanations
      • Syllabus
      • Grade Statistics
    • Autonomous Mobile Robot Design >
      • Lecture Slides
      • Semester Projects
      • Code Repository
      • Literature and Links
      • RotorS Simulator
      • Video Explanations
      • Resources for Semester Projects
      • Syllabus
    • Robotics for DDD Applications
    • CS302 - Data Structures
    • Student Projects >
      • Robot Competitions
      • Undergraduate Researchers Needed
      • ConstructionBots - Student Projects
    • EiT TTK4854 - Robotic Ocean Waste Removal
    • Aerial Robotic Autonomy >
      • Breadth Topics
      • Deep-dive Topics
      • Literature
    • Robotics Seminars
    • Robotics Days
    • Outreach >
      • Drones Demystified! >
        • Lecture Slides
        • Code Repository
        • Video Explanations
        • RotorS Simulator
        • Online Textbook
      • Autonomous Robots Camp >
        • RotorS Simulator
      • Outreach Student Projects
    • BadgerWorks >
      • General Study Links
      • Learn ROS
      • SubT-Edu
  • Resources
    • Autonomous Robots Arena
    • Robot Development Space
  • Contact

Simulation Tools

Simulations is a critical tool for aerial robotics research. It allows us to test an idea safely, predict the system behavior, revisit our concepts and tune the algorithms up to sufficient levels given that good models have been derived. A wide variety of simulation tools exist. Within this section we present MATLAB and Python Simpy as well as a dedicated aerial robotics simulator - RotorS. More specifically, this section contains the following subsections:
  1. Simulations with SimPy
  2. The RotorS Integrated Simulation Solution
Proudly powered by Weebly