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en:ros:simulations [2020/03/23 08:54] tomykalmen:ros:simulations [Unknown date] (current) – external edit (Unknown date) 127.0.0.1
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 ====== 3D Simulation ====== ====== 3D Simulation ======
  
-Simulation is the simulation of a real-world process or system over time. Previously, we dealt with simple two-dimensional simulation. Very sophisticated three-dimensional systems can also be simulated. Simulation is a very important part of the ROS and robot development process as it allows the robot to be programmed and experimented without having a physical robot. Robot simulation is an important tool for every robot builder. A well-developed simulator lets you quickly test algorithms, customize robots, and even train artificial intelligence. We chose [[http://gazebosim.org/|Gazebo]] as the simulator. Gazebo offers the ability to accurately and efficiently simulate multiple robots in complex indoor and outdoor environments. The simulator has a full featured physics engine, high quality graphics and good ROS compatibility. It is possible to simulate different motors and joints and different sensors, such as camera and lidar. Gazebo simulator can be run from the command line (//headless//) or with a nice graphical user interface+Simulation is the imitation of a real-world process or system over time. Previously, we dealt with simple two-dimensional simulations. Very sophisticated three-dimensional systems can also be simulated. Simulation is a very important part of the ROS and robot development process as it allows the robot to be programmed and experimented with without having a physical robot. Robot simulation is an important tool for every robot builder. A well-developed simulator lets you quickly test algorithms, customize robots, and even train artificial intelligence. There are different types of simulators for various purposes. The Gazebo is a universal simulator for a wide variety of aims, from mobile robots to autonomous vehicles (AVs). However, AV simulators need powerful graphical engines to create a virtual environment as close to the real one. This is beyond the Gazebo power and you can find this feature in the new modern AV simulator such as SVL simulator or CARLA. 
 +    
 +In the first step, we chose [[http://gazebosim.org/|Gazebo]] as the simulator, and in the following focused on the SVL simulator as the main AV simulator. Gazebo offers the ability to accurately and efficiently simulate multiple robots in complex indoor and outdoor environments. The simulator has a full-featured physics engine, high-quality graphicsand good ROS compatibility. It is possible to simulate different motors and joints and different sensors, such as cameras and LiDARs. Gazebo simulator can be run from the command line (//headless//) or with a nice graphical user interface
  
-{{:et:ros:0_zitpy4fzmyoxx2bb_.png?800|}}+{{ :et:ros:0_zitpy4fzmyoxx2bb_.png?800 |}}
  
 ===== Installation ===== ===== Installation =====
-There is an automatic installation script for installing Gazebo:+The gazebo is already installed with the full ROS installation. But in case that you don't install ROS in the full mode you can use this automatic installation script for installing Gazebo:
  
-   curl -sSL http://get.gazebosim.org|incl+  $ curl -sSL http://get.gazebosim.org|incl
  
  
 ===== URDF ===== ===== URDF =====
  
-The Unified Robot Description Format (URDF) is a robotic model in XML format. The model primarily contains the coordinates frames (///tf//). These help us find out what the different parts of the robot depend on. For example, we find out where the robot is located on the camera. URDF files are also used by the simulator. According to this the simulator knows the shape of the parts of the robot and where the joints of the robot are. Making URDF files may seem difficult at first, but fortunately many popular robot models are freely available on the Internet.+The Unified Robot Description Format (URDF) is a robotic model in XML format. The model primarily contains the coordinates frames (///tf//). These help us find out what the different parts of the robot depend on. For example, we find out where the robot is located on the camera. Basically, we can define static //tf// and also joints inside the URDF file. They are also used by simulators. According to thisthe simulator knows the shape of the parts of the robot and where the joints of the robot are. Making URDF files may seem difficult at first, but fortunatelymany popular robot models are freely available on the Internet.
  
-{{:et:ros:urdf.png|}}+{{ :et:ros:urdf.png?200 |}}
  
-In order to modify the robot model both in the simulation and //in Rviz//, the robot's URDF file must be changed. This is necessary if we want to change the configuration of the robot, for example by adding sensors to the robot.+In order to modify the robot model both in the simulation and //in Rviz//, the robot's URDF file must be changed. This is necessary if we want to change the configuration of the robot, for example by adding sensors to the robot. Every element on the robot is assigned to a specific //link//. The relation between these links is defined under the //joint// tags
  
 Example URDF file: Example URDF file:
en/ros/simulations.1584953695.txt.gz · Last modified: 2020/07/20 09:00 (external edit)
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