Download
Install (example: Linux server)
Configure
Verify
Rollback
This is the unique step for the educational install. You must push the curriculum to the robot’s local storage.
Installing CosmiR Educational is a straightforward process that requires attention to system requirements and following the provided installation steps. If you're successful, you'll gain access to a robust educational platform that can enhance learning and teaching experiences. Should you encounter any difficulties, don't hesitate to seek help from the CosmiR Educational support community.
To install COSIMIR Educational, a 3D robot simulation environment for industrial robotics, follow these standard steps based on official user manuals: Installation Procedure
Launch Setup: Run the installation executable (often named COSEDU32.EXE).
License Agreement: A Festo Didactic license agreement will appear; you must click Agree to proceed.
User Selection: Choose whether to install the software for the current user only or all users.
Directory Path: The default installation path is typically C:\Programs\didactic\CosimirEducationalGB. Use the Browse button if you wish to change this location. Installation Options:
You may be prompted to install supplementary options like the COSIMIR Kernel. cosimir educational install
It is generally recommended to keep the default settings for these components.
Completion: Once the progress bar finishes, click Finish. A message will confirm a successful installation. Licensing & Activation
After the initial installation, you must activate your license:
Activation: You will be asked whether to activate the license immediately or later.
Network Licensing: If you are using a license server for a classroom or lab environment, refer to the specific network installation instructions included with your software package. Post-Installation Setup
Program Start: Upon opening COSIMIR, you can begin by using the Project Wizard (File > Project Wizard) to set up your first virtual workcell.
Robot Selection: The wizard will ask you to select a robot type (e.g., Mitsubishi RV-2AJ) and a programming language (e.g., MELFA-BASIC IV). Manual Cosimir | PDF - Scribd
To install COSIMIR Educational, a 3D robotics simulation software by Festo Didactic, you generally need to run the setup from an installation CD or a downloaded package. The process involves configuring basic system settings and, in some versions, installing hardware drivers for a security dongle (hardlock). Step-by-Step Installation Guide Launch Setup:
Insert the COSIMIR Educational CD-ROM into your drive or open the downloaded setup folder.
In Windows, click Start > Run and type d:setup (replace "d" with your actual drive letter if necessary). Configure Preferences:
Language Selection: Choose your preferred language in the initial dialogue box.
License Agreement: You must accept the Festo Didactic License Agreement to proceed. Download
Installation Path: The default directory is usually C:\Programs\didactic\CosimirEducationalGB. You can change this using the Browse button, but avoid folders containing older versions of COSIMIR. Hardware & Drivers:
If your version uses a hardlock (dongle) for licensing, you must install the specific device driver included in the setup.
Note: On older systems like Windows NT or 2000, you will need Administrator privileges to install these drivers. Completion:
Follow the on-screen prompts of the Installation Wizard to copy files and create program icons. System Requirements
Because COSIMIR is a legacy application often used in technical education, it typically runs on older Windows environments. Minimum Requirement Recommended Operating System Windows 95, 98, NT, 2000, or XP Windows NT, 2000, or XP Processor Pentium II, 300 MHz or higher Pentium IV, 1 GHz RAM Storage Space 650 MB (after compression) Graphics 3D acceleration, OpenGL support, 32 MB RAM 64 MB RAM, 1024x768 resolution Post-Installation Setup
Once installed, you can start your first project by selecting File > Project Wizard. This allows you to choose a robot type (such as the Mitsubishi RV-2AJ) and the desired programming language, like MELFA BASIC IV.
For more technical details or troubleshooting, you can refer to digital versions of the COSIMIR Educational User Guide available on Internet Archive.
If you're having trouble getting it to run on a modern computer, I can help you look for compatibility settings or virtual machine options. Which Windows version are you currently using? Manual Cosimir | PDF - Scribd
If you want, I can:
Which of those would you like next?
The installation of COSIMIR Educational involves several key components and steps to set up the robotic simulation environment. It is typically distributed as a software package for educational institutions to teach robotics programming and cell design. Core Installation Content The installation media or download usually contains: COSIMIR Setup Executable: The main installer for the simulation software. License Manager: A utility (often
) required to handle the hardware dongle or software license key. Model Libraries: Install (example: Linux server)
A collection of pre-built robotic arms (e.g., Mitsubishi RV-M1, RV-2AJ), sensors, and factory components. Documentation: User manuals and programming guides in PDF format. General Installation Steps Prepare the License:
Plug in the provided USB license dongle before starting, as the software often checks for it during or immediately after installation. Run the Installer: from the installation directory. Select Components:
Choose between a "Full Installation" (includes all libraries) or "Custom" if you only need specific robot models. Driver Installation: Ensure the Runtime-Kit for the license protection (e.g., WIBU-SYSTEMS
) is installed so the software can verify your educational license. First Run:
Upon launching, you may need to point the software to the license server or local dongle. System Requirements
The installation process on Linux may vary depending on the distribution. Typically, you'll download a .deb or .rpm file.
Where Cosimir shines is in its depth. It is not just a visualizer; it is a physics engine and a control logic simulator wrapped in one.
A. The Model Library Cosimir comes pre-loaded with the entire catalog of Festo Didactic hardware. This includes the famous MPS (Modular Production System) stations—conveyors, sorting units, robotic arms (like the ER4-ERC), and hydraulic trainers.
B. PLC Integration The true power of Cosimir lies in its ability to be controlled by external programming environments. It acts as a "virtual plant."
C. Smart Components The components are "smart," meaning they have built-in logic and physics. Cylinders have adjustable stroke lengths and flow rates; motors have torque limits. This forces students to consider engineering constraints, not just binary on/off logic.
Commands to verify:
sudo systemctl status cosimir
curl -I https://cosimir.example.edu
sudo -u postgres psql -c "\l"
ls -lh /var/backups/cosimir
An educational install differs from an industrial one. In industry, a workstation is often a high-end, dedicated PC. In education, the software must often run on a variety of machines in a computer lab, or on student laptops.
Minimum Specifications: While older versions of COSIMIR (such as COSIMIR Industrial or older educational builds) could run on modest hardware, modern 3D simulation requires robust resources. IT departments should aim for the following minimums:
The "Legacy" Challenge: Many educational institutions utilize older versions of COSIMIR (e.g., COSIMIR 3D or specialized Educational versions) to match legacy hardware they own. If installing an older version on modern Windows 10 or 11 operating systems, IT administrators must be prepared to troubleshoot compatibility issues, often requiring the use of "Windows Compatibility Mode" or the installation of legacy DirectX runtimes.