Software:Middleware for Robotic Applications

From HandWiki
MIRA
Developer(s)MetraLabs GmbH,
Ilmenau University of Technology
Initial release27 April 2012; 11 years ago (2012-04-27)
Stable release
2020-04-26 / 26 April 2020; 3 years ago (2020-04-26)
Written inC++
Operating systemLinux, Windows
TypeRobotics suite, Middleware
LicenseDual License:
GPL Version 3,
Professional Edition License
Websitewww.mira-project.org

Middleware for Robotic Applications (MIRA) is a cross-platform, open-source software framework written in C++ that provides a middleware, several base functionalities and numerous tools for developing and testing distributed software modules. It also focuses on easy creation of complex, dynamic applications, while reusing these modules as plugins. The main purpose of MIRA is the development of robotic applications, but as it is designed to allow type safe data exchange between software modules using intra- and interprocess communication it is not limited to these kinds of applications.[1]

MIRA is developed in a cooperation of the MetraLabs GmbH and the Ilmenau University of Technology/Neuroinformatics and Cognitive Robotics Lab. Therefore, MIRA was designed to fulfill the requirements of both commercial and educational purposes.

Features

General:

  • adds introspection/reflection and serialization to C++ with the usage of C++ language-constructs only (a meta-language or metacompilers are not necessary)
  • efficient data exchange between software modules
  • the used communication technique based on "channels" always allows non-blocking access to the transferred data [2]
  • for the user the communication is fully transparent no matter if the software modules are located within the same process, different processes or on different machines, the underlying transport layer will choose the fasted method for data transportation automatically[2]
  • beside data exchange via "channels", MIRA supports Remote Procedure Calls (RPC) and Remote Method Invokation.
  • MIRA is fully decentralized, hence there is no central server or central communication hub, making its communication more robust and allows its usage in multi-robot applications
Screenshot of MIRACenter

Robotic Application specific:

  • easy configuration of software modules via configuration files
  • parameters of algorithms can be modified live at runtime to speed up the debugging and development process
  • huge amounts of robot sensor data can be recorded in Tapes for later playback, here different codecs can be used to compress the data

Platforms

MIRA supports and was successfully tested on the following platforms:

Applications using MIRA

MIRA is used within the following applications:

  • Konrad and Suse - Guide Robots, that guide visitors within the Zuse-Building of the Ilmenau University of Technology[5][6]
  • Monitoring the air quality within clean rooms at Infineon Technologies using several SCITOS G5 robots[7][8]

and projects:

  • CompanionAble - Integrated Cognitive Assistive & Domotic Companion Robotic System for Ability & Security[9]
  • Robot-Era - Implementation and integration of advanced robotic systems and intelligent environments in real scenarios for the ageing population[10]

Usability

Reflection/Serialization

class Data 
{
    int value;
    std::map<std::string,std::list<int> > complex;
    Foo* ptr;

    template <typename Reflector>
    void reflect(Reflector& r) 
    {
        r.member("Value",   value,   "an int member");
        r.member("Complex", complex, "a complex member");
        r.member("Pointer", ptr,     "a pointer pointer");
    }
};
  • arbitrary complex data types can be serialized by adding a simple reflect method to the class as shown above
  • after these minor changes, the objects of the class can be transported via inter-process communication, can be used as parameters in configuration files for software modules, can be recorded in "Tape" files, etc.

Remote Procedure Calls

class MyClass
{
    int compute(const std::list<float>& values);

    template <typename Reflector>
    void reflect(Reflector& r) 
    {
        r.method("compute", &MyClass::compute, this, "comment");
    }
};
  • arbitrary methods can be turned into RPC methods by adding one line of code within the reflect() method. There is no need to write wrappers around the methods or to use meta description languages.

References

  1. "MIRA Project Website". http://www.mira-project.org. 
  2. 2.0 2.1 Einhorn, Erik; Langner, Tim; Stricker, Ronny; Martin, Christian; Gross, Horst-Michael (2012). "MIRA - middleware for robotic applications". 2012 IEEE/RSJ International Conference on Intelligent Robots and Systems. pp. 2591–2598. doi:10.1109/IROS.2012.6385959. ISBN 978-1-4673-1736-8. 
  3. "MIRA Documentation - Linux Support". http://www.mira-project.org/MIRA-doc/RequirementsLinux.html. 
  4. "MIRA Documentation - Windows Support". http://www.mira-project.org/MIRA-doc/InstallationPage.html. 
  5. "TU Ilmenau: Konrad-Zuse-Bau eröffnet". Thüringer Allgemeine Zeitung. http://ilmenau.thueringer-allgemeine.de/web/lokal/leben/detail/-/specific/TU-Ilmenau-Konrad-Zuse-Bau-eroeffnet-2021140944. 
  6. Stricker, Ronny (2012). "Konrad and Suse, Two Robots Guiding Visitors in a University Building". Autonomous Mobile Systems 2012. Informatik aktuell. pp. 49–58. doi:10.1007/978-3-642-32217-4_6. ISBN 978-3-642-32216-7. 
  7. "Ilmenauer Oberbürgermeister ließ sich von Roboter den Weg zeigen". Thüringer Allgemeine Zeitung. http://ilmenau.thueringer-allgemeine.de/web/lokal/wirtschaft/detail/-/specific/Ilmenauer-Oberbuergermeister-liess-sich-von-Roboter-den-Weg-zeigen-496313255. 
  8. "Der Markt bietet hohe Potenziale für mobile Robotik". TRIA. http://www.tria-online.eu/index.php/news-a-info/highlights/969-metra. 
  9. "CompanionAble". http://www.companionable.net/. 
  10. "Robot-Era". http://www.robot-era.eu/robotera/. 


External links



Retrieved from "https://handwiki.org/wiki/index.php?title=Software:Middleware_for_Robotic_Applications&oldid=3673404"