RoboDK API for Matlab

Version 5.5.4 (431 KB) by Albert Nubiola

The RoboDK API allows you to simulate and program robot arms directly from Matlab code

https://robodk.com/

5.0

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2.1K Downloads

Updated 20 Dec 2022

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Robot Simulation and Off-line Programming

With the RoboDK API for Matlab you can simulate and program any robot arm using Matlab code. Simulate your robots directly from Matlab programs, generate programs offline or move robots in real time using Matlab.

The RoboDK API for Matlab is implemented using the following classes:

The Robolink class (https://robodk.com/doc/en/PythonAPI/robolink.html#id1) is the link between RoboDK and Matlab. Any item from the RoboDK station can be retrieved.
The RobolinkItem class (https://robodk.com/doc/en/PythonAPI/robolink.html#robolink-item): RoboDK items are represented by the RobolinkItem class. An item can be a robot, a reference frame, a tool, an object, a program or a specific project.

RoboDK can be used for a wide range of applications, such as robot machining, material handling, polishing, welding, synchronizing multiple robots or pick and place.

The following page provides an overview of simulation and offline programming using RoboDK:

https://robodk.com/offline-programming

Note: The latest version of the Matlab API is available on GitHub:

https://github.com/RoboDK/RoboDK-API/tree/master/Matlab

Useful links:

Simulation example using Matlab API: https://robodk.com/Matlab-API
More about the RoboDK API: https://robodk.com/doc/en/RoboDK-API.html
Tips and tricks: https://robodk.com/doc/en/Tips-and-Tricks.html#TipLargerRefs

Highlights

Simulate and program any robot arm (industrial robots or cobots)
Intuitive user interface to creating robot programs
Automated generation of robot programs
API for interfacing with MATLAB® and other languages
Import CAD files (such as STEP, IGES, STL) to use in with your project

About RoboDK

RoboDK is a powerful and cost-effective simulation and programming software for industrial robots and cobots. It supports more than 700 robots and more than 50 robot manufacturers, including robots like ABB, Fanuc, Yaskawa, Universal Robots, Motoman, Staubli, and more.

The intuitive user interface makes it easy to program a fully functional robot application with little or no programming experience. You can import custom 3D files (STEP, IGES, STL) to use in your station or import them directly from your 3D CAD software.

RoboDK can help you reduce programming times and project costs for robotic applications. RoboDK simulation helps users to iterate through different solutions before choosing hardware, helping users choose which robots best suit their intended application.

RoboDK has an API available for interfacing with MATLAB and other programming languages, enabling users to leverage their custom algorithms within the RoboDK environment.

Supported Robot Controllers

The following list includes the robot controllers supported by RoboDK for offline programming:

ABB RAPID IRC5: for ABB IRC5 robot controllers
ABB RAPID S4C: for ABB S4C robot controllers
Adept Vplus: for Adept V+ programming language
Allen Bradley Logix5000: for Allen Bradley Logix5000 PCL
Comau C5G: for Comau C5G robot controllers.
Comau Nodal: for Comau Nodal language.
Denso PAC: for Denso RC7 (and older) robot controllers (PAC programming language)
Denso RC8: for Denso RC8 (and newer) robot controllers (PacScript programming language)
Dobot: for educational Dobot robots
Fanuc R30iA: for Fanuc R30iA and R30iB robot controllers
Fanuc R30iA Arc: for Fanuc Arc welding
Fanuc RJ3: for Fanuc RJ3 robot controllers
G-Code BnR: for B&R robot controllers
GSK: for GSK robots
HIWIN HRSS: for HIWIN robots
KAIRO: for Keba Kairo robot controllers
KUKA IIWA: for KUKA IIWA sunrise programming in Java
KUKA KRC2: for KUKA KRC2 robot controllers
KUKA KRC2 CamRob: for KUKA CamRob milling option
KUKA KRC2 DAT: for KUKA KRC2 robot controllers including DAT data files
KUKA KRC4: for KUKA KRC4 robot controllers
KUKA KRC4 Config: for KUKA KRC4 robot controllers with configuration data in each line
KUKA KRC4 DAT: for KUKA KRC4 robot controllers including DAT data files
Kawasaki: for Kawasaki AS robot controllers
Mecademic: for Mecademic Meca500 robot
Mitsubishi: for Mitsubishi robot controllers
Motoman: for Yaskawa/Motoman robot controllers
Nachi AX FD: for Nachi AX and FD robot controllers
Daihen OTC: for Daihen OTC robot controllers
Precise: for Precise Scara robots
Siemens Sinumerik: for Siemens Sinumerik ROBX robot controller
Staubli VAL3: for Staubli VAL3 robot programs (CS8 controllers and later)
Staubli VAL3 InlineMove: to generate Staubli VAL3 programs with inline movement data
Staubli S6: for Staubli S6 robot controllers
Toshiba: for Toshiba robots
Universal Robots: for UR robots, generates linear movements as pose targets
Universal Robots RobotiQ: for UR robots including support for RobotiQ gripper
Universal Robots joints: for UR robots, generates linear movements as joint targets
Yamaha: for Yamaha robots

Cite As

Albert Nubiola (2024). RoboDK API for Matlab (https://www.mathworks.com/matlabcentral/fileexchange/65690-robodk-api-for-matlab), MATLAB Central File Exchange. Retrieved April 19, 2024.

MATLAB Release Compatibility

Created with R2011a

Compatible with any release

Platform Compatibility

Windows macOS Linux

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Matlab

Version	Published	Release Notes
5.5.4	20 Dec 2022	Improved description	Download
5.5.3	20 Dec 2022	Added more methods, updated RoboDK and improved speed	Download
4.0.1	2 Nov 2019	Fixed namings to match updated API documentation	Download
3.5.5.1	7 Jan 2019	Fixed package	Download
3.5.5.0	7 Jan 2019	Fixed setVisible(1) and setVisible(0) for robot items	Download
3.3.0.0	12 Jan 2018	fixed description typo fixed title/description	Download