June 26, 2024

Presentation "Inverse Kinematics of a Stewart platform"

Albert Castellanos Roigs from the Universitat de Girona presents his Bachelor thesis (Youtube) on our Stewart-Gough platform, powered by rotational hobby servo motors. 

Building on Robert Eisele's study, "Inverse Kinematics of a Stewart Platform", he adapted the original JavaScript code for a unique application with a UV penlight laser. 

The modified code enables writing of various images, including company logos or text fragments, onto a phosphorescent screen.

Inverse Kinematics of a Stewart Platform
September 26, 2023

A new round of Bastet redesign coming up!

Behind the screens, some students have further improved upon the Bastet V2 LORE robot, providing new groundwork for detailing all the bits and parts for a quadruped cat-like robot.

In the OPT Course Projects 1 students start from 3D renders and incomplete schematics and create a full technical dossier of a robot-to be.  later in the academic year, all CNC G-code, machining parameters and tools, bending sequences, 3D printer setups are to be determined during the Projects 2 course. 

During the Projects 3 course next year, the robot will be built!

2023-2024 Bastet Vlad RENDER
August 16, 2023

LORE gets an updated command and control interface

LORE is controlled using an Arduino MEGA 2560 board with lots of breakout boards, that in turn is controlled with the TiSCo Software suit.

Lots of development has happened since the first public description of the software. The underlying framework of TiSCo has been upgraded from Ball Aerospace COSMOS V4 to OpenC3 COSMOS V5.9; a fully web integrated, cloud native command an control solution for all sorts of  embedded hardware.

LOREs OpenC3 COSMOS TiSCo command and control interface.
June 28, 2023

Radio interview on URGENT FM 105.3 with Julie and Jurgen

In this URGENT FM radio special about looking back on the past academic year, Julie Geerinck reflects on the LORE project that she and her partner Apollo De Vos participated in, designing and building the first prototype of 'La Ragna'.

Jurgen Symynck also joins in and talks about the challenges that an ambitious and modern education faces, trying to keep up with bleeding edge technological developments.

June 16, 2023

La Ragna V4.4 presentation and demo

(See elsewhere for a shorter version of this video)

As part of his bachelor thesis project, Andreu Aliu has extensively revised the La Ragna V2 in the first half of 2023. The robot leg shows its capabilities by drawing complex logos on a fluorescent screen.

The precision of the drawn logos are not that great, but this is a side effect of the teach-in method:  to realize these logo-writing motions, one just holds the robot leg tip by hand and traces a logo printed on a piece of paper that lies on top of the fluorescent screen. Meanwhile, the TiSCo Software suit records the servo angle positions. The remaining leeway and play in the robot joints negatively affects a high fidelity recording, together with unavoidable inprecisions & shudders the human operator/recorder introduces.

Note that the repeatability IS great on the other hand: every pass, the  LED passes exactly over the previous trace!

We are impatient to try dedicated Inverse Kinematics- based control software on the full robot - Stay tuned.

April 20, 2023

First test of La Ragna V4.2!

Andreu shows off his first La Ragna V4.2 leg prototype, just in time for our Open House day on April 22, 2023. The Aluminium shins were not finished in time, so we threw something together using paper and glue... Could you tell the difference?

October 5, 2022

14 students start a new round of LORE robot designs

As part of our 'Projects 1' course, the first course in a string of four, fourteen students volunteer to upgrade the schematics of Ragna V1 and Bastet V1.

Render La Ragna V1
May 12, 2022

Introducing: La Ragna and Bastet robots

During the past months, Julie Geerinck, Apollo De Vos and Wouter Goossens designed and finished their design of a spider-like robot and a dog like robot. 

La Ragna & Bastet_Assembly
January 13, 2022

A look at the brains of the LORE Robots

The robot is actuated with an PWM servo shield , on top of an Arduino MEGA 2560. 

It is controlled by OpenC3 COSMOS software. 

The firmware is hosted on Github. Want to join the development? You are more than welcome!

 

TiSCo Brains, driving the LORE Robot servos.
December 21, 2021

Final assembly of the robot... will it work?

The final assembly of the TIGInator robot.

TIGInator assembly
October 17, 2021

Work Preparation for the milling of the Servo Mounting Head

Work Preparation for the milling of the Servo Mounting Head. It will be mated to an 3D-printed adapter that connects to the sheetmetal arm.

2021-10-17_Dylan, Oskar, Kjell Servo CAM foto.JPG
September 17, 2021

Preparations for the first LORE build have begun!

The 3D-CAD model and 2D construction drawings of the TIGinator are checked for manufacture feasability by OPT teachers (Renaat Van Hecke, Geert Poelman and Jurgen Symynck). A team of three eager students will modify and build all the necessary parts as  part of the 'Projecten 3' or 'Projects 3' course at Ontwerp- en productietechnologie , results are expected around january 2022.

2021-09-17_Voorbereiding_Projecten3_LORERobot (14-3).JPG
June 25, 2021

LORE development prototype in action!

This plywood development prototype draws the OPT Logo  The robot is actuated with an PWM servo shield , on top of an Arduino MEGA 2560.  It is controlled by OpenC3 COSMOS software.  The firmware is hosted on Github

The precision of the drawn logo is not that great, but this is a side effect of the teach-in method:  to realize this logo-writing motion, one just holds the robot leg tip by hand and traces a logo printed on a piece of paper that lies on top of the fluorescent screen. Meanwhile, the TiSCo Software suit records the servo angle positions. The lack of mechanical stiffness in this (software) development prototype allows a lot of leeway and play, negatively affecting a high fidelity recording...

Note that the repeatability IS great on the other hand: every pass, the  LED passes exactly over the previous trace!