Notice: this Wiki will be going read only early in 2024 and edits will no longer be possible. Please see: https://gitlab.eclipse.org/eclipsefdn/helpdesk/-/wikis/Wiki-shutdown-plan for the plan.
Difference between revisions of "APP4MC PSys Rover Hackathon 201701"
(9 intermediate revisions by 4 users not shown) | |||
Line 1: | Line 1: | ||
This page helps for the preparation of the PolarSys Rover Hackathon for Amalthea4Public project | This page helps for the preparation of the PolarSys Rover Hackathon for Amalthea4Public project | ||
− | * Location: | + | * Location: Zwingenberg |
* Date: January 19th, 2017 | * Date: January 19th, 2017 | ||
− | * Time: | + | * Time: 9:00 a.m. |
After the Hackathon, this page will become a report of what happened during the Hackathon. | After the Hackathon, this page will become a report of what happened during the Hackathon. | ||
== Attendees == | == Attendees == | ||
+ | * Gaël Blondelle (Eclipse Foundation Europe) | ||
+ | * David Schmelter (Fraunhofer) | ||
+ | * Joerg Tessmer (Bosch) | ||
+ | * Harald Mackamul (Bosch) | ||
+ | * Francesco Gerardi (Bosch) | ||
+ | * Zakir Meer (Bosch) | ||
+ | * Lukas Krawczyk (FH Dortmund) | ||
+ | * Robert Hoettger (FH Dortmund) | ||
+ | * Mustafa Özcelikörs (FH Dortmund) | ||
+ | * Raphael Weber (Timing-Architects) | ||
+ | * TBD (Timing-Architects) | ||
− | |||
+ | |||
+ | == Goals == | ||
+ | * Setup the standard tool chain to modify the rover | ||
+ | * Control and access the rover from your laptop | ||
+ | * Integrate A4P tools with the tool chain | ||
+ | * Adapt the Rover demo to cover innovations of the Amalthea4Public project | ||
== Hardware == | == Hardware == | ||
+ | The setup of the Hackathon will enable several teams to address simultaneously the different aspects of a larger demo. | ||
+ | |||
+ | * For the Hackathon, we will have 5 full Rover kits as described [https://wiki.polarsys.org/Basic_BOM on this page]. | ||
+ | * We also plan to provide a minimalist ''non rover kit'' that consists of a Raspberry pi, and few resistors that enable to simulate the Rover kit with the Raspberry Pi 3 in the loop. | ||
− | == | + | == Pre-requisites == |
+ | * Follow the Rover getting started tutorial [https://github.com/gaelblondelle/PSysRoverInitialContrib/blob/master/documentation/c_getting_started/org.polarsys.rover.c.getting_started/polarsys_c_rover_for_dummies.asciidoc available on the temporary rover website]. |
Latest revision as of 09:36, 18 January 2017
This page helps for the preparation of the PolarSys Rover Hackathon for Amalthea4Public project
- Location: Zwingenberg
- Date: January 19th, 2017
- Time: 9:00 a.m.
After the Hackathon, this page will become a report of what happened during the Hackathon.
Contents
Attendees
- Gaël Blondelle (Eclipse Foundation Europe)
- David Schmelter (Fraunhofer)
- Joerg Tessmer (Bosch)
- Harald Mackamul (Bosch)
- Francesco Gerardi (Bosch)
- Zakir Meer (Bosch)
- Lukas Krawczyk (FH Dortmund)
- Robert Hoettger (FH Dortmund)
- Mustafa Özcelikörs (FH Dortmund)
- Raphael Weber (Timing-Architects)
- TBD (Timing-Architects)
Goals
- Setup the standard tool chain to modify the rover
- Control and access the rover from your laptop
- Integrate A4P tools with the tool chain
- Adapt the Rover demo to cover innovations of the Amalthea4Public project
Hardware
The setup of the Hackathon will enable several teams to address simultaneously the different aspects of a larger demo.
- For the Hackathon, we will have 5 full Rover kits as described on this page.
- We also plan to provide a minimalist non rover kit that consists of a Raspberry pi, and few resistors that enable to simulate the Rover kit with the Raspberry Pi 3 in the loop.
Pre-requisites
- Follow the Rover getting started tutorial available on the temporary rover website.