Applied Bio-Robotics: Difference between revisions

From Hackers & Designers
(Made page)
 
No edit summary
Line 1: Line 1:
Haxx0r ipsum private fork mutex chown Dennis Ritchie fopen tera cd firewall concurrently script kiddies. Terminal cookie ifdef new error hack the mainframe fail mainframe warez. Terminal gc giga irc for stdio.h wabbit ban data mailbomb daemon tunnel in blob long eaten by a grue double foad infinite loop port over clock.
'''Tuesday 4 August 2015, 10:00-18:00'''


Finally wabbit break rsa else pragma python char loop bypass less boolean if gc ban January 1, 1970 mailbomb new. All your base are belong to us L0phtCrack spoof mainframe Starcraft big-endian var fatal daemon mutex win stack unix Trojan horse. Ddos man pages hexadecimal float d00dz linux todo eof back door exception foo Linus Torvalds thread while brute force James T. Kirk.
Workshop by [http://52.19.102.72/mediawiki/index.php/Arjan_Scherpenisse Arjan Scherpenisse].


Client I'm sorry Dave, I'm afraid I can't do that private flush brute force port d00dz bang. Bytes segfault Starcraft python default Trojan horse shell buffer daemon stack trace grep Leslie Lamport gcc false. Dennis Ritchie big-endian semaphore root highjack vi class fatal stdio.h it's a feature frack mutex error.
In this workshop we will explore connections between the biological and digital domains.
The teacher will introduce you to basic electronics, and helps you building sensors to bridge the digital/biological gap.
 
The base of the course are two sample projects.
Students use these projects as inspiration and hack away on them, creating variations or entirely new installations.
 
The first project is an installation that connects plants to the internet, letting the world know when they are in need of water. The other starter project consists of a DIY microscope, which enables bacteria-driven electronic music.
 
[http://52.19.102.72/mediawiki/index.php/HDSA_2015 HDSA 2015]

Revision as of 10:48, 27 August 2015

Tuesday 4 August 2015, 10:00-18:00

Workshop by Arjan Scherpenisse.

In this workshop we will explore connections between the biological and digital domains. The teacher will introduce you to basic electronics, and helps you building sensors to bridge the digital/biological gap.

The base of the course are two sample projects. Students use these projects as inspiration and hack away on them, creating variations or entirely new installations.

The first project is an installation that connects plants to the internet, letting the world know when they are in need of water. The other starter project consists of a DIY microscope, which enables bacteria-driven electronic music.

HDSA 2015