- https://github.com/diadzine
- https://twitter.com/diadzine
- Contact: nemen_AT_fixme_DOT_ch
- Fixme member since oct. 2011
- Fixme comitee from dec. 2012 to apr. 2015
- Fixme president from dec. 2013 to apr. 2015
My projects
In progress
- ChocoPrinter (for Leman Make)
- Trigger status box
- Coin sorter for Fixme
- Ultimaker from scratch
On hold
- PCB_Etching
- UV-Box
- Light_Painting_LED_Glove
- Press_kit
- RGB Led strip shelf
- RPi TL Bus display
Done / Participation
- Formation Photo #1
- ElectroJam3
- ElectroJam2
- ElectroJam1
- RFID_Doorlock
- Hackerspaces_ch
- T-shirt_FIXME
- LCD_connector
- Apéro_voisins2
- AlternativesUrbaines2013
- Apéro_voisins
- RMLL_2012
- Arduino Robot
To Do
- Formation Photo #2
- Hackerspaces_tour
Ideas
- Vacuum_pen
- 24x6 LED Matrix with Arduino (source: http://www.instructables.com/id/Make-a-24X6-LED-matrix/)
Euthanized :D
Autonomous robot
The goal is to make an autonomous robot, based on a snow plow R/C model, randomly moving in a space (rooms, corridors, ...) while avoiding obstacles with its sensors.
Links
http://luckylarry.co.uk/arduino-projects/obstacle-avoidance-robot-build-your-own-larrybot/
http://www.irit.fr/~Nicolas.Lassabe/robot.php
Hardware
- Snow Plow R/C model
- Arduino Duemilanove
- IR sensor: Sharp IR GP2Y0A02YK
- Ultrasonic sensor: SRF05
- Servo motor
Detailed description
Mobility: provided by snow plow original tracks and motors.
IR sensor: mounted on the servor motor and used to scan an angle of 120° in front of the robot. Used as a kind of long distance proximity sensor to detect obstacles in advance and let th AI take the right decision.
Ultrasonic sensor: used to detect only front obstacles. Used for emmergency stop in case the IR sensor miss something.
Servo motor: used to sweep an angle of 120° (60° left ans 60° right) in front of the robot.
Goals
In a first time, move avoiding obstacles.
In a second time, anticipate obstacles to move more lightly avoiding zig-zag between walls/obstacles.