Importateur distributeur de composants et modules électroniques Coordonnées OLED tactile 2,83" Boussole électronique 3 axes Module UART WIFI MagIC contrôleur de capteurs Magnétiques à taux de rafraîchissement élevé Capteurs Accélération, Gaz, Angle, Ultrason, Humidité, Courant, Niveau, Débit, Inclinomètre... Communication RFID circuit intégré avec capteur de température, CI USB convertisseurs RS232... Navigation Antennes GPS, Antennes Multi- bandes, Boussoles électroniques, Capteurs de champs magnétique terrestre...
http://diltronic.com/capteurs.htm
inkerKit: a physical computing toolkit for designers TinkerKit is an Arduino-compatible physical computing prototyping toolkit aimed at design professionals. The interest in physical computing as an area in development within the creative industries has been increasing rapidly. In response to this Tinker.it! is developing the TinkerKit to introduce fast iterative physical computing methodologies to newcomers, and particularly design professionals. This project is currently under development by Tinker.it! We will mostly be documenting the early stages of prototyping and user research here. This is not yet commercially available.
http://www.tinkerkit.com
Gas Sensors Tonight Christian and I played with our Figaro gas sensors and got good results with the 2602 (see Figaro datasheet). The 2602 senses the air contaminants emitted by cigarette smoke as well as odorous gases such as ammonia, hydrogen sulfide, and toluene. The sensor is actually fairly easy to wire - it just needs a variable resistor, connections to power and ground, and a connection to the arduino analog input. We used a potentiometer as our variable resistor, at the suggestion of the ITP sensor workshop page on gas sensors
http://www.rosiedaniel.com/2007/04/gas-sensors.html
SensorML From Wikipedia, the free encyclopedia Jump to: navigation, search SensorML is an approved Open Geospatial Consortium standard. SensorML provides standard models and an XML encoding for describing sensors and measurement processes. By design, SensorML can be used to describe a wide range of sensors, including both dynamic and stationary platforms and both in-situ and remote sensors.
http://en.wikipedia.org/wiki/SensorML
Extended Environments Markup Language (EEML) This site provides information about Extended Environments Markup Language (EEML), a protocol for sharing sensor data between remote responsive environments, both physical and virtual. It can be used to facilitate direct connections between any two environments; it can also be used to facilitate many-to-many connections as implemented by the web service Pachube, which enables people to tag and share real time sensor data from objects, devices and spaces around the world.
http://www.eeml.org
Arduino, GPS, un kit
http://la-fabrique.du-libre.info/spip.php?article129
soft pour gérer capteurs, actionneurs, DMX en amont de Pd, Max
http://newecologyofthings.wik.is/Tools_For_Designers
sensors, arduino, brancher des capteurs sur arduino
http://scrying.org/doku.php?id=workshop:pdplug
