Pollux'NZ City Project
The pollux'NZ City project aims at creating a network of autonomous wireless network of sensors that uploads the measures on any data silos on Internet.
This repository contains the source code of the first prototype of the project, that has been deployed in south of France, with the participation of INRIA Sofia Antipolis, for a first test run.
The projects is made of two modules:
- the 'autonomous measuring module', that is made of
- an arduino with a zigbee radio module ;
- a battery pack that powers the system ;
- a solar panel that charges the battery ;
- an i2c network of sensors.
- the 'gateway module', that is made of
- a beaglebone with a zigbee radio module
How it works ?
First, after pluging it in, the user configures the gateway module for his sensor network and the interval time between two measures. Then he places the autonomous sensor module to the best sunlight exposure so the autonomous measuring module can keep the battery filled up.
The gateway will wait for the given interval time, and waken up the measuring module. It will then order the measuring module to run the fan, so a free air sample is taken into the box and run in sequence each sensor to get the measured value. Once all the sensors have been interrogated, it will tell the measuring module to shut itself down. Finally, all the measures are given to the enabled plugins that will push the data to every configured data silo.
Structure of the project
PolluxNZCity |-- PolluxConfig ............. Contains the configuration plugin (in python) | |-- debian ............... Helper files for package generation | |-- pollux ............... Python module |-- PolluxGateway ............ Main program that interfaces with the measuring modules | |-- conf ................. Configuration files that are to be deployed in /etc | |-- extensions ........... Python plugins for uploading data to data silos | |-- include .............. Headers | |-- src .................. Sources | `-- tests ................ Tools that helps testing |-- PolluxWakeupduino ........ Main firmware code for the arduino in the measuring module |-- PolluxSensorBoard ........ Firmware code for the fan, temperature and noise board |-- PolluxSensorDust ......... Firmware code for the dust board |-- PolluxSensorSensoric ..... Firmware code for the electrochemical sensoric sensors board |-- PolluxSensorTemp ......... Firmware code for the external temperature sensor board `-- PolluxContribIpks ........ Helper scripts to build binary packages (for angstrom)
- inria_branch: contains the source code deployed for the INRIA test run
- i2c_refactoring: non-tested base for a full refactoring of the i2c network
In PolluxContribIpks, the package.sh script will run a build and generate the packages – PolluxConfig and PolluxGateway – that are embedded on the beaglebone. That generator is now deprecated, the recipes for generating those packages working and being accessible for the angstrom build system.
Description of the main modules
PolluxConfig: this module is a web application based on the
bottle.pymodule that exposes RESTful pathes to the web interface that exposes them using
bootstrap.js. The most important parts are in the
pollux_configmodule that contains all the exposed routes.
- PolluxGateway: this module is the main program that parses the configuration, runs the radio, interrogates every sensor on the distant modules and sends the results through every datastore module.
- PolluxWakeUpduino: this firmware is the code executed by the embedded arduino that is only a gateway between XBee and the i2c network.
The PolluxGateway module has documentation embedded you can generate using
or by running
make doc in the directory.
Build and Install
% cd PolluxConfig % python bootstrap.py % bin/buildout % bin/pollux_config_paster
first you will need to install the arm-gcc for crosscompilation, or run it directly on a beaglebone, using native gcc.
% make % make doc % pollux\_gateway -h
for a more verbose version of the software, you can run
make verbose, that will
- The I2C model has been mis-designed.
We have implemented the i2c stack of the whole project following the way the i2c model has been implemented in the Arduino and ATTiny wire library suggested ; so we followed a function calling alike protocol.
But we rapidely found out that this kind of implementation is flawed for our use of
i2c, as it is not flexible enough and not compatible with most of the i2c modules of
the market. So there's a unfinished implementation of the new i2c handling in the
i2c_refactoring branch. That has been not tested at all, and not all the sensors'
firmware has been switched to it.
- The PolluxGateway modules deserves better verbosity
First, instead of compiling two different targets, it should have the common
switch that makes the executable output more messages. But the verbosity shall also
have levels, so the output is not flooded by the messages.
- The PolluxGateway module shall not configure the MUX values for the xbee cape
We have implemented our first versions of the XBee Cape without the helper EEPROM that helps the cape autoconfigure the MUX values of the beaglebone. With the new version of the cape, all the code that configures the MUX settings shall be dropped. This will finally makes the module work only in userland, and not need to start as root and drop its privileges once the MUX settings are set.
- The PolluxGateway module and PolluxWakeUpduino firmware shall configure all the zigbee settings
We rely on the manual setting of the XBee modules, to match them up and to configure their pin ports. That operation is cumbersome, does not work all the time, and needs to use the X-CTU application under windows.
- finish the refactoring of the i2c stacks
- add more verbosity to the PolluxGateway module
- remove the MUX configuration at PolluxGateway start
- add configuration of the XBee radios in the PolluxGateway module and PolluxWakeUpduino firmware.
(c)2011-2013 Lucas Fernandez and Bernard Pratz, CKAB, hackable:Devices
All our original work is licensed under the GNU GPL version 3 and all our schematics are under the Creative Commons v3.0 Attribution Share-Alike.
Here are the Libraries we use in our projects, and their respective copyrights notice
- Statistics by Rob Tillaart and Gil Ross, in the Public Domain
- usiTwiSlave, by Donald R. Blake, Jochen Toppe and Ben Galvin under GPL v2
- circular buffer based on Akash Nath, in the Public Domain
- Arduino, by the Arduino team, under the GPL v2
For the python web interface:
- bottle.py under the MIT License
- bootstrap.js under the Apache License v2.0.
- deansi library by David Garcia Garzon, under the AGPLv3
All components symbols in the schematics are from Eagle's libraries, under Creative Commons v3.0 Share-Alike.
This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with this program. If not, see http://www.gnu.org/licenses/.