/gr-ieee802-15-4

IEEE 802.15.4 ZigBee Transceiver

Primary LanguageC++GNU General Public License v3.0GPL-3.0

Hi!

This is an IEEE802.15.4 O-QPSK transceiver for GNU Radio, based on Thomas Schmid's implementation.

Development

Like GNU Radio, this module uses maint branches for development. These branches are supposed to be used with the corresponding GNU Radio branches. This means: the maint-3.7 branch is compatible with GNU Radio 3.7, maint-3.8 is compatible with GNU Radio 3.8, etc.

Features

  • The O-QPSK PHY encapsulated in a hierarchical block.
  • The CSS PHY, also encapsulated in a hierarchical block (Limitation: Packets need to have a fixed length).
  • A block that implements the Rime communication stack. Rime is a lightweight communication stack designed for Wireless Sensor Networks and is part of the Contiki Operating System.
  • A transceiver flow graph with USRP <-> PHY <-> MAC <-> Network layer (Rime) <-> UDP Socket / APP which resembles pretty well the ISO/OSI structure.
  • A sample application which visualizes sensor values. The application shows how easy it is to connect an external program to the flow graph by using Socket PDU blocks.
  • An IEEE 802.15.4 and Rime dissector for Wireshark.

Some interesting properties:

  • Packets can be piped to Wireshark.
  • The complete physical modulation is done with plain GNU Radio blocks.
  • It is interoperable with TelosB sensor motes.
  • It is interoperable with Contiki.
  • It uses a block to tag packet bursts with tx_sob and tx_eob tags. This tags are understood by the UHD blocks and allow fast switching between transmission and reception.

You can find the firmware that I used to test interoperability with TelosB motes in the contiki folder. The firmware is based on Contiki v2.6. There is another README file in the Contiki folder that describes how to compile and use the firmware.

Dependencies

  • GNU Radio

  • gr-foo (Wireshark Connector, Packet Pad and Burst Tagger blocks)
    https://github.com/bastibl/gr-foo.git

  • python-matplotlib (if you want to run the GUI sample application)
    sudo apt-get install python-matplotlib

Installation

Please see www.wime-project.net for installation instructions.

Usage

Open the examples/transceiver_*.grc flow graph with gnuradio-companion and check if all blocks are connected. Enable either the UHD blocks to interface with real hardware or the Packet Pad block to loop back the samples. Open some Rime connections and connect messages sources or Socket PDUs. You can easily connect to the Socket PDU blocks with netcat. Netcat can be started for example with

nc -u localhost 52001

There are also startup scripts in the apps folder.

Have fun!