Newly Optimized RF24Network Layer
2014-2015 - Optimized RF24 Network Layer for NRF24L01 radios
Original: Create an alternative to ZigBee radios for Arduino communication.
New: Enhance the current functionality for maximum efficiency, reliability, and speed
Xbees are excellent little radios, backed up by a mature and robust standard protocol stack. They are also expensive.
For many Arduino uses, they seem like overkill. So I am working to improve the current standard for nRF24L01 radios. The best RF24 modules are available for less than $6 from many sources. With the RF24Network layer, I hope to cover many common communication scenarios.
Please see the Comparison to ZigBee page for a comparison against the ZigBee protocols
The layer provides:
The layer does not provide:
Additional Information & Add-ons
This network layer takes advantage of the fundamental capability of the nRF24L01(+) radio to listen actively to up to 6 other radios at once. The network is arranged in a Tree Topology, where one node is the base, and all other nodes are children either of that node, or of another. Unlike a true mesh network, multiple nodes are not connected together, so there is only one path to any given node.
Each node must be assigned an 15-bit address by the administrator. This address exactly describes the position of the node within the tree. The address is an octal number. Each digit in the address represents a position in the tree further from the base.
|00||00||Master Node (00)|
|01||04||1st level children of master (00)|
|011||021||014||2nd level children of master. Children of 1st level.|
|111||121||221||114||3rd level children of master. Children of 2nd level.|
|1221||1114||2114||3114||4th level children of master. Children of 3rd level.|
When sending a message using RF24Network::write(), you fill in the header with the logical node address. The network layer figures out the right path to find that node, and sends it through the system until it gets to the right place. This works even if the two nodes are far separated, as it will send the message down to the base node, and then back out to the final destination.
All of this work is handled by the RF24Network::update() method, so be sure to call it regularly or your network will miss packets.
When a node starts up, it only has to contact its parent to establish communication. No direct connection to the Base node is needed. This is useful in situations where relay nodes are being used to bridge the distance to the base, so leaf nodes are out of range of the base.
By default all nodes are always listening, so messages will quickly reach their destination.
You may choose to sleep any nodes on the network if using interrupts. This is useful in a case where the nodes are operating on batteries and need to sleep. This greatly decreases the power requirements for a sensor network. The leaf nodes can sleep most of the time, and wake every few minutes to send in a reading. Routing nodes can be triggered to wake up whenever a payload is received See sleepNode() in the class documentation, and RFNetwork_config.h to enable sleep mode.