[doc] transposed some of the documentation in the README
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README.md
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README.md
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# ANAWS Project
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# NetPP exhibition control wireless sensor network
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Project for Advanced Networks and Wireless Systems exam (Networking++ for friends)
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NetPP is a simulation of a wireless sensor network which makes use of the IEEE stack recommended for IoT, from bottom to top: wireless IEEE 802.15.4, 6LowPAN, IPv6 with RPL routing, UDP and CoAP. It runs on Z1 motes.
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This project was developed for the Advanced Networks and Wireless Systems exam (Networking++ for friends)
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## Scenario
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NetPP is a company which organizes public events and exhibitions, which installs a sensor (_oracle_) for each stand in order to keep track of people's flow.
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* Formal requirements:
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* network must be fully operational in less than 70 minutes, which is an estimation of the time needed to mount all the stands for small daily exhibition
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* nodes run on battery and must use as less energy as possible, in order to make it possible to reuse them for multiple events
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* Other requirements:
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* RPL must use objective function 0, ie find the nearest grounded root
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* Sensor messages must be RFC8428 (SenML) compliant
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* a CoAP proxy must be developed in Java using the Eclipse Californium CoAP library (_proxy_)
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## Trickle parameters
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## Repository organization
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* ```client```: source code for a CoAP client
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* ```cooja```: sample simulations for Cooja
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* ```oracle```: source code for the sensor node
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* ```proxy```: source code for the CoAP proxy
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* ```simulation```: scripts for running simulations and plot performance graphs
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## Run
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1. choose a Cooja simulation file from ```cooja``` directory
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- start the serial socket server on node 1 (border router)
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- start the simulation
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2. attach a _rpl-border-router_ to Cooja
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- you can use the one from ```examples/ipv6/rpl-border-router``` in your Contiki repository
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- if you want to reproduce the simulation results, use the modified version (which outputs the number of discovered routes)
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- connect
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```$ make connect-router-cooja PREFIX="2001:db8:cafe:babe::1/64"```
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### Proxy
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1. ```$ mvn package```
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2. ```$ java -jar target/proxy-2019.11.0-jar-with-dependencies.jar <prefix> <n>```
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where
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- ```<prefix>``` is your network prefix (specify **all** 64 bits)
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- ```<n>``` is the number of nodes in the network
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Example:
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```$ java -jar proxy/target/proxy-2019.11.0-jar-with-dependencies.jar 2001:db8:cafe:babe 30```
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Resources on the server are named after the node IPv6 address, eg: ```urn:it.unipi.ing.ce.netpp:c00000001```.
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You can use a CoAP browser to list all resources on the server, for example:
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* https://github.com/federicorossifr/node-coap-browser
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* http://coap.me
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### Client
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1. ```$ mvn package```
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2. ```java -jar target/client-2019.11.0-jar-with-dependencies.jar <url>```
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where
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```<url>``` is a CoAP URL
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Example:
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```$ java -jar target/client-2019.11.0-jar-with-dependencies.jar coap://[2001:db8:cafe:babe::1]/urn:it.unipi.ing.ce.netpp:c00000001```
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### Simulation
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Use a simulation with a pseudo random number generator enabled, eg. ```simulation-prng.csc```.
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