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Before asking the question i would like to tell that i have been searching over it for over a month. I would say that i know ns2 but am surely would be able to understand anything that you would say [hopefully]

I want to implement Breadth First Search (BFS) and create BFS tree in the wireless mobile node topology in NS2. [Lets do it for static system first.]

My Challenge: multicast messages to all neighbors of a node.

Now i thought in my imagination that

  1. Nodes would be set at there positions. [doable]
  2. Each node would be able to find its neighbor. [Is it doable ?] or i would have to make "group" and do "join-group" for forming these neighbors myself.
  3. Multicast messages to neighbor. [doable using "group"] but i wanted that is there some way that a node knows what i can connect to and do it itself.

What are possible among these ?

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1 Answer 1

up vote 2 down vote accepted

Ok so after completing my project i would like to share how i did it. I am still learning but yes, i did it this way.

The scenario is Wireless.

Generating nodes is simple in NS:

set nodes(0) [$ns node]

set nodes(1) [$ns node]

where nodes is an array.

Set positions of nodes:

$nodes(0) set X_ 20.0

$nodes(0) set Y_ 100.0

You can use some kind of mathematical equations to generate a topology of nodes. i.e. their positioning. Look at ns2-directory/tcl/ex/wireless-flooding.tcl.

Generate an agent for each node and attach it with the node.

set agents(0) [new Agent/MyAgent]

$nodes(0) attach-agent $agents(0) $MESSAGE_PORT

Since all of our logical working of the protocol is done in Agents, we make a cpp class of MyAgent. Also add it in the Makefile.

class MyAgent : public Agent {

// override the recv() function.

// add the command function for this class which is called whenever this class's object is asked to do some work in tcl file.

// for storing the neighbor's address as i get from PING and PING_REPLY std::vector myNeighbors;


Then every agent broadcast PING message and reply with PING_REPLY message to the sender.

This can be done by sending address ns_addr_t with parameter addr_ = -1

 ns_addr_t naddr;
 naddr.addr_ = -1

These messages are different type of packets and are created again in cpp class like

enum Type {PING, PING_REPLY};

class HdrPing {

Type type;

// getter and setter functions and other variables like offset.


For writing our logic on receiving any message, which is exactly like how our distributed protocol is made, we override recv() of Agent

void MyAgent :: recv(Packet*p, Handle*h) {

switch(HdrPing::access(p)->type) {

    case PING:
    // send PING_REPLY back to sender and add the source of the packet p 
    // to my neighbor list. 

    // we can get it from ipHdr->saddr(), which is source address in the 
    // IP header of the packet.


    case PING_REPLY:
    // add the sender of messge to my neighbor list.

    // other types of messages are also programmed here.

} // close switch


In this way, i get to know who are my neighbors.

One can add more types of messages and more functionality.

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Ashish, I am working on a similar kind of project. but the problem I am facing is all other nodes are not receiving my notification. some of them do receive it not all of them are receiving and they all are in transmission range –  Muhammad Zaighum Jun 1 at 15:16
If some of yours are receiving, then i think that may be your transmission range is not right. you can ask a question with your code –  Ashish Negi Jun 2 at 7:03
thanks @ashish for responding I already asked a question here... my I have set my transmission here to 50 meters but heads in 50 meters are not receiving notificaiton stackoverflow.com/questions/23892557/… –  Muhammad Zaighum Jun 2 at 7:45

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