NED File src/mobility/MassMobility.ned

Name Type Description
MassMobility simple module

This is a random mobility model for a mobile host with a mass. It is the one used in "Optimized Smooth Handoffs in Mobile IP" by Perkins &Wang.

Source code:

//
// Author: Emin Ilker Cetinbas (niw3_at_yahoo_d0t_com)
// Generalization: Andras Varga
// Copyright (C) 2005 Emin Ilker Cetinbas, Andras Varga
//
// 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 2
// 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/>.
//


package inet.mobility;

//
// This is a random mobility model for a mobile host with a mass. It is the
// one used in "Optimized Smooth Handoffs in Mobile IP" by Perkins &Wang.
//
// "An MH moves within the room according to the following pattern. It moves
// along a straight line for a certain period of time before it makes a turn.
// This moving period is a random number, normally distributed with average of
// 5 seconds and standard deviation of 0.1 second. When it makes a turn, the
// new direction (angle) in which it will move is a normally distributed
// random number with average equal to the previous direction and standard
// deviation of 30 degrees. Its speed is also a normally distributed random
// number, with a controlled average, ranging from 0.1 to 0.45 (unit/sec), and
// standard deviation of 0.01 (unit/sec). A new such random number is picked
// as its speed when it makes a turn. This pattern of mobility is intended to
// model node movement during which the nodes have momentum, and thus do not
// start, stop, or turn abruptly. When it hits a wall, it reflects off the
// wall at the same angle; in our simulated world, there is little other
// choice."
//
// This implementation can be parameterized a bit more, via the changeInterval,
// changeAngleBy and changeSpeedBy parameters. The parameters described above
// correspond to the following settings:
//    - changeInterval = normal(5, 0.1)
//    - changeAngleBy = normal(0, 30)
//    - speed = normal(avgSpeed, 0.01)
//
// @see ChannelControl
// @author Emin Ilker Cetinbas, Andras Varga
//
simple MassMobility like BasicMobility
{
    parameters:
        bool debug = default(false); // debug switch
        double x = default(-1); // start x coordinate (-1 = display string position, or random if it's missing)
        double y = default(-1); // start y coordinate (-1 = display string position, or random if it's missing)
        volatile double changeInterval @unit("s"); // frequency of changing speed and angle (can be random) [s]
        volatile double changeAngleBy @unit("deg"); // change angle by this much (can be random) [deg]
        volatile double speed @unit("mps") = default(2mps); // speed (can be random, updated every changeInterval) [m/s]
        double updateInterval @unit("s") = default(100ms); // time interval to update the hosts position
        @display("i=block/cogwheel_s");
}