NED File src/linklayer/radio/Radio.ned

Name Type Description
Radio module interface

Prototype for radio modules. Radio modules deal with the transmission of frames over a wireless medium (the radio channel).

Source code:

//
// Copyright (C) Andras Varga, Levente Meszaros
// Based on the Mobility Framework's SnrEval by Marc Loebbers
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser 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 Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with this program; if not, see <http://www.gnu.org/licenses/>.
//


package inet.linklayer.radio;

//
// Prototype for radio modules. Radio modules deal with the transmission
// of frames over a wireless medium (the radio channel).
//
// <b>Transmission</b>
//
// Upper layers (wireless L2 protocols) can send frames to the radio
// module. Frames will be encapsulated into AirFrame messages and
// distributed to other network nodes within interference distance.
// The AirFrame represents the signal in the radio channel, and
// its fields hold properties of the transmission like the transmit power.
//
// The global ChannelControl module keeps track of node positions,
// and knows which nodes are within interference distance of others
// (neighbour list). When transmitting, the radio module obtains the
// neighbour list, and sends a copy of the AirFrame to each neighbour.
//
//
// <b>Reception</b>
//
// Received AirFrame messages get delivered to the radioIn gate of the
// module. If it was found to have been received correctly, it gets
// decapsulated and the frame sent to the upper layer.
//
// Note: currently the packet is also sent up if it was NOT received
// incorrectly, with its message kind set to COLLISION or BITERROR.
// This may change in the future, as erroneous receptions could also
// be signalled via the NotificationBoard.
//
// Determining whether the frame was received correctly is a complicated
// process. The AbstractRadio C++ class from which the Ieee80211Radio
// and GenericRadio are derived, basically first calculates the received
// power of the frame, taking a path loss model into account.
// Then it calculates the signal-noise ratio, thermal noise and other
// frames being counted as noise. It is determined from the SNR
// whether the packet was received correctly, taking modulation
// scheme and possible forward error correction into account.
// For details please see the C++ code and its documentation.
//
//
// <b>Monitoring the radio state</b>
//
// Wireless L2 protocols and other modules within the node can monitor
// radio transmissions and receptions by subscribing to the
// <code>NF_RADIOSTATE_CHANGED</code> category at the NotificationBoard
// module of the node.
//
//
// <b>Dynamically configuring the radio</b>
//
// The bitrate and the receive/transmit channel can be changed by sending
// Radio a blank cMessage with <tt>PHY_C_CONFIGURERADIO</tt> as message kind, and
// a PhyControlInfo object attached to it as control info, to hold the
// new bitrate and/or channel number. If the radio is currently transmitting,
// the change will actually take place after the transmission is completed.
//
// It is also possible to specify a different bitrate for individual frames;
// to do that, attach a PhyControlInfo with bitrate filled in to the frame.
//
moduleinterface Radio
{
    parameters:
        @display("i=block/wrxtx");
    gates:
        input uppergateIn @labels(PhyControlInfo/down); // from higher layer protocol (MAC)
        output uppergateOut @labels(PhyControlInfo/up); // to higher layer protocol (MAC)
        input radioIn @labels(AirFrame); // to receive frames (AirFrame) on the radio channel
}