Compound Module Ieee80211NicAPSimplified

File: NetworkInterfaces/Ieee80211/Ieee80211NicAPSimplified.ned

This NIC implements an infrastructure mode 802.11 network interface card for a wireless Access Point (AP), but using a simplified mgmt module that does not support handovers.

mgmt: Ieee80211MgmtAPSimplified mac: Ieee80211Mac radio: Ieee80211Radio

Usage diagram:

The following diagram shows usage relationships between modules, networks and channels. Unresolved module (and channel) types are missing from the diagram. Click here to see the full picture.

Contains the following modules:

If a module type shows up more than once, that means it has been defined in more than one NED file.

Ieee80211Mac

Implementation of the 802.11b MAC protocol. This module is intended to be used in combination with the Ieee80211Radio module as the physical layer. (The SnrEval80211 and Decider80211 modules should also work if per-packet bitrate setting gets implemented.)

Ieee80211MgmtAPSimplified

Used in 802.11 infrastructure mode: handles management frames for an access point (AP). It relies on a connected Ieee80211Mac for actual reception and transmission of frames.

Ieee80211Radio

Physical layer for the IEEE 802.11 models. Its external interface (including gates and how it communicates with other modules) is the same as the Radio module's.

Used in compound modules:

If a module type shows up more than once, that means it has been defined in more than one NED file.

WirelessAPWithEthSimplified

Models a 802.11 Access Point with Ethernet ports, but using a simplified NIC that does not support handovers. It can be used in conjunction with WirelessHostSimplified, or any other host model containing WirelessNicSTASimplified.

WirelessAPSimplified

Models a 802.11 Access Point, but using a simplified NIC that does not support handovers. It should be used in conjunction with WirelessHostSimplified, or any other host model containing WirelessNicSTASimplified.

Gates:

Name Direction Description
uppergateIn input

to upper layers

uppergateOut output

from upper layers

radioIn input

to receive AirFrames

Unassigned submodule parameters:

Name Type Description
mgmt.frameCapacity numeric
mac.address string

MAC address as hex string (12 hex digits), or "auto". "auto" values will be replaced by a generated MAC address in init stage 0.

mac.maxQueueSize numeric const

max queue length in frames; only used if queueModule==""

mac.bitrate numeric const
mac.rtsThresholdBytes numeric const

longer messages will be sent using RTS/CTS; use 2346 for default

mac.retryLimit numeric const

maximum number of retries per message, -1 means default

mac.cwMinData numeric const

contention window for normal data frames, -1 means default

mac.cwMinBroadcast numeric const

contention window for broadcast messages, -1 means default

radio.channelNumber numeric const

channel identifier

radio.transmitterPower numeric const

power used for transmission of messages (in mW)

radio.bitrate numeric const

(in bits/s)

radio.thermalNoise numeric const

base noise level (dBm)

radio.pathLossAlpha numeric const

used by the path loss calculation

radio.snirThreshold numeric const

if signal-noise ratio is below this threshold, frame is considered noise (in dB)

radio.sensitivity numeric const

received signals with power below sensitivity are ignored

Source code:

module Ieee80211NicAPSimplified
    gates:
        in: uppergateIn; // to upper layers
        out: uppergateOut; // from upper layers
        in: radioIn; // to receive AirFrames
    submodules:
        mgmt: Ieee80211MgmtAPSimplified;
            display: "p=96,69;i=block/cogwheel;q=wlanDataQueue";
        mac: Ieee80211Mac;
            parameters:
                queueModule = "mgmt";
            display: "p=96,155;i=block/layer";
        radio: Ieee80211Radio;
            display: "p=96,240;i=block/wrxtx";
    connections:
        radioIn --> radio.radioIn;
        radio.uppergateIn <-- mac.lowergateOut;
        radio.uppergateOut --> mac.lowergateIn;

        mac.uppergateOut --> mgmt.macIn;
        mac.uppergateIn <-- mgmt.macOut;

        mgmt.uppergateOut --> uppergateOut;
        mgmt.uppergateIn <-- uppergateIn;
endmodule