This module servces as a base module for narrowband radio models.
The following diagram shows usage relationships between types. Unresolved types are missing from the diagram.
The following diagram shows inheritance relationships for this type. Unresolved types are missing from the diagram.
Name | Type | Description |
---|---|---|
Radio | compound module |
The radio model describes the physical device that is capable of transmitting and receiving signals on the medium. It contains an antenna model, a transmitter model, a receiver model, and an energy consumer model. |
Name | Type | Description |
---|---|---|
FlatRadioBase | compound module |
This module servces as a base module for flat radio models. |
Name | Type | Default value | Description |
---|---|---|---|
antennaType | string |
NED type of the antenna model |
|
transmitterType | string |
NED type of the transmitter model |
|
receiverType | string |
NED type of the receiver model |
|
energyConsumerType | string | "" |
NED type of the energy consumer model |
radioMediumModule | string | "radioMedium" |
module path of the medium module where this radio communicates |
energySourceModule | string | "" |
module path of the energy source module which provides energy to the radio |
switchingTimes | string | "ms 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0" |
time parameters to switch between radio modes |
separateTransmissionParts | bool | false |
when enabled the transmission of preamble, header and data part are simulated separately |
separateReceptionParts | bool | false |
when enabled the reception of preamble, header and data part are simulated separately |
displayCommunicationRange | bool | false |
if true communication range is displayed as a blue circle around the node |
displayInterferenceRange | bool | false |
if true interference range is displayed as a gray circle around the node |
carrierFrequency | double |
center frequency of the band where the radio transmits and receives signals on the medium |
|
bandwidth | double |
bandwidth of the band where the radio transmits and receives signals on the medium |
Name | Value | Description |
---|---|---|
class | Radio | |
display | i=block/wrxtx |
Name | Direction | Size | Description |
---|---|---|---|
upperLayerIn | input | ||
upperLayerOut | output | ||
radioIn | input |
Name | Type | Unit |
---|---|---|
receptionStateChanged | long | |
bitErrorRate | ||
radioModeChanged | long | |
transmittedSignalPartChanged | long | |
packetReceivedFromUpper | cPacket | |
receivedSignalPartChanged | long | |
packetErrorRate | ||
symbolErrorRate | ||
packetSentToUpper | cPacket | |
transmissionStateChanged | long | |
listeningChanged | ||
minSNIR |
Name | Title | Source | Record | Unit | Interpolation Mode |
---|---|---|---|---|---|
receptionState | Radio reception state | receptionStateChanged | count, vector | sample-hold | |
bitErrorRate | Bit error rate | bitErrorRate | histogram | ||
radioMode | Radio mode | radioModeChanged | count, vector | sample-hold | |
packetErrorRate | Packet error rate | packetErrorRate | histogram | ||
symbolErrorRate | Symbol error rate | symbolErrorRate | histogram | ||
transmissionState | Radio transmission state | transmissionStateChanged | count, vector | sample-hold | |
minSNIR | Min SNIR | minSNIR | histogram |
// // This module servces as a base module for narrowband radio models. // module NarrowbandRadioBase extends Radio { parameters: double carrierFrequency @unit(Hz); // center frequency of the band where the radio transmits and receives signals on the medium double bandwidth @unit(Hz); // bandwidth of the band where the radio transmits and receives signals on the medium *.carrierFrequency = carrierFrequency; // passed down to transmitter and receiver by default *.bandwidth = bandwidth; // passed down to transmitter and receiver by default }