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java foo.class doesn't always work on Linux anymore, just assume that
users (correctly) have . in their CLASSPATH
If you see LED's waggling on both motes, the test passed.
If you see LED's waggling on both motes, the test passed.
-To compile for motes with CC2420 radios, you must do:
- env CFLAGS="-DLOW_POWER_LISTENING" make <platform>
-
-
-
RadioCountToLeds maintains a 4Hz counter, broadcasting its value in
an AM packet every time it gets updated. A RadioCountToLeds node that
RadioCountToLeds maintains a 4Hz counter, broadcasting its value in
an AM packet every time it gets updated. A RadioCountToLeds node that
-To compile for motes with CC2420 radios, you must do:
- env CFLAGS="-DLOW_POWER_LISTENING" make <platform>
-
Install the application to two nodes with the following ID's:
Node 0 (Receiver node): id = 0
Node 1 (Transmitter node): id = 1 (or.. id > 0)
Install the application to two nodes with the following ID's:
Node 0 (Receiver node): id = 0
Node 1 (Transmitter node): id = 1 (or.. id > 0)
-$Id$
\ No newline at end of file
+Author/Contact: tinyos-help@millennium.berkeley.edu
+
+Description:
+
This is more of a general demonstration than a test.
Install this application to one node, connected to the computer.
This is more of a general demonstration than a test.
Install this application to one node, connected to the computer.
graph, it's scaled by some (possibly non-linear) factor.
graph, it's scaled by some (possibly non-linear) factor.
-Java Application Usage:
- Linux: java SpecAnalyzer.class [-comm <packetsource>]
- Windows: java SpecAnalyzer [-comm <packetsource>]
+Tools:
+ java SpecAnalyzer [-comm <packetsource>]
- If not specified, the <packetsource> defaults to sf@localhost:9001 or
+ If not specified, the <packetsource> defaults to sf@localhost:9002 or
to your MOTECOM environment variable (if defined).
to your MOTECOM environment variable (if defined).
+
+Known bugs/limitations:
+
+None.
+
+$Id$
+Author/Contact: tinyos-help@millennium.berkeley.edu
+
+Description:
+
Compile and install this application to two motes, both using ID 1
Expectations:
Compile and install this application to two motes, both using ID 1
Expectations:
Led1 Toggles on a received ack
Led2 Toggles when a message is received
Led1 Toggles on a received ack
Led2 Toggles when a message is received
-In short, Led1 should be toggling the majority of the time, until the other receiver
+In short, Leds 1&2 should be toggling the majority of the time, until the other receiver
stops receiving packets by turning off or moving out of range.
stops receiving packets by turning off or moving out of range.
+Tools:
+
+None.
+
+Known bugs/limitations:
+
+None.
+
+$Id$
+Author/Contact: tinyos-help@millennium.berkeley.edu
+
+Description:
+
Test the effectiveness of the PacketLink layer
INSTALL
Test the effectiveness of the PacketLink layer
INSTALL
- Transmitter == 1, 2, 3, 4, or 5 (up to MAX_TRANSMITTERS)
- Receiver == 0, plugged into the computer
+ Transmitter: id == 1, 2, 3, 4, or 5 (up to MAX_TRANSMITTERS)
+ Receiver: id == 0, plugged into the computer
EXPECTATIONS
Transmitter (ID not 0) -
EXPECTATIONS
Transmitter (ID not 0) -
-Java Application Usage:
- Linux: java TestPacketLink.class [-comm <packetsource>]
- Windows: java TestPacketLink [-comm <packetsource>]
+Tools:
+
+ java TestPacketLink [-comm <packetsource>]
If not specified, the <packetsource> defaults to sf@localhost:9001 or
to your MOTECOM environment variable (if defined).
This application will report dropped and duplicate packets as seen on
the receiver.
If not specified, the <packetsource> defaults to sf@localhost:9001 or
to your MOTECOM environment variable (if defined).
This application will report dropped and duplicate packets as seen on
the receiver.
+
+Known bugs/limitations:
+
+None.
+
+$Id$
+Author/Contact: tinyos-help@millennium.berkeley.edu
+
+Description:
+
This application is used more for characterization rather than a test.
It measures the maximum radio throughput using the largest message payload
size, and does not use low power listening.
This application is used more for characterization rather than a test.
It measures the maximum radio throughput using the largest message payload
size, and does not use low power listening.
Compile and install this application to one mote. Leave the mote connected
to the computer.
Compile and install this application to one mote. Leave the mote connected
to the computer.
Led1 will toggle as each message is transmitted. Once a second, the mote
Led1 will toggle as each message is transmitted. Once a second, the mote
-will send a packet through the serial port to the computer. Run the
-TxThroughput java application:
+will send a packet through the serial port to the computer.
+Tools:
+
+Run the TxThroughput java application:
Linux: java TxThroughput.class [-comm <packetsource>]
Windows: java TxThroughput [-comm <packetsource>]
Linux: java TxThroughput.class [-comm <packetsource>]
Windows: java TxThroughput [-comm <packetsource>]
[Packets/s]: 115; [(Payload Bytes)/s]: 3220
[Packets/s]: 124; [(Payload Bytes)/s]: 3472
[Packets/s]: 115; [(Payload Bytes)/s]: 3220
[Packets/s]: 124; [(Payload Bytes)/s]: 3472
+Known bugs/limitations:
+
+None.
+
+$Id$