Post on 23-Dec-2015
transcript
Simulators for Sensor Networks
Sagnik Bhattacharya
9/12/2001
Overview
• What we need?
• How much effort should we put?
• Some existing network simulators.
• SensorSim.
• NS-2 primer.
• NS-2 issues and conclusion.
-The first 90% of project takes 90% of the time, the last 10% takes the other 90% of the time.
What we want?
• It should perform simulations of our algorithms. (obviously)
• It should have models for wireless transmissions and battery models.
• It should be extremely scalable.• It should be efficient for large simulations.• There should be technical support.
-A bug in the code is worth two in the documentation.
How much effort should we put in?
• Build battery and wireless models? (Preferably no)
• Implement routing?• How much learning is involved?• Change basic modules or just add our own
modules?
-A computer scientist is someone who fixes things that aren't broken.
JavaSim
• Pros – Very modular
– Easy to use
• Cons– Geared for wired internetworks
– No wireless support
-All computers wait at the same speed.
GlomoSim
• Specific for mobile wireless networks. • Built as a set of libraries. The libraries are
built in Parsec( a C-based discrete event simulation language).
• Layered architecture with easy plug-in capability.
-Any program that runs right is obsolete.
Propagationmodel
Radio
MAC Layer
Network
IP
Transport
Application
Link Layer
GloMoSim LibraryGloMoSim Library
Modular, extensible library for network modelsModel each layer using abstract or detailed modelBuilt-in statistics collection at each layer
Cons :Fixed protocol layers.
Application Processing
Free space, TIREM
EPLRS, WaveLAN, ...
IEEE 802.11, 802.3, …
OSPF, AODV, …
IP
TCP, UDP, RSVP
RTP Wrapper
Packet Store/Forward
Data Plane
-Windows is NOT a virus. Viruses DO something.
NS - 2• De facto standard for network simulations
• Discrete Event Simulator
• Packet-level
• Wired and Wireless• Size : (Current release adds around 10%)
• 100K lines of C++• 70K lines of OTcl• 30K lines of test suites• 20K lines of documentation
-A program is never finished until the programmer dies.
NS Architecture
• Object-oriented (C++, OTcl)• Scalability + Extensibility
– Control/”data” separation
– Split C++/OTcl object
• Modular approach– Fine-grained object composition
– Reusability
-You are making progress if each mistake is a new one.
C++ and OTcl Separation
• C++ for “data”– Per packet action
• OTcl for control– Periodic or triggered action
+ Compromise between composibility and speed
– Learning and debugging
-To err is human, but to really foul things up requires a computer.
OTcl and C++: The Duality
C++ OTcl
Pure C++objects
Pure OTclobjects
C++/OTcl split objects
ns
-There were computers in Biblical times. Eve had an Apple.
SensorSim
• Extension to NS - 2.• Provides battery models, radio
propagation models and sensor channel models.
• Provides a lightweight protocol stack.• Has support for hybrid simulation.• To be integrated with NS - 2.
-There can never be a computer language in which you cannot write a bad program.
SensorSim Architecture
monitor and controlhybrid network
(local or remote)
Simulation Machine
Gateway Machine
ns
modified event scheduler
VR
V
VV
GUIapp
app
R
real sensor apps onvirtual sensor nodes
gateway
socketcomm
serialcomm
HS InterfaceEthernet RS232
Proxies for realsensor nodes
GUI Interface
app
Sensor Node Model in SensorSim
Node Function Model
Network Layer
Micro Sensor Node
Applications
Power Model(Energy Consumers and Providers)
Battery Model
Radio Model
CPU Model
Sensor #1 Model
Sensor #2 Model
MAC Layer
Physical Layer
Sensor Layer
Wireless Channel Sensor Channel
NetworkProtocol Stack
SensorProtocol Stack
Middleware
Physical Layer
State Change
StatusCheck
-There are two ways to write error-free programs; only the third one works.
Power Management Model
Transmit Receive
Off
Idle
BZR event
BZR event
BZR event
receive done
transmit
transmitdone
Without Power Management
Transmit Receive
Sleep
Off
Idletransmit
timeout(3 sec)
BZR event
BZR event
transmit
transmitdone
BZR event
receivedone
receivetimeout
With Power Management
-The program is absolutely right; therefore the computer must be wrong.
SensorSim Problems
• Still at pre-release stage.• No Documentation.• The software currently has a very specific
application hard-coded.• It caters to only one base station.
-The definition of an upgrade: Take old bugs out, put new ones in.
NS-2 primer
-Reference Manual: Object that raises the monitor to eye level. Also used to compensate for that short table leg.
Hello World - Interactive Mode
<prompt> % ns
% set ns [new Simulator]
_o3
% $ns at 1 “puts \“Hello World!\””
1
% $ns at 1.5 “exit”
2
% $ns run
Hello World!
<prompt> 72%
-One person's error is another person's data.
Hello World - Batch Mode
simple.tclset ns [new Simulator]
$ns at 1 “puts \“Hello World!\””
$ns at 1.5 “exit”
$ns run
<prompt> 74% ns simple.tcl
Hello World!
<prompt> 75%
-Maintenance-free: When it breaks, it can't be fixed...
Basic tclset a 43set b 27proc test { a b } {
set c [expr $a + $b]set d [expr [expr $a - $b] * $c]for {set k 0} {$k < 10} {incr k} {
if {$k < 5} { puts “k < 5, pow = [expr pow($d, $k)]” } else { puts “k >= 5, mod = [expr $d % $k]” } }}test 43 27 -MACINTOSH stands for Most Applications Crash If Not The
Operating System Hangs.
Basic OTclClass MomMom instproc greet {} {
$self instvar age_puts “$age_ years old mom: How are you doing?”
}
Class Kid -superclass MomKid instproc greet {} {
$self instvar age_puts “$age_ years old kid: What’s up, dude?”
}
set mom [new Mom]
$mom set age_ 45
set kid [new Kid]
$kid set age_ 15
$mom greet
$kid greet
-It works! Now if only I could remember what I did...
Elements of ns-2
• Create the event scheduler
• [Turn on tracing]
• Create network
• Setup routing
• Create transport connection
• Create traffic / Schedule events
• Transmit application-level data
• Start simulation
-It is easier to write an incorrect program than understand a correct one.
Wireless simulation in NS-2
• Very different from wired simulation.• Central object called GOD(General
Operations Director) contains global state information.
• Nodes are inherently mobile.
-I finally made my stupid computer faster; I dropped it out of the window, and it went really fast.
An Example – Step 1# Define Global Variables# create simulatorset ns [new Simulator]
# define tracesset tracefd [open simple.tr w]$ns_ trace-all $tracefd
# create a topology in a 100m x 100m areaset topo [new Topography] $topo load_flatgrid 100 100
-If at first you don't succeed, call it version 1.0.
An Example – Step 2
# Create God
create-god $val(nn)
# Create channel
set chan_1_ [new $val(chan)]
-For any problem there is a solution that is simple, quick, and ultimately worse than the problem.
An Example – Step 3$ns_ node-config -adhocRouting $val(rp) \
-llType $val(ll) \ -macType $val(mac) \ -ifqType $val(ifq) \ -ifqLen $val(ifqlen) \ -antType $val(ant) \ -propType $val(prop) \ -phyType $val(netif) \ -channel $chan_1_ \ -topoInstance $topo \ -agentTrace ON \ -routerTrace ON \ -macTrace OFF \ -movementTrace OFF \
-energyModel "EnergyModel" \ -initialEnergy $val(initialenergy) \ -rxPower $val(receivepower) \ -txPower $val(transmitpower) \ -idlePower $val(idlepower)
-Excuse me for butting in, but I'm interrupt-driven.
An Example – Step 4
# Generating nodesfor {set i 0} {$i < $val(nn) } {incr i} { set node_($i) [$ns_ node] }
# Provide initial (X,Y, for now Z=0) co-ordinates for mobilenodes
$node_(0) set X_ 94.85$node_(0) set Y_ 12.75$node_(0) set Z_ 0.0$node_(1) set X_ 60.79::
-Computers can figure out all kinds of problems, except the things in the world that just don't add up.
An Example – Step 5
#Create two ping agents and attach them to the nodes n0 and n2
set p0 [new Agent/Ping]$ns attach-agent $n0 $p0 set p1 [new Agent/Ping]$ns attach-agent $n2 $p1 #Connect the two agents$ns connect $p0 $p1
-Computer Science is no more about computers than astronomy is about telescopes.
E. W. Dijkstra
An Example – Step 6
#Schedule events
$ns_ at 100.0 "puts \"hell-O\" "
$ns_ at 10.2 "$p0 send"
$ns_ at 10.4 "$p1 send"
:
:
#Run the Simulation
puts "Starting Simulation..."
$ns_ run
-Build a system that even a fool can use, and only a fool will use it.
Ping Protocol
• Check out the handout.• To add a new protocol :
– Define packet header (PT_PING)
– Define new agent class as a subclass of Agent in header file (ping.h)
– Implement at least the following functions:• int command ( int argc, const char*const* argc)• void recv ( Packet * pkt, Handler* h)
-To err is human, but to really foul things up requires a computer.
NS - 2 (contd.)
• Cons :– Comparatively difficult to learn and use.
– Supposedly more useful for getting statistics for lower level protocols.
– Originally built for wired networks, later extended for wireless.
– Supposedly, does not work well for large topologies.
-To err is human--and to blame it on a computer is even more so.
NS-2 problems and workarounds
• Large memory footprint 100 nodes 23MB 1000 nodes 412 MB
• Solutions :– Turn off tracing
-routerTrace OFF \-macTrace OFF \
– Remove packet headersremove-all-packet-headersadd-packet-header DSDV Agent/Ping Mac/802_11
-Bug? That's not a bug, that's a feature.
Scalability of NS-2
• Maximum number of nodes depends upon the traffic.
• Should be able to up to 500 nodes with reasonable(?) traffic.
• Running time?
-Every time I type 'win', I loose ...
To use NS…..
• Don’t worry about Otcl. Its easy..
• Forget about Nam traces.
• Join the ns-user mailing list.
• Get started as soon as possible…. learning to use and modify it can take time.
• Just adding new protocols might not do. Some internal changes might need to be made.
-A user friendly computer first requires a friendly user.
Conclusion
• Use SensorSim if you can.• NS-2 can be used for simulation of the
order of hundreds of nodes…. Not possible with motes.
• Can build more advanced protocols, for future motes which might have more memory.
-ASCII stupid question, get a stupid ANSI!
URL’s
• This presentation:http://www.cs.virginia.edu/~sb2jb/research/ns
• NS-2 home:http://www.isi.edu/nsnam/ns
-Every bug you find is the last one.
Questions?
-Computer Science: solving today's problems tomorrow.