PERFORMANCE ANALYSIS AND COMPARISON OF IMPROVED DSR WITH DSR, AODV AND DSDV ROUTING PROTOCOL IN MOBILITY AND NONMOBILITY SCENARIOS

International Journal of Peer to Peer Networks (IJP2P) Vol.7, No.1/2/3/4, November 2016
DOI : 10.5121/ijp2p.2016.7401 1
PERFORMANCE ANALYSIS AND COMPARISON OF
IMPROVED DSR WITH DSR, AODV AND DSDV
ROUTING PROTOCOL IN MOBILITY AND NON-
MOBILITY SCENARIOS
Paresh Acharekar, Dr. Saurabh Mehta and Prof.Shraddha panbude
Department of Electronics and Telecommunication, Vidyalankar institute of Technology,
Mumbai India.
ABSTRACT
Mobile Ad-hoc networks are categorized by multi-hop wireless connectivity and numbers of nodes are
connecting each other through wireless network. It includes several routing protocols specifically designed
for ad-hoc routing. The most widely used ad hoc routing protocols are Ad-hoc On Demand Distance Vector
(AODV), Destination Sequence Distance Vector (DSDV), and Dynamic Source Routing (DSR). In this
paper, we present an analysis of DSR protocol and propose our algorithm to improve the performance of
DSR protocol by using small delay applied on last route ACK path when an original route fails in Mobile
Ad Hoc networks. Past researchers the MANET have focused on simulation study by varying network
parameters, such as network size, number of nodes. The simulation results shows that the M-DSR protocol
having some excellent performance Metrics then other protocols. We have taken different performance
parameters over the comparison of Modified -DSR with other three protocols in mobility as well as Non-
mobility scenario up to 300 nodes in MANETs using NS2 simulator. To achieve this goal DSR is modified
by using modified algorithm technique in order to load balancing, to avoid congestion and lower packet
delivery.
1. Our area of interest for the paper is the improvement of performance of DSR routing protocol by
changing in algorithm and this Improved DSR protocol should compare with remaining protocols
taken in this research paper.
2. In this paper we made changesin traditional DSR protocol and generation of new improved DSR the
different performance parameters and compare with AODV/DSR/DSDV protocols in mobility and
nonmobility scenarios nodes up to 300.
3. We can plot the graphs throughput, End to end Delay, Packet delivery Ratio, Dropping Ratio, and
average energy consumption on Mobility and Non-Mobility scenario by using Network Simulator
version 2.34 for Modified DSR protocols. M-DSR, DSDV perform well when Mobility is low.
KEYWORDS
Ad Hoc Networks, Mobility Models, AODV, DSDV, EX-DSR and NS2.34
1. INTRODUCTION
A name of MANET which is a group of nodes and collection of nodes communicate with each
other wireless fashion. In MANETs, because the nodes move arbitrarily these results in route
changes with a good chance of packet dropping sometimes fault detection is difficult. Several
previous studies indicate that some of the route formation and discovery techniques we can
proportionate and optimized the traditional protocols which has actually hurt the performance in
many situations and make Improved DSR. [3].

2
Fig1.1 Mobile Ad-hoc Network [25]
We propose three simple and intuitive changes to the routing protocol: (a) limitation of RREQ to
destination with the number of route requests from sources, (b) sorting the fresh routes with
RREP (c) limiting the number of routes 0kept per destination to one. Illustrate the relative
significance changes the algorithm for DSR protocol. In this paper, we present a modified DSR
protocol for reverse request ACK received to source and delay has applied for 2nd
last node which
is transfer data packets and dropping of routes hence decreases end to end delay, increase the data
packet delivery ratio [12].
ROUTING PROTOCOLS OF MANET
Routing protocols for wired infrastructure neither need to handle mobility of nodes within the
system nor have these protocols to be designed with reference of protocols. Most importantly, the
routing protocols both wireline or wireless infrastructure are assumed to execute on trusted
entities, namely the routers. But these characteristics change completely when Mobile Ad-Hoc
Networks (MANETs) are considered as there are no special routers in MANETs. Hence, each
node must perform routing functions in order to forward a packet to the destination. Therefore,
routing protocols need to be specifically designed for MANETs [14].
CLASSIFICATION OF MANETS ROUTING PROTOCOL
Based on the instance at which the routes are set up, routing protocols for MANETs can mainly
be classified into the three categories [19] illustrated in Figure 2.
• TABLE-DRIVEN (OR PROACTIVE) ROUTING PROTOCOLS
i. DESTINATION SEQUENCED DISTANCE VECTOR (DSDV)
This algorithm uses routing table like Distance vector every routing table tagged with the
sequence number, generated by destination. Each mobile station advertises its own routing table
to its current neighbors [13]. DSDV is one of the early algorithms available and the main
advantage of every entry should mark in sequence number and every node maintains a list of all
destinations.
• REACTIVE ROUTING (ON-DEMAND) PROTOCOL
ii. AD HOC ON DEMAND DISTANCE VECTOR (AODV)
In this Route Request (RREQ) and Route Reply (RREP) in route discovery process. When the
packet transverse source to destination then destination node received the RREQ request and to

3
set reverse path. When the RREQ reaches a mobile node, which knows a route to the destination
or the destination itself, the mobile node responds to the RREP request sent from destination node
to intermediate nodes.The Route Reply travels along the reverse path setup when Route Request
is forwarded [7].
iii. DYNAMIC SOURCE ROUTING (DSR):
In DSR, the RREQ packet contains all the information of destination route which is route request
packet as it is propagated through the network. When RREQ request received in destination. This
means that the source may receive several RREP messages.DSR should select optimize path
which maintenance process to speed up the route. The main difference between DSR and
AODV:in DSR it is stored in the source while in AODV. In discovery phase of both is based on
flooding &regardless of their potential in actually set up the network load [10]
2. PROJECT PROCESS STRUCTURE
Please find the above flow chart of my M.E research project process diagram which is showing of
performance of routing protocols.We have taken some stuff which is helping much to enhance
work, taken into account choosing the data should be done carefully in order to obtain correct
information. This data will be analyzed and criticized as well. The below flow chart fig 2.2 is
process structure of research paper and will carry out the main steps for this project to achieve the
objectives to understand the project. In this work we have developed improved DSR and
comparatively study with rest of three protocols which have taken using NS2 simulator under
Linux OS.
FLOW CHART
Fig:2.2 Process structure of Flow chart

4
3. RELATED WORK
Please follow the below table for the performance of Routing Protocols and previous researcher
work. I have added extension of this work with my research and implementation of this ides in
my research paper.
Sr
No
References Parameter
Previous Work
analysis
Implementation of project
1
Samayveer et al
[13], Ashish et al
.[10]
Work
AODV and DSR used
in On demand route
discovery
phenomenon’s did use
for source routing and
route cache.
working on route discovery
and route maintenance in
Improved DSR
2
Parul s et
al.(18),Sandeep
Gautam et al. [1],
Protocols
used
Comparison of
DSR,DSDV,AODV
with performance
metrics
We have improved the delay
and dropping ration in Ext-
DSR
3
M. Q. Rafiq et al.
(10) and Dipankar
S et al. (22)
Performance
criteria
As per simulation
work, AODV protocol
shows better
performance as
compared with others
in higher number of
nodes (up to 200)
As per simulation work DSR
perform low as high number
of nodes so we will improve
the performance of modified
DSR (similar to AODV)
with largest no of nodes (up
to 300 )using Routing
Algorithm for Ex-DSR
4
Preeti G et al. [19]
Packet
delivery
Ratio
As per graphs the DSR
PDR performance
decline drastically (up
to 100 nodes) when the
increased no of node
We will improve PDF
performance of modified
DSR when increasing no of
nodes ( after 100) using the
modified algorithm
Liliana E et al.[4]
5 Gulati et al. [17] Nodes
In this paper author
worked on nodes in
one scenario and An
detailed simulation of
DSDV, AODV, DSR
with 200 mobile nodes
AODV show good
performance in a network
with low mobility whereas
AODV We have used up to
300 nodes so that an
Improved DSR improve the
throughput and packet
dropped parameters
6
Sabina Barakoviet
al. [5]
Performance
criteria
We carried out the
simulation analysis of
AODV and DSR.
Their simulation has a
model of 50 and 100 at
varying number of
nodes.
The throughput and
the average end-to end
delay are used as the
evaluation metrics for
the simulations.
Their main finding is that
source routing is much more
efficient than the distance-
vector-based protocols, like
AODVso that we have to use
EX-DSR protocol Algorithm
to improve maximum
performance parameter Ratio
with higher number of
nodes.
7
P.Manickam et al.
[12]
Protocols
used
Performance
comparison of two
prominent on-demand
reactive routing
protocols (DSR and
Ex-DSR preferable for
comparatively average
amount of mobility and low
traffic as per AODV
protocol.

5
AODV) shown in
previous thesis and
one proactive routing
protocol (DSDV) is
presented.
8
PrachiguptaE et al
[20]
Performance
criteria
Here the Performance
comparison of AODV
and DSR routing
protocols in a
constrained situation is
done in paperThe
authors claim that the
AODV outperforms
DSR in normal
situation but in the
constrained situation
DSR out performs
AODV.
We have used Ex-DSR
routing Algorithm to reach
the AODV performance
parameters.
9
DrMudassar et al
[21]
Application
Metrics
For application
oriented metrics such
as delay and
throughput, DSR
outperforms of AODV
when the numbers of
nodes are smaller
thenDSR is good one
mentioned in this
paper
We have used Ex-DSR
routing Algorithm to reach
good performance of all
performance parameter.
10
Nitin Tyagi et al
[16]
congestion
and
performance
parameter
Worked on upto 50
nodes with CBR traffic
in MANET but higher
nodes congestion
might happened in this
scenario.
We have proposed the
Improved DSR in both
mobile nodes as well as
constant nodes upto 300 and
we get some positive results
in performance parameters.
Table:3.2 Various Research Paper
3.1 PERFORMANCE METRICS
This subsection provides the general terminology of performance metrics that we consider for the
simulations throughout our research work presented in this thesis.
• PACKET DELIVERY RATIO :
Packet Delivery Fraction = received packets/sent packets * 100.
• AVERAGE END TO END DELAY :
This has all delays influenced by discovery process and queuing at rebroadcast packets in
delay at the MAC, propagation and transfer times of data packets.
• THROUGHPUT :
When the numbers of packets are broadcast then same number of data packets received
per unit time in the network during the simulation.

6
• PACKET DROPPING RATIO :
Packet Delivery Ratio (PDR) is the ratio between the number of packets transmitted by a
source and a number of packets received by a sink (destination).
• AVERAGE ENERGY CONSUMPTION:
Average Energy has been consumed when the packet has sent in network.
3.2. NETWORK SIMULATOR 2
In this paper, we use NS2 to simulate our proposed model and evaluate the performance of
MDSR with DSR.NS2 is an object oriented, open source network simulation tool, which can be
used by researchers both the networks. The languages are used in NS2, OTcl and C++. Moreover,
NS2 supplies number of models and protocols can help us of NS2 shows in below.We use OTcl
script file for simulation, then NS2 interpret the script and output the simulation process and
result to an output file. The simulation process and result can be shown by Nam and X graph
files. Please find the network simulator output file [9].
4. EVALUATION OF MODIFIED DSR
We analysed the performance of the original DSR previous research and the impact of DSR
components discussed and with the reference of explanation on intermediate node replies, we
modified the DSR code so that when any fresh route form or new request come in the network
We also modified the route replies and track of route creation time and ages of routes used.
A. DESCRIPTION OF MODIFIED ALGORITHM
In the original DSR protocol, when source node has no route for destination in its route cache
then it generate a route request message for searching route, and then broadcasted to a network
till the time to live is expired or the route is found. All the intermediate nodes are without
considering no. of hope it may have which will cause congestion at node which will affect the
overall performance of DSR protocol so that I have proposed that Improved DSR protocol (EX-
DSR) which has improvement done in the route reply (RREP) method Due to number of nodes
sends the RREP created the congestion and caused the collisions in network in normal DSR.
Each data packet sent then carries in its header the complete the request to nodes. We have
included the delay on reverse ACK path from the source (we just introduce a delay on last node
when destination sends a RREP).In dynamic source routing. Our proposal is to modify the basic
DSR to reduce the redundant RREPs. The below figure showing the basic architecture of Ex-DSR
protocol [21].
Figure: 4.1 EX-DSR working scenario [18]

7
Suppose node A want to communicate with node F, then it may be possible that node A have no
straight link with node F ,but it have link with node B who has link with node C and E, and E &
C is further linked with F. So node A will use intermediate node to communicate with node F.
The node in mobile ad hoc can be a mobile, notebook, and computer. All of these nearest node
have the route to destination node in its route cache like node A has the route “BCF” and “BEF”
and neighbour D is direct link to F. All the intermediate nodes which will cause congestion at
node B which will affect the overall performance of DSR protocol. To solve such type of problem
DSR should prevent route reply storm and the idea is given in DSR RFC. In our work we just
introduce a delay on last node when destination sends a RREP. The original DSR keeps multiple
routes to a destination and minimum hop count routes we modified the route cache such that it
maintains routes [22]. The below figure 4.1 flow chart evaluated the difference of traditional DSR
and modified DSR working mechanism.
TRADITIONAL DSR
Please find the below DSR header format which includes the below parameters.
• The Small fixed-sized, sequence of 0 carried of 4-octet portion or DSR options carrying
optional information. For IPv4, the DSR header carried out the IP header in the packet
followed by traditional UDP.
• When the header allows the DSR option header present in packet, then multiple number 4
octets are present in actual length of DSR option header which has total combined length
present.
Fig 4.1Packet Formats of Modified DSR

8
Fig : 4.2 Fixed Portion of DSR Options Header
Fig: 4.3. Data Packet Format of DSR protocol
B. MODIFIED DSR
In technicality, information from the transmission links, such as packet header, should pass all the
route information to source node towards the intermediate nodes of paths in routing of protocol.
Each wireless node can communicate with any node within range, which depends on capacity at
the receiver node. We modified the route reply packet format addition of random delay on last
node with packet format is worst value of signal strength along with delay parameter route from
destination to source.First we modify the protocol’s internal data structure to add additional field
for storing the small delay value during the route Reply process. The changes have been made
particularly to the RREQ, RREP and route cache. The Modified DSR has good throughput and
PDR less delay compared with Conventional DSR.
Fig: 4.4 Modified Route Reply packet format of DSR
Fig :4.5 Data Packet Format of Modified DSR protocol
PSEUDO CODE
1. Get route for packet from source to destination
2. /* make the route request packet */
3. /* make the route request packet */
4. # end if /* NEW_SALVAGE_LOGIC *
5. Send route code
6. Send packet after accepting route reply
7. Code to send route request
8. Code to return response to the source as request

9
5. SIMULATION SET UP
In the simulation Modified DSR use unique optimization method in as per name SRD. We have
taken the below parameters for simulation of EX-DSR protocol with find out the average end to
end delay, Packet delivery ratio, Throughput and Average Energy Consumption for
50,100,150,200,250 and 300 nodes. In the simulation, it has been shown that the performance of
E-DSR is much better than DSR. The Mobile ad-hoc network consists of up to 300 wireless
nodes, moving about over 500 X 500 flat spaces for 200 seconds of simulated time. The constant
bit rate (CBR) flows are deployed for data transmission. The RWP model is used in simulation. In
order to enable direct, fair comparisons between the DSR, AODV, DSDV and EX-DSR, Each run
of the simulator accepts a scenario fileas input that actual movement of every node and set as all
the data of packets in sequential manner. The evaluations are based on the simulation of two
scenarios. The simulation set up remains same for first part only includes the modified EX-DSR
protocol with mobility and non-mobility scenario in MANET (802.11In simulator uses the
motion of mobile nodes and non-mobile nodes.In this simulation the traffic sources to be constant
bit rate (CBR) source.
5.1Parameter values taken in simulation
6. GRAPHS EX-DSR WITH THREE PROTOCOLS IN MOBILITY SCENARIO
6.1.1. THROUGHPUT
From the above figure 6.1.1 it is clear that EX-DSR has very good throughput then the other
protocols AODV and DSR. For DSDV protocol, first the throughput decreases and remains
constant for some time. However it is not consistent over the period of time.The AODV shows
the consistent behaviour over a period of time for different number of nodes.Thus AODV and
EX-DSR shows a better performance as compared to other two protocols.

10
Fig: 6.1.1 Throughput vs Number of Nodes
Table 6.1.1 Readings of Throughput vs No of nodes
No of
Nodes AODV DSR DSDV IRPDSR
50 216500 334153 613065 1859360
100 51008 51304.5 174442 3517280
150 187842 171248 302579 3549440
200 551278 479384 563308 2116480
250 712032 736625 182306 1352160
300 767654 897654 220914 4567680
6.1.2 PACKET DELIVERY RATIO
In Figure 6.1.2 and table 6.1.2 we have observed that Modified DSR has a better PDR value up
to 200 nodes when compared to DSR and DSDV having good PDR from 200 nodes. This is
because in the time waited at a node, which findan path when broken any link then DSR is
rendered useless at that point.Modified DSR slightly outperform than DSR.
Fig: 6.1.2Packet Delivery Ratiovs Number of Nodes
Table 6.1.2Readings PDR vs No of nodes
No of Nodes AODV DSR DSDV IRPDSR
50 84.8372 96.3248 78.4119 99.3248
100 5.95087 6.16733 14.9198 75.53
150 14.6446 13.7664 20.4225 51.2664
200 30.9199 27.4362 23.0888 22.0276
250 32.1339 33.6456 51.8034 11.3255
300 34.654 35.7654 62.6581 32.6498
0
100
200
0 100 200 300 400
PacketDeliveryratio
[%]
No of nodes
Packet Delivery ratio
AODV
DSR
DSDV
IRPDSR

11
6.1.3 END TO END DELAY:
Fig 6.1.3 shows the analysis of Delay. For DSR protocol it is found that average initial delay
varies from 0.2 to 2.2. For AODV and DSDVobserved that the delay varies from 0.5 to 1 and
continuously varying. Even the EX-DSR shows 0 to 2.0 which shows its inconsistency. Thus it
can be seen that DSDV and AODV protocol performs better than other two in case of delay. The
highest delay could be seen in case of Ex-DSR protocol.
Fig: 6.1.3Delay vs Number of Nodes
Table 6.1.3 Readings Delay vs No of nodes
50 0.564031 0.243947 0.88559 0.0287013
100 0.445553 1.19583 1.94105 1.14517
150 1.05896 2.10176 2.72909 2.51869
200 1.2968 2.27998 2.38812 4.84595
250 0.92875 2.13679 1.31997 4.82215
300 1.1275 2.26871 0.93151 2.0475
6.1.4. PACKET DROPPING RATIO
In the figure 6.1.4 observed that packet dropping ratio of IRP-DSR is lowest as compared to other
all three protocols because of when the node size. When the node size increases then numbers of
packet send source to destination and RREP request to destination s node due to characteristics of
IRP-DSR form alternate path to send other packets which means smoothly delay applied to 2nd
last nodes send RREP request to source node.
Fig: 6.1.4Packet Dropping Ratio vs Number of Nodes
0
200
0 100 200 300 400
packetdropping
ratio[%]
No of nodes
Packet Dropping Ratio
AODV
DSR
DSDV

12
Table 6.1.4 :Readings Packet Dropping Ratio vs No of nodes
50 15.1628 3.67521 27.0342 0.675214
100 94.0491 93.8327 95.7602 24.47
150 85.3554 86.2336 93.9476 48.7336
200 69.0801 72.5638 94.38 77.9724
250 67.8661 66.3544 91.4103 88.6745
300 69.8948 65.5467 91.3248 67.3502
6.2 GRAPHS OF EX-DSR WITH THREE PROTOCOLS IN NON-MOBILITY SCENARIO
In this section we are analysed the EX-DSR protocols in other three protocol in non-
mobility scenario.
6.2.1 THROUGHPUT
In this figure 6.2.1 state that the M-DSR throughput is very high as compared with all three
protocols because of If routes are ordered by freshness, and the first route fails, it is very likely
old routes has stored in cache memory . By trying all the routes in the cache before sending a new
route request, a lot of time and bandwidth is wasted. EX-DSR have a much larger and as per
figure the maximum overload he packets which means the number of packets to be dropped is
less. High throughput and less overhead when the network is congested and AODV, which keeps
only one route per destination, performs well at low traffic.
Fig: 6.2.1 Throughput vs Number of Nodes
Table 6.2.1: Readings Throughputvs No of nodes
No. of Nodes AODV DSR DSDV IRPDSR
50 250113 327655 337387 1866400
100 32258.3 31485.7 32288 3390080
150 161367 169092 91200 5182880
200 337186 338347 185418 4895680
250 747659 745504 397731 4459680
300 791234 795437 407641 5793760
6.2.2 PACKET DELIVERY RATIO
Fig 6.2.2 shows that Modified DSR has a better PDR value when compared to DSR as simulation
time increases but when the nodes are increases the M-DSR has decreases from average value of
PDR 65. In this technique, only one route determined to be the main route and trend is to keep
0
10000000
0 100 200 300 400
Throughput
[Bits/sec]
No. of Nodes
Throughput
AODV
DSR
DSDV

13
multiple routes and switch to a new one as soon as one fails. If the request times of two routes are
the same, then a route with shorter hop count is given preference over a longer route.This is due
to the reason that as node size has increase modified DSR find suitable alternate route to send the
packet if the current link has broken whereas DSR has no choice at that point same are DSDV
which become lower PDR then M-DSR.
Fig: 6.2.2Packet Delivery Ratio vs Number of Nodes
Table 6.2.2 :Readings Packet Delivery Ratiovs No of nodes
50 97.9535 94.453 93.7094 99.7009
100 3.78286 3.78629 3.78629 72.7985
150 12.5855 13.6763 7.12701 74.859
200 18.9219 19.7196 10.4143 50.9525
250 33.7407 34.8531 17.9539 37.3538
300 37.5425 38.5334 25.6532 41.4138
6.2.3.END TO END DELAY
In this figure observed that when the number of nodes is increases then the amount of delay also
become increases in non-mobility scenario of M-DSR.The delay is also affected by high rate of
CBR packets. The high delay at a mobility factor of 0-1 then the other protocols so that this M-
DSR protocol not satisfied the delay parameter.
Fig: 6.2.3Delayvs Number of Nodes
0
200
0 100 200 300 400
PacketDelivery
Ratio[%]
No. of Nodes
Packet Delivery Ratio
AODV
DSR
DSDV
0
5
0 100 200 300 400
Delay[ms]
No. of Nodes
Delay
AODV
DSR
DSDV
IRPDSR

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Table 6.2.3: Readings Delayvs No of Nodes
50 0.208385 0.453372 0.0291946 0.0228194
100 0.00346614 0.0286712 0.00235392 0.702086
150 0.0397165 0.051656 0.237831 1.21257
200 0.069358 0.0541943 0.222336 2.86172
250 0.695796 0.885329 0.22659 4.14028
300 0.70987 0.91234 0.23657 0.849929
6.2.4.PACKET DROPPING RATIO
As shown in figure conclude that the AODV shows a better result than DSR. EX-DSR will have a
much larger byte overhead than AODV at higher data rates. The M-DSR gives the better results
of highest numbers of nodes then the other protocols. It is also possible that a route to destination
might not have been discovered and the wait time that each node suffers might have produced
that collision. At the highest data rate, DSDV is almost as good as DSR. both AODV and DSR
are dropping a large fraction of the packets.
Fig: 6.2.6Packet Dropping Ratiovs Number of Nodes
Table 6.2.6: Readings Dropping Ratio vs No of Node
50 2.04651 5.54701 6.2906 0.299145
100 96.2171 96.2137 96.2137 27.2015
150 87.4145 86.3237 92.873 25.141
200 81.0781 80.2804 89.5857 49.0475
250 66.2593 65.1469 82.0461 62.6462
300 75.7678 72.5443 86.7656 58.5862
7. CONCLUSION AND FUTURE SCOPE
This paper presents modified DSR protocol in Ad Hoc networks. To enhance the performance of
DSR,MDSR has been introduced which using ACK path as the backup route and random delay
on last node when the original route is no longer in use resolve the unnecessary data packets
sends which means the retransmission happened when the any drop down packet then it should to
resend. The intention of the mechanism is to reduce the waiting time of data transmission before
route is re-established. In doing so, the packet dropping ratio will be reduced. Besides, the packet
delivery ratio will been enhanced. The simulation results show that the new protocol has better
0
200
0 100 200 300 400
DroppingRatio[%]
No. of Nodes
Dropping Ratio
AODV
DSR
DSDV
IRPDSR

15
performance than DSR and other protocols. Our proposed techniques perform significantly
better than previously proposed modifications at high nodes in both scenarios.
Whenever the topology of the network changes, therefore, DSDV shows poor performance for
dynamic networks and EX-DSR and DSR performs well in dynamic network as well as static
network. However DSDV is more expensive due to take more time update the routing table in
simulation time than EX-DSR at higher rates of mobility due to use the source routing as per
AODV algorithm. Considering overall performance of EX-DSR it performs well in low (100) and
high (200) nodes compared with other protocols.EX-DSR showed good performance at all
mobility rates and movement speed. The EX-DSR protocol has not satisfied the some
performance parameters like packet delivery ratio and delay due to highest numbers of
nodes.
REFERENCE
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Gautam, Shashank dwivedi, IJRITCC, August 2015.
[2] “A Quantitative Analysis and Behavioral Study of Routing Protocols in MANET “ by Gyanendra
Kumar Pallai, S Meenakshi, Amiya Kumar Rath, BansidharMajhi, IJCSMC, Vol. 3, November 2014.
[3] “Applications of MANET Routing Protocols in Sensor Network” by VenetisKanakaris, David Ndzi,
and Kyriakos Ovaliadis, (IJRRAN), December 2011.
[4] “Assessment Of Throughput Performance Under NS2 In Mobile Ad Hoc Networks (MANETs)” by
Liliana EncisoQuispe and Luis Mengual Galan, 2013 Fifth International Conference on
Computational Intelligence, Communication Systems and Networks.
[5] “Comparison of MANET Routing Protocols in Different Traffic and Mobility Models “ by Sabina
Barakovi, SuadKasapovi and JasminaBarakovi, Telfor Journal,2011.
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ABDULLAH GANI, QI HAN, NOR BADRUL ANUAR, OMAR ZAKARIA,ISSN Feb 2009.
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Salma Begum, Nazma Tara, ijcsit, April 2010.
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byAli A.S. Ihbeel, HaseinIssaSigiuk, Journal of Networking Technology , August 2012.
[9] NS-2 Network simulator http://www.isi.edu/nsnam/ns
[10] “ Performance Evaluation of Energy Consumption in MANET” by Ashish Kumar, M. Q. Rafiq,
Kamal Bansal March 2012
[11] “performance comparison of AODV,DSR and LAR1in Mobile Ad hoc network on simulation Time”
by Rajeev Paulus, tanbeerkaur, reema Garg, journal,IOSR-JECE,Oct@ 2013.
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t.gurubasker,IJWMN,journal, feb 2011.
[13] “PERFORMANCE INVESTIGATION OF ROUTING PROTOCOLS OF MOBILE AD-HOC
NETWORKS USING CBR AND TCP TRAFFIC” by Samayveer Singh, A K Chauhan and
AvinashSoam, JGRCS, June 2011
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Lavneet Bansal, IJCSIT, 2011.
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Savita Gandhi, NirbhayChaubey, IJDPS, November 2011.
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[17] “PERFORMANCE COMPARISON OF MOBILE AD HOC NETWORK ROUTING PROTOCOLS
“ By Mandeep Kaur Gulati and Krishan Kumar, IJCNC, March 2014.
[18] “PERFORMANCE ANALYSIS OF AODV, DSR AND DSDV ROUTING PROTOCOLS IN
MOBILE AD-HOC NETWORK (MANET)” by PARUL SHARMA, ARVIND KALIA AND
JAWAHAR THAKUR, ISSN: 0976-8742, February 15, 2012
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Sunil gupta,research paper,IJARCSSE@2013.

16
[20] “The effect of velocity of nodes on the performance of routing protocols in MANET” by
ZubairIqbal,Prachigupta, ,journal,IJCA,july@2013.
[21] “Varying Pause Time Effect on AODV, DSR and DSDV Performance “ by Zafar Mahmood,
Muhammad Awais Nawaz, DrMudassar Iqbal, Saleem Khan, Zia ulHaq, ijwmt, March 2015.
[22] “Competitive study of Ad hoc Routing protocol AODV,DSR,DSDV in Mobile Adhoc network” by
Pranav kumarsingh, Dipankar Sutradhar, Journal ISSN.
AUTHORS
Paresh Acharekar is working as Software consultant in Atos Origin India Private
Limited (French MNC), India and I am student of VIT, Engineering College Mumbai,
India. My research is focus on routing protocols in MANET Mobility as well as Non-
Mobility scenarios and Wireless networking, Ad-hoc networks, Network management.
Dr. Saurabh Mehta is Professor and Head Department of EXTC, VIT Engineering
College Mumbai, India and his area of specializations includes a core wireless network,
Sensor Network. His wireless and NS2 ideas helps me lot in this research paper.
Prof. Shraddha Panbude is working in VIT Engineering College Mumbai, India and she
is my guide of Master’s project.

PERFORMANCE ANALYSIS AND COMPARISON OF IMPROVED DSR WITH DSR, AODV AND DSDV ROUTING PROTOCOL IN MOBILITY AND NONMOBILITY SCENARIOS

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PERFORMANCE ANALYSIS AND COMPARISON OF IMPROVED DSR WITH DSR, AODV AND DSDV ROUTING PROTOCOL IN MOBILITY AND NONMOBILITY SCENARIOS