@article{MAKHILLIJSSCEA201912328788,
    title = {Use Spare Route and Local Recovery Tree based Approach in MANETs},
    journal = {International Journal of System Signal Control and Engineering Application},
    volume = {12},
    number = {3},
    pages = {40-47},
    year = {2019},
    issn = {1997-5422},
    doi = {ijssceapp.2019.40.47},
    url = {https://makhillpublications.co/view-article.php?issn=1997-5422&doi=ijssceapp.2019.40.47},
    author = {Younes,Shiva and},
    keywords = {Mobile Ad-hoc network (MANET),routing,DSR,DSR-RRP,QAODV},
    abstract = {Mobile Ad-hoc Networks (MANETs), there are
no basic network devices, such as routers or access points;
data transfer among nodes is realized by means of
multiple hops and rather than just serving as a single
terminal, every mobile node acts as a router to establish a
route. Routing protocols must be highly effective and
reliable to guarantee successful packet delivery.Therefore,
performed correct routing and rapid restoration of
corrupted links is an important issue in mobile ad hoc
network that has been discussed. In this study for mobile
ad hoc network based on DSR routing protocol and
DSR-RRP, a method is provided to quickly create tow
path and prevent the packets to be removed or lost.
Suggested method is based on tree structure and each
node using two tables, one informative table trees and
other management of neighbor&#146;s information nodes is
aware of its own connection and neighbor nodes. During
the rapid detection of deterioration according to links on
the tables and informative messages, the nearest and most
convenient link to the base station quickly discovered and
connection will be done. The simulation results by NS2
show that, proposed method (DSR-RRP) comparing with
the (QAODV). Outperforms in terms of packet delivery
ratio, throughput, packet loss and end-to-end delay. As a
result, the Proposed method (DSR-RRP) is obviously
better suited for tree based approach in MANETs and can
provide better performance for data transmission.}
    }