ROUTING PROTOCOL AND ARCHITECTURE FOR SKALABILITY AND MOBILITY SUPPORT IN NAMED DATA NETWORK
Development of internet technology today, has been woried will bring the network to collapse, due to shifting nature of the internet itself since created from nowadays characteristic. Named Data Network (NDN) brings a new paradigm and provides fundamental changes in the implementation of data com...
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id-itb.:766972023-08-18T08:41:23ZROUTING PROTOCOL AND ARCHITECTURE FOR SKALABILITY AND MOBILITY SUPPORT IN NAMED DATA NETWORK Ariefianto Wibowo, Tody Indonesia Dissertations named data network, routing, clustering, mobility, emulation. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/76697 Development of internet technology today, has been woried will bring the network to collapse, due to shifting nature of the internet itself since created from nowadays characteristic. Named Data Network (NDN) brings a new paradigm and provides fundamental changes in the implementation of data communications on the internet. Routing is one of the important factors in messaging delivery mechanism on NDN and the scalability in perutean is an issue that arises with the increasing number of entities on the internet. NDN research starts from Simulation which is a method that demands the smallest resources, then continues to expand towards emulation and testbeds. Testbeds with prototype devices are closest to real world reality but are increasingly difficult to implement. A framework is needed that can bring NDN research closer to the real world with more controlled efforts and resources. In the first part, the proposed routing protocol is named Grid-based Scalable NDN Routing (GSNR). Where previously a mathematical model for the efficiency of geographic routing protocols and link state was built on the NDN. In the second part of the research, a framework is proposed that combines the advantages of emulation and testbed. The framework involves the NDN-PnetLab (PL) emulation process using Qemu-based VMs for an easier implementation approach, comprehensive monitoring, and cost-effectiveness. GSNR, by using a hybrid routing protocol, provides better and more stable performance than the previous routing protocols NLSR and GEO. GSNR is able to provide low message overhead without sacrificing data transmission performance. GSNR shows stable performance for throughput and delay, with experiments scenarios, changing the area and the number of nodes. GSNR performance (overhead, path-stretch, delay, throughput), on average, only changed (increased or decreased) 19.83% compared to 116.46% in NLSR and 50.91% in GEO. The results of the observations show how the proposed NDN-PnetLab (PL) framework can monitor QoS parameters, CPU usage, and RAM usage. CPU and RAM usage is impossible to check and analyze if we only use NDNSim or even Mini-NDN. Compared to Mini-NDN, the PL framework provides a performance iv difference of 7.59% on RTT delay, and 0.89% on nCHR, then can provide intensive parameter measurement results related to hardware performance. This is urgently needed to continue research into the implementation of NDN systems. text |
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Institut Teknologi Bandung |
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| continent |
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Indonesia Indonesia |
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Institut Teknologi Bandung |
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Indonesia |
| description |
Development of internet technology today, has been woried will bring the network
to collapse, due to shifting nature of the internet itself since created from nowadays
characteristic. Named Data Network (NDN) brings a new paradigm and provides
fundamental changes in the implementation of data communications on the
internet. Routing is one of the important factors in messaging delivery mechanism
on NDN and the scalability in perutean is an issue that arises with the increasing
number of entities on the internet.
NDN research starts from Simulation which is a method that demands the smallest
resources, then continues to expand towards emulation and testbeds. Testbeds with
prototype devices are closest to real world reality but are increasingly difficult to
implement. A framework is needed that can bring NDN research closer to the real
world with more controlled efforts and resources.
In the first part, the proposed routing protocol is named Grid-based Scalable NDN
Routing (GSNR). Where previously a mathematical model for the efficiency of
geographic routing protocols and link state was built on the NDN. In the second
part of the research, a framework is proposed that combines the advantages of
emulation and testbed. The framework involves the NDN-PnetLab (PL) emulation
process using Qemu-based VMs for an easier implementation approach,
comprehensive monitoring, and cost-effectiveness.
GSNR, by using a hybrid routing protocol, provides better and more stable
performance than the previous routing protocols NLSR and GEO. GSNR is able to
provide low message overhead without sacrificing data transmission performance.
GSNR shows stable performance for throughput and delay, with experiments
scenarios, changing the area and the number of nodes. GSNR performance
(overhead, path-stretch, delay, throughput), on average, only changed (increased
or decreased) 19.83% compared to 116.46% in NLSR and 50.91% in GEO.
The results of the observations show how the proposed NDN-PnetLab (PL)
framework can monitor QoS parameters, CPU usage, and RAM usage. CPU and
RAM usage is impossible to check and analyze if we only use NDNSim or even
Mini-NDN. Compared to Mini-NDN, the PL framework provides a performance
iv
difference of 7.59% on RTT delay, and 0.89% on nCHR, then can provide intensive
parameter measurement results related to hardware performance. This is urgently
needed to continue research into the implementation of NDN systems. |
| format |
Dissertations |
| author |
Ariefianto Wibowo, Tody |
| spellingShingle |
Ariefianto Wibowo, Tody ROUTING PROTOCOL AND ARCHITECTURE FOR SKALABILITY AND MOBILITY SUPPORT IN NAMED DATA NETWORK |
| author_facet |
Ariefianto Wibowo, Tody |
| author_sort |
Ariefianto Wibowo, Tody |
| title |
ROUTING PROTOCOL AND ARCHITECTURE FOR SKALABILITY AND MOBILITY SUPPORT IN NAMED DATA NETWORK |
| title_short |
ROUTING PROTOCOL AND ARCHITECTURE FOR SKALABILITY AND MOBILITY SUPPORT IN NAMED DATA NETWORK |
| title_full |
ROUTING PROTOCOL AND ARCHITECTURE FOR SKALABILITY AND MOBILITY SUPPORT IN NAMED DATA NETWORK |
| title_fullStr |
ROUTING PROTOCOL AND ARCHITECTURE FOR SKALABILITY AND MOBILITY SUPPORT IN NAMED DATA NETWORK |
| title_full_unstemmed |
ROUTING PROTOCOL AND ARCHITECTURE FOR SKALABILITY AND MOBILITY SUPPORT IN NAMED DATA NETWORK |
| title_sort |
routing protocol and architecture for skalability and mobility support in named data network |
| url |
https://digilib.itb.ac.id/gdl/view/76697 |
| _version_ |
1822280532860338176 |