2017 International Conference on Information and Communications (ICIC), 2017
Device-to-Device (D2D) communication has drawn great interest in academia and industries due to t... more Device-to-Device (D2D) communication has drawn great interest in academia and industries due to the extended network coverage and reduction of the restrictions of traditional cellular systems. On the other hand, a new paradigm called content-centric networking (CCN) has been proposed for scalable, flexible, and secure services in the future networks. With CCN, it is possible to increase the throughput and efficiency of the content delivery. By the integration of D2D communication and CCN, traffic congestion can be reduced and faster content delivery is possible. In this paper, we propose a fast content access mechanism in the wireless network where there are multiple devices, which is based on CCN and D2D. We use multiple networks to send the requested content simultaneously from multiple devices to one device. Our simulation results demonstrate that the proposed mechanism improves the content delivery time significantly
Vehicular communications is a growing area for communications between vehicle and everything. On ... more Vehicular communications is a growing area for communications between vehicle and everything. On the other hand, information-centric networking (ICN) is being recognized as a new paradigm for the future Internet and 5G networks. Content-centric networking (CCN) is a similar approach to ICN. In this paper, we propose an architecture and functional entities for CCN-based vehicle-to-everything (V2X) communications. We concentrate on various V2X communication scenarios and the applicability of CCN in the respective scenarios using proactive caching and optimized routing. We also show that CCN in-network caching can be effective by using the content popularity and the degree of vehicular safety oriented content. In addition, we analyze the performance of the architecture and demonstrate that proactive caching works better than reactive caching.
Content-centric networking is a new networking paradigm for efficient data distribution in variou... more Content-centric networking is a new networking paradigm for efficient data distribution in various environments including wireless sensor networks. It is likely that everything which benefits from networking will be connected. Recently, we have seen a huge proliferation of heterogeneous wireless devices, sensors, and distributed applications. These devices may generate a vast amount of time-constrained data. Content-centric networking is greatly useful to increase the data availability and the efficiency of data delivery. Internet of Things will enable all the communication devices to be interconnected and make the data generated by or associated with devices or objects globally accessible. In this article, we propose a possible architecture, necessary components, and related mechanisms for efficient data delivery in the wireless Internet of Things environment, which is based on content-centric networking. We also present simulation results to show the feasibility of the proposed architecture.
Recently, Device-to-Device (D2D) communication has drawn great interest in academia and industrie... more Recently, Device-to-Device (D2D) communication has drawn great interest in academia and industries due to the extended network coverage and reduction of the restrictions of traditional cellular systems. When multiple devices are located close to each other, they can activate direct links by either using existing cellular communications systems or using different access technologies such as Wi-Fi. In this paper, we propose a new content delivary mechanism in the multiple devices to multiple devices (MD2MD) environment basd on content-centric networking (CCN). We use both LTE and Wi-Fi ad-hoc networks to send the content concurrently from multiple devices to one device. We also show that the proposed mechanism reduces the content access time and increases the acceptance of content from nearby devices.
Content-centric networking (CCN) is a new paradigm
that can access content and services using nam... more Content-centric networking (CCN) is a new paradigm that can access content and services using naming. Applying CCN to the LTE network can be an effective way to provide an optimal content delivery performance in the mobile environment. In order to visualize and demonstrate the performance of CCN in the LTE environment, we propose a new direct code execution simulation framework which integrates the real machines and the network simulator. We also show the performance of real-time video in the LTE network and the CCN-based LTE network using the framework. The proposed framework will be useful for simulation and demonstration of the video performance in various wired and wireless networks including future networks.
Content delivery between various devices in the
wireless environment is increasing rapidly due to... more Content delivery between various devices in the wireless environment is increasing rapidly due to the increasing number of mobile devices and recent advances in wireless transmission technologies. One of the issues that need to be resolved in this situation is timely and fast delivery of the requested content to maximize user satisfaction. Content- Centric Networking (CCN) can be considered as an effective way to resolve this issue. CCN is a new networking paradigm for providing more efficient, scalable, secure, and collaborative communications compared to the traditional host-centric networking paradigm. In this paper, we present a CCN-based mechanism for fast content delivery in wireless networks and analyze its performance in terms of transmission efficiency.
Data transmission from one device to another is
increasing vastly, and therefore routing and comm... more Data transmission from one device to another is increasing vastly, and therefore routing and communication between devices are becoming critical issues. Content-Centric Networking (CCN) is being recognized as a very useful technology for efficient and fast content delivery. In this paper, we propose an enhanced cluster-based content access mechanism which accelerates the rapid transmission of contents. The proposed architecture is based on the principles of CCN and incorporates a cluster-based approach for the better performance in terms of content retrieval delay and the traffic overhead compared to the basic CCN and other content delivery architectures.
Recently, content delivery from one device to another is increasing rapidly, and fast routing and... more Recently, content delivery from one device to another is increasing rapidly, and fast routing and cooperation between devices are becoming critical issues. Content-Centric Networking (CCN) is being recognized as a useful technology for efficient and fast content retrieval. In this paper, we propose an efficient content retrieval mechanism based on clustering in the CCN environment. The mechanism accelerates the retrieval and transmission of the requested content with an increased efficiency. It is based on the principle of CCN and incorporates a cluster-based approach for better performance in terms of content retrieval time and traffic overhead. We also compare the proposed mechanism with the existing mechanisms.
2017 International Conference on Information and Communications (ICIC), 2017
Device-to-Device (D2D) communication has drawn great interest in academia and industries due to t... more Device-to-Device (D2D) communication has drawn great interest in academia and industries due to the extended network coverage and reduction of the restrictions of traditional cellular systems. On the other hand, a new paradigm called content-centric networking (CCN) has been proposed for scalable, flexible, and secure services in the future networks. With CCN, it is possible to increase the throughput and efficiency of the content delivery. By the integration of D2D communication and CCN, traffic congestion can be reduced and faster content delivery is possible. In this paper, we propose a fast content access mechanism in the wireless network where there are multiple devices, which is based on CCN and D2D. We use multiple networks to send the requested content simultaneously from multiple devices to one device. Our simulation results demonstrate that the proposed mechanism improves the content delivery time significantly
Vehicular communications is a growing area for communications between vehicle and everything. On ... more Vehicular communications is a growing area for communications between vehicle and everything. On the other hand, information-centric networking (ICN) is being recognized as a new paradigm for the future Internet and 5G networks. Content-centric networking (CCN) is a similar approach to ICN. In this paper, we propose an architecture and functional entities for CCN-based vehicle-to-everything (V2X) communications. We concentrate on various V2X communication scenarios and the applicability of CCN in the respective scenarios using proactive caching and optimized routing. We also show that CCN in-network caching can be effective by using the content popularity and the degree of vehicular safety oriented content. In addition, we analyze the performance of the architecture and demonstrate that proactive caching works better than reactive caching.
Content-centric networking is a new networking paradigm for efficient data distribution in variou... more Content-centric networking is a new networking paradigm for efficient data distribution in various environments including wireless sensor networks. It is likely that everything which benefits from networking will be connected. Recently, we have seen a huge proliferation of heterogeneous wireless devices, sensors, and distributed applications. These devices may generate a vast amount of time-constrained data. Content-centric networking is greatly useful to increase the data availability and the efficiency of data delivery. Internet of Things will enable all the communication devices to be interconnected and make the data generated by or associated with devices or objects globally accessible. In this article, we propose a possible architecture, necessary components, and related mechanisms for efficient data delivery in the wireless Internet of Things environment, which is based on content-centric networking. We also present simulation results to show the feasibility of the proposed architecture.
Recently, Device-to-Device (D2D) communication has drawn great interest in academia and industrie... more Recently, Device-to-Device (D2D) communication has drawn great interest in academia and industries due to the extended network coverage and reduction of the restrictions of traditional cellular systems. When multiple devices are located close to each other, they can activate direct links by either using existing cellular communications systems or using different access technologies such as Wi-Fi. In this paper, we propose a new content delivary mechanism in the multiple devices to multiple devices (MD2MD) environment basd on content-centric networking (CCN). We use both LTE and Wi-Fi ad-hoc networks to send the content concurrently from multiple devices to one device. We also show that the proposed mechanism reduces the content access time and increases the acceptance of content from nearby devices.
Content-centric networking (CCN) is a new paradigm
that can access content and services using nam... more Content-centric networking (CCN) is a new paradigm that can access content and services using naming. Applying CCN to the LTE network can be an effective way to provide an optimal content delivery performance in the mobile environment. In order to visualize and demonstrate the performance of CCN in the LTE environment, we propose a new direct code execution simulation framework which integrates the real machines and the network simulator. We also show the performance of real-time video in the LTE network and the CCN-based LTE network using the framework. The proposed framework will be useful for simulation and demonstration of the video performance in various wired and wireless networks including future networks.
Content delivery between various devices in the
wireless environment is increasing rapidly due to... more Content delivery between various devices in the wireless environment is increasing rapidly due to the increasing number of mobile devices and recent advances in wireless transmission technologies. One of the issues that need to be resolved in this situation is timely and fast delivery of the requested content to maximize user satisfaction. Content- Centric Networking (CCN) can be considered as an effective way to resolve this issue. CCN is a new networking paradigm for providing more efficient, scalable, secure, and collaborative communications compared to the traditional host-centric networking paradigm. In this paper, we present a CCN-based mechanism for fast content delivery in wireless networks and analyze its performance in terms of transmission efficiency.
Data transmission from one device to another is
increasing vastly, and therefore routing and comm... more Data transmission from one device to another is increasing vastly, and therefore routing and communication between devices are becoming critical issues. Content-Centric Networking (CCN) is being recognized as a very useful technology for efficient and fast content delivery. In this paper, we propose an enhanced cluster-based content access mechanism which accelerates the rapid transmission of contents. The proposed architecture is based on the principles of CCN and incorporates a cluster-based approach for the better performance in terms of content retrieval delay and the traffic overhead compared to the basic CCN and other content delivery architectures.
Recently, content delivery from one device to another is increasing rapidly, and fast routing and... more Recently, content delivery from one device to another is increasing rapidly, and fast routing and cooperation between devices are becoming critical issues. Content-Centric Networking (CCN) is being recognized as a useful technology for efficient and fast content retrieval. In this paper, we propose an efficient content retrieval mechanism based on clustering in the CCN environment. The mechanism accelerates the retrieval and transmission of the requested content with an increased efficiency. It is based on the principle of CCN and incorporates a cluster-based approach for better performance in terms of content retrieval time and traffic overhead. We also compare the proposed mechanism with the existing mechanisms.
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Papers by Kamrul Hasan
that can access content and services using naming. Applying
CCN to the LTE network can be an effective way to provide an
optimal content delivery performance in the mobile environment.
In order to visualize and demonstrate the performance of CCN in
the LTE environment, we propose a new direct code execution
simulation framework which integrates the real machines and the
network simulator. We also show the performance of real-time
video in the LTE network and the CCN-based LTE network
using the framework. The proposed framework will be useful for
simulation and demonstration of the video performance in
various wired and wireless networks including future networks.
wireless environment is increasing rapidly due to the
increasing number of mobile devices and recent advances in
wireless transmission technologies. One of the issues that need
to be resolved in this situation is timely and fast delivery of the
requested content to maximize user satisfaction. Content-
Centric Networking (CCN) can be considered as an effective
way to resolve this issue. CCN is a new networking paradigm
for providing more efficient, scalable, secure, and collaborative
communications compared to the traditional host-centric
networking paradigm. In this paper, we present a CCN-based
mechanism for fast content delivery in wireless networks and
analyze its performance in terms of transmission efficiency.
increasing vastly, and therefore routing and communication
between devices are becoming critical issues. Content-Centric
Networking (CCN) is being recognized as a very useful
technology for efficient and fast content delivery. In this paper,
we propose an enhanced cluster-based content access
mechanism which accelerates the rapid transmission of
contents. The proposed architecture is based on the principles
of CCN and incorporates a cluster-based approach for the
better performance in terms of content retrieval delay and the
traffic overhead compared to the basic CCN and other content
delivery architectures.
that can access content and services using naming. Applying
CCN to the LTE network can be an effective way to provide an
optimal content delivery performance in the mobile environment.
In order to visualize and demonstrate the performance of CCN in
the LTE environment, we propose a new direct code execution
simulation framework which integrates the real machines and the
network simulator. We also show the performance of real-time
video in the LTE network and the CCN-based LTE network
using the framework. The proposed framework will be useful for
simulation and demonstration of the video performance in
various wired and wireless networks including future networks.
wireless environment is increasing rapidly due to the
increasing number of mobile devices and recent advances in
wireless transmission technologies. One of the issues that need
to be resolved in this situation is timely and fast delivery of the
requested content to maximize user satisfaction. Content-
Centric Networking (CCN) can be considered as an effective
way to resolve this issue. CCN is a new networking paradigm
for providing more efficient, scalable, secure, and collaborative
communications compared to the traditional host-centric
networking paradigm. In this paper, we present a CCN-based
mechanism for fast content delivery in wireless networks and
analyze its performance in terms of transmission efficiency.
increasing vastly, and therefore routing and communication
between devices are becoming critical issues. Content-Centric
Networking (CCN) is being recognized as a very useful
technology for efficient and fast content delivery. In this paper,
we propose an enhanced cluster-based content access
mechanism which accelerates the rapid transmission of
contents. The proposed architecture is based on the principles
of CCN and incorporates a cluster-based approach for the
better performance in terms of content retrieval delay and the
traffic overhead compared to the basic CCN and other content
delivery architectures.