Abstract
Major benefits of wireless sensor nodes of IoT like low cost and easy deployment are advocating their usage in variety of applications. Some of them are health monitoring, agriculture, environmental and habitant monitoring, and water monitoring. These nodes are autonomous in nature. It follows that they like to operate in a dynamic and adaptive network environment. So, the communication mechanism between IoT nodes must be robust and adaptive with respect to the environmental change. Unfortunately, the traditional networking architecture supports limited and fixed network computations. These limitations inhibit flexible and robust IoT nodes communication. In addition, the energy consumption in communication nodes is high due to limited processing. To address these issues, this paper gives rebirth to the active system. The proposed active network framework brings a novel integration of the active system with recent technologies (software-defined networking and network function virtualization). As a result of integration, the active system runs as a network function virtualization under the control of software-defined networking. In our view, the amalgam of recent technologies with the active system will promote a robust and flexible IoT nodes communication along with reduced energy consumption. Moreover, various design benefits such as security, flexibility, usability, cost, and performance will be added to the system. Additionally, the proposed framework is open and generalized. It can be extended to other networks such as mobile, satellite, and vehicular networks.
Highlights
This paper gives rebirth to the active system. e proposed active network framework brings a novel integration of the active system with recent technologies
As a result of integration, the active system runs as a network function virtualization under the control of softwarede ned networking
Is paper presents a high-level view of an active network architecture that is the novel integration of the active system with recent technologies, software-defined networking and network function virtualization
Summary
Most of the network functionality in traditional networking architecture is implemented in network hardware (switches, router, and rewall) so that the network functionality, network operating system, and API become part of a network device. Programmable networks in comparison with traditional networking architecture can enable a robust, reduced energy, and cost-e ective communication between IoT nodes. Instead of changing the active network architecture, it has to be integrated with recent technologies (SDN and NFV). Is paper presents a high-level view of an active network architecture that is the novel integration of the active system with recent technologies, software-defined networking and network function virtualization. Techniques have been proposed to integrate both the technologies software-defined networking and network function virtualization together [13, 14]. The system failure will not occur, in virtue of integrating SDN-enabled NFV with the active system In our belief, this technique will bring enormous advantages for today’s network, for enabling a robust and flexible IoT nodes communication. We concluded the discussion with highlighting some research challenges
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