68,956 research outputs found
Software Defined Media: Virtualization of Audio-Visual Services
Internet-native audio-visual services are witnessing rapid development. Among
these services, object-based audio-visual services are gaining importance. In
2014, we established the Software Defined Media (SDM) consortium to target new
research areas and markets involving object-based digital media and
Internet-by-design audio-visual environments. In this paper, we introduce the
SDM architecture that virtualizes networked audio-visual services along with
the development of smart buildings and smart cities using Internet of Things
(IoT) devices and smart building facilities. Moreover, we design the SDM
architecture as a layered architecture to promote the development of innovative
applications on the basis of rapid advancements in software-defined networking
(SDN). Then, we implement a prototype system based on the architecture, present
the system at an exhibition, and provide it as an SDM API to application
developers at hackathons. Various types of applications are developed using the
API at these events. An evaluation of SDM API access shows that the prototype
SDM platform effectively provides 3D audio reproducibility and interactiveness
for SDM applications.Comment: IEEE International Conference on Communications (ICC2017), Paris,
France, 21-25 May 201
A software-defined architecture for next-generation cellular networks
In the recent years, mobile cellular networks are undergoing fundamental changes and many established concepts are being revisited. New emerging paradigms, such as Software-Defined Networking (SDN), Mobile Cloud Computing (MCC), Network Function Virtualization (NFV), Internet of Things (IoT),and Mobile Social Networking (MSN), bring challenges in the design of cellular networks architectures. Current Long-Term Evolution (LTE) networks are not able to accommodate these new trends in a scalable and efficient way. In this paper, first we discuss the limitations of the current LTE architecture. Second, driven by the new communication needs and by the advances in aforementioned areas, we propose a new architecture for next generation cellular networks. Some of its characteristics include support for distributed content routing, Heterogeneous Networks(HetNets) and multiple Radio Access Technologies (RATs). Finally, we present simulation results which show that significant backhaul traffic savings can be achieved by implementing caching and routing functions at the network edge
Toward a programmable software-defined IoT architecture for sensor service provision on demand
© 2017 IEEE. In the age of Internet of Things (IoT), sensors form a foundational component of IoT services, yet they are rigid with little capability for programmable configuration or reusability as they are application-specific, manufacturer-specific. Emerging IoT applications often deploy a vast number of sensors which may serve multiple applications. Programmability is thus essential but not found in legacy or current generation sensors. It is challenging to effectively utilize heterogeneity of resources to handle a large number of application demands. Software Defined Networking (SDN) and Network Function Virtualization (NFV) have proved effective paradigms for provisioning services on-demand and managing network functions and their life cycles. This paper proposes a software defined IoT architecture that captures the spirit of SDN and NFV where a software-defined Internet of Things (SD-IoT) controller can provide services as requested by an application and also manage heterogeneous physical sensors through their virtual representation called software-defined virtual sensor (SD-VSensor) autonomously. In particular, the paper presents the design of a streamline SD-IoT controller, a lightweight and reconfigurable SD-VSensor, and the communication protocol (S-MANAGE) between them. The proposed architecture enables heterogeneous application-specific WSN systems to be recognized and effectively utilized by diverse IoT applications under the orchestration of the SD-IoT controller. Moreover, heterogeneity of sensor nodes or IoT devices can be programmed to achieve sensor services on demand. The preliminary implementation results demonstrate the feasibility and efficiency of the proposed architecture
A System Architecture for Software-Defined Industrial Internet of Things
Wireless sensor networks have been a driving force of the Industrial Internet
of Things (IIoT) advancement in the process control and manufacturing industry.
The emergence of IIoT opens great potential for the ubiquitous field device
connectivity and manageability with an integrated and standardized architecture
from low-level device operations to high-level data-centric application
interactions. This technological development requires software definability in
the key architectural elements of IIoT, including wireless field devices, IIoT
gateways, network infrastructure, and IIoT sensor cloud services. In this
paper, a novel software-defined IIoT (SD-IIoT) is proposed in order to solve
essential challenges in a holistic IIoT system, such as reliability, security,
timeliness scalability, and quality of service (QoS). A new IIoT system
architecture is proposed based on the latest networking technologies such as
WirelessHART, WebSocket, IETF constrained application protocol (CoAP) and
software-defined networking (SDN). A new scheme based on CoAP and SDN is
proposed to solve the QoS issues. Computer experiments in a case study are
implemented to show the effectiveness of the proposed system architecture.Comment: To be published by IEEE ICUWB-201
SDN based architecture for IoT and improvement of the security
—With the exponential growth of devices connected to the Internet, security networks as one of the hardest challenge
for network managers. Maintaining and securing such large scale and heterogeneous network is a challenging task. In this context, the new networking paradigm, the Software Defined Networking (SDN), introduces many opportunities and provides
the potential to overcome those challenges. In this article, we first present a new SDN based architecture for networking with
or without infrastructure, that we call an SDN domain. A single domain includes wired network, wireless network and Ad-Hoc
networks. Next, we propose a second architecture to include sensor networks in an SDN-based network and in a domain.
Third, we interconnect multiple domains and we describe how we can enhanced the security of each domain and how to distribute
the security rules in order not to compromise the security of one domain. Finally, we propose a new secure and distributed
architecture for IoT (Internet of Things).—With the exponential growth of devices connected to the Internet, security networks as one of the hardest challenge
for network managers. Maintaining and securing such large scale and heterogeneous network is a challenging task. In this context, the new networking paradigm, the Software Defined Networking (SDN), introduces many opportunities and provides
the potential to overcome those challenges. In this article, we first present a new SDN based architecture for networking with
or without infrastructure, that we call an SDN domain. A single domain includes wired network, wireless network and Ad-Hoc
networks. Next, we propose a second architecture to include sensor networks in an SDN-based network and in a domain.
Third, we interconnect multiple domains and we describe how we can enhanced the security of each domain and how to distribute
the security rules in order not to compromise the security of one domain. Finally, we propose a new secure and distributed
architecture for IoT (Internet of Things)
International Workshop on Big Data and Data Mining Challenges on IoT and Pervasive Systems (BigD2M 2015)
We explain the notion of security architecture for Internet of Things (IoT) based on software-defined networking (SDN). In this
context, the SDN-based architecture works with or without infrastructure, that we call SDN-Domain. This work describes the
operation of the proposed architecture and summarizes the opportunity to achieve network security in a more efficient and flexible
with SDN. An overview of existing SDN security applications were discussed and tackles its issues, presenting a new IoT system’s architecture. In this paper we considered the network access control and global traffic monitoring for ad-hoc networks. Finally, we point out architectural design choices for SDN using OpenFlow and discuss their performance implications.We explain the notion of security architecture for Internet of Things (IoT) based on software-defined networking (SDN). In this
context, the SDN-based architecture works with or without infrastructure, that we call SDN-Domain. This work describes the
operation of the proposed architecture and summarizes the opportunity to achieve network security in a more efficient and flexible
with SDN. An overview of existing SDN security applications were discussed and tackles its issues, presenting a new IoT system’s architecture. In this paper we considered the network access control and global traffic monitoring for ad-hoc networks. Finally, we point out architectural design choices for SDN using OpenFlow and discuss their performance implications
An Open Internet of Things System Architecture Based on Software-Defined Device
The file attached to this record is the author's final peer reviewed version. The Publisher's final version can be found by following the DOI link.The Internet of Things(IoT) connects more and more devices and supports an ever-growing diversity of applications. The heterogeneity of the cross-industry and cross-platform device resources is one of the main challenges to realize the unified management and information sharing, ultimately the large-scale uptake of the IoT. Inspired by software-defined networking(SDN), we propose the concept of software-defined device(SDD) and further elaborate its definition and operational mechanism from the perspective of cyber-physical mapping. Based on the device-as-a-software concept, we develop an open Internet of Things system architecture which decouples upper-level applications from the underlying physical devices through the SDD mechanism. A logically centralized controller is designed to conveniently manage physical devices and flexibly provide the device discovery service and the device control interfaces for various application requests. We also describe an application use scenario which illustrates that the SDD-based system architecture can implement the unified management, sharing, reusing, recombining and modular customization of device resources in multiple applications, and the ubiquitous IoT applications can be interconnected and intercommunicated on the shared physical devices
Software defined fog platform
In recent years, the number of end users connected to the internet of things (IoT) has increased, and we have witnessed the emergence of the cloud computing paradigm. These users utilize network resources to meet their quality of service (QoS) requirements, but traditional networks are not configured to backing maximum of scalability, real-time data transfer, and dynamism, resulting in numerous challenges. This research presents a new platform of IoT architecture that adds the benefits of two new technologies: software-defined networking and fog paradigm. Software-defined networking (SDN) refers to a centralized control layer of the network that enables sophisticated methods for traffic control and resource allocation. So, fog paradigm allows for data to be analyzed and managed at the edge of the network, making it suitable for tasks that require low and predictable delay. Thus, this research provides an in-depth view of the platform organize and performance of its base ingredients, as well as the potential uses of the suggested platform in various applications
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