Acetate Revisited: A Key Biomolecule at the Nexus of Metabolism, Epigenetics and Oncogenesis—Part 1: Acetyl-CoA, Acetogenesis and Acyl-CoA Short-Chain Synthetases

In this paper, we propose a solution to delegate the control and the management of the network connecting the many devices of a smart environment to a software entity, while keeping end-users in control of what is happening in their networks. For this, we rely on the logical manipulation of all connected devices through device abstraction and network programmability. Applying Software Defined Networking (SDN) principles, we propose a software-based solution that we call Software-Defined LANs in order to interconnect devices of smart environments according to the services the users are requesting or expecting. We define the adequate virtualization framework based on Virtual Objects and Communities of Virtual Objects. Using these virtual entities, we apply the SDN architectural principles to define a generic architecture that can be applied to any smart environment. Then we describe a prototype implementing these concepts in the home networking context, through a scenario in which users of two different homes can easily interconnect two private but shareable DLNA devices in a dedicated videodelivery SD-LAN. Finally we provide a discussion of the benefits and challenges of our approach regarding the generalization of SDN principles, autonomic features, Internet of Things scalability, security and privacy aspects enabled by SD-LANs intrinsic properties. 27th International Teletraffic Congress978-1-4673-8422-3/15 $31.00

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Future Spaces: Reinventing the Home Network for Better Security and Automation in the IoT Era

Boussard

Bui

Douville

et al. 2018

Sensors

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Cyber-Physical Systems (CPSs) are complex systems comprising computation, physical, and networking assets. Used in various domains such as manufacturing, agriculture, vehicles, etc., they blend the control of the virtual and physical worlds. Smart homes are a peculiar type of CPS where the local networking fundamentals have seen little evolution in the past decades, while the context in which home networks operate has drastically evolved. With the advent of the Internet of Things (IoT), the number and diversity of devices connected to our home networks are exploding. Some of those devices are poorly secured and put users’ data privacy and security at risk. At the same time, administrating a home network has remained a tedious chore, requiring skills from un-savvy users. We present Future Spaces, an end-to-end hardware-software prototype providing fine-grained control over IoT connectivity to enable easy and secure management of smart homes. Relying on Software-Defined Networking-enabled home gateways and the virtualization of network functions in the cloud, we achieve advanced networking security and automation through the definition of isolated, usage-oriented slices. This disrupts how users discover, control and share their connected assets across multiple domains, smoothly adapting to various usage contexts.

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Packet delay variation management for a better IEEE1588V2 performance

Bui¹,

Dupas²,

Pallec³

2009

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The Majord'Home: a SDN approach to let isps manage and extend their customers'home networks

Boussard¹,

Bui²,

Douville³

et al. 2014

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As the number and variety of connected devices increase, most end-users find themselves unable to manage their home networks properly, not having enough time and/or knowledge to do so. In this paper, we propose a new approach to remove this burden from them, by fully virtualizing the home network and delegating its management and operations to the ISP, while keeping end-users in control. We furthermore define the architecture of our software-based Majord'Home solution. Acting as a majordomo of the home, it handles a representation of the home objects and network constraints, automates the connectivity between heterogeneous elements and thus meets the needs of end-users. We finally describe the first version of our on-going implementation as a proof of concept.

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Towards end-to-end application slicing in Multi-access Edge Computing systems: Architecture discussion and proof-of-concept

Bolettieri

Bui

Bruno

2022

Future Generation Computer Systems

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Dinh Thai Bui

Software-Defined LANs for Interconnected Smart Environment

Future Spaces: Reinventing the Home Network for Better Security and Automation in the IoT Era

Packet delay variation management for a better IEEE1588V2 performance

The Majord'Home: a SDN approach to let isps manage and extend their customers'home networks

Towards end-to-end application slicing in Multi-access Edge Computing systems: Architecture discussion and proof-of-concept

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