583 research outputs found
Names, addresses and identities in ambient networks
Ambient Networks interconnect independent realms that may use different local network technologies and may belong to different administrative or legal entities. At the core of these advanced internetworking concepts is a flexible naming architecture based on dynamic indirections between names, addresses and identities. This paper gives an overview of the connectivity abstractions of Ambient Networks and then describes its naming architecture in detail, comparing and contrasting them to other related next-generation network architectures
Internames: a name-to-name principle for the future Internet
We propose Internames, an architectural framework in which names are used to
identify all entities involved in communication: contents, users, devices,
logical as well as physical points involved in the communication, and services.
By not having a static binding between the name of a communication entity and
its current location, we allow entities to be mobile, enable them to be reached
by any of a number of basic communication primitives, enable communication to
span networks with different technologies and allow for disconnected operation.
Furthermore, with the ability to communicate between names, the communication
path can be dynamically bound to any of a number of end-points, and the
end-points themselves could change as needed. A key benefit of our architecture
is its ability to accommodate gradual migration from the current IP
infrastructure to a future that may be a ubiquitous Information Centric
Network. Basic building blocks of Internames are: i) a name-based Application
Programming Interface; ii) a separation of identifiers (names) and locators;
iii) a powerful Name Resolution Service (NRS) that dynamically maps names to
locators, as a function of time/location/context/service; iv) a built-in
capacity of evolution, allowing a transparent migration from current networks
and the ability to include as particular cases current specific architectures.
To achieve this vision, shared by many other researchers, we exploit and expand
on Information Centric Networking principles, extending ICN functionality
beyond content retrieval, easing send-to-name and push services, and allowing
to use names also to route data in the return path. A key role in this
architecture is played by the NRS, which allows for the co-existence of
multiple network "realms", including current IP and non-IP networks, glued
together by a name-to-name overarching communication primitive.Comment: 6 page
Location and routing optimization protocols supporting internet host mobility
PhD ThesisWith the popularity of portable computers and the proliferation of wireless networking
interfaces, there is currently a great deal of interest in providing IP networking
support for host mobility using the Internet as a foundation for wireless
networking. Most proposed solutions depend on a default route through the mobile
host's horne address, which makes for unnecessarily long routes. The major
problem that this gives rise to is that of finding an efficient way of locating and
routing that allows datagrams to be delivered efficiently to moving destinations
whilst limiting costly Internet-wide location updates as much as possible.
Two concepts - "local region" and "patron service" - are introduced based on
the locality features of the host movement and packet traffic patterns. For each
mobile host, the local region is a set of designated subnetworks within which a
mobile host often moves, and the patrons are the hosts from which the majority of
traffic for the mobile host originated. By making use of the hierarchical addressing
and routing structure of Internet, the two concepts are used to confine the effects
of a host moving, so location updates are sent only to a designated host moving
area and to those hosts which are most likely to call again, thus providing nearly
optimal routing for most communication.
The proposed scheme was implemented as an IP extension using a network simulator
and evaluated from a system performance point of view. The results show a
significant reduction in the accumulated communication time along with improved
datagram tunneling, as compared with its extra location overhead. In addition,
a comparison with another scheme shows that our functionality is more effective
both for location update and routing efficiency. The scheme offers improved network
and host scalability by isolating local movement from the rest of the world,
and provides a convenient point at which to perform administration functions
A survey of application-level multicast group communication and a proposal for intelligent reflectors
The article proposes the state of the art in techniques and models designed to solve issues in application-layer IP multicast. Specifically, the issue of group communication for distributing video flows using reflectors to participants at a videoconference is considered. A proposed solution is introduced, involving an algorithm capable of dynamically discovering the appropriate reflector to meet a given client’s needs. Simulations results show the efficiency of using reflectors in this type of application.5th IFIP International Conference on Network Control & Engineering for QoS, Security and MobilityRed de Universidades con Carreras en Informática (RedUNCI
- …