Custom Query (1408 matches)

Demo Title: Edge Aware Inter-domain Routing (EIR) Designed for MobilityFirst FIA

One-sentence layman's description: This demo shows a working prototype of the Inter-domain Routing protocol designed for the Future Internet Architecture project MobilityFirst

Who should see this demo? Network and distributed systems researchers, service providers.

Demo description paragraph(s): In this demo we will highlight, the key features of Edge Aware Inter-domain Routing (EIR) used in the MobilityFirst Future Internet Architecture. EIR provides enhanced information about network topology and edge network properties through aggregated nodes (aNodes) and virtual links (vLinks) that enables ASes to optionally expose internal network topology and path quality metrics. Network state is disseminated through a telescopic link state protocol. Further, EIR is designed to work in conjunction with late binding of names to addresses and in-network storage in order to provide robust services in environments with dynamic mobility and disconnection.

More information on MobilityFirst FIA project can be found at ​http://mobilityfirst.winlab.rutgers.edu

List of equipment that will need AC connections (e.g. laptop, switch, monitor): 1 laptop, 1 monitor

Total number of wired network connections (sum standard IP and VLAN connections): None

Number of wired layer 2 VLANs (if any): Specify VLAN number, if known, approximate bandwidth, and whether tagged or untagged.

Number of wireless network connections (include required bandwidth if significant): 1

Number of static addresses needed (if any): None

Monitor (y/n, specify VGA or DVI): 1 VGA

Number of posters (max size poster boards are 30" x 40"): 1

Special requests: Be located next to the other MobilityFirst demos

Demo Title: MFTP: MobilityFirst Transport Protocol Implmentation

One-sentence layman's description: MobilityFirst Transport Protocol (MFTP)

Who should see this demo? Network and distributed systems researchers, service providers.

Demo description paragraph(s): We present the design of clean-slate transport layer protocols for the MobilityFirst (MF) future Internet architecture based on the concept of named objects. This protocols include four basic functions needed to constitute a flexible transport protocol for MF: (i) fragmentation and end-to-end re-sequencing; (ii) lightweight end-to-end error recovery with in-network transport proxies; (iii) optional flow and congestion control mechanisms; and (iv) scalable multicast delivery mechanisms. In the demo a prototype of the proposed MFTP protocol is compared with TCP/IP showcasing the performance gains that can be achieved.

More information on MobilityFirst FIA project can be found at ​http://mobilityfirst.winlab.rutgers.edu

List of equipment that will need AC connections (e.g. laptop, switch, monitor): 1 laptop, 1 monitor

Total number of wired network connections (sum standard IP and VLAN connections): None

Number of wired layer 2 VLANs (if any): Specify VLAN number, if known, approximate bandwidth, and whether tagged or untagged.

Number of wireless network connections (include required bandwidth if significant): 1

Number of static addresses needed (if any): None

Monitor (y/n, specify VGA or DVI): 1 VGA

Number of posters (max size poster boards are 30" x 40"): 1

Special requests: Be located next to the other MobilityFirst demos

Demo Title: Cloud Services Enhancements Through Application Specific Routing in MobilityFirst FIA

One-sentence layman's description: This demo aims to showcase how the name based network virtualization techniques implemented on top of the Future Internet Architecture MobilityFirst can enhance the performance of replicated cloud services.

Who should see this demo? Network and distributed systems researchers, service providers.

Demo description paragraph(s): Modern cloud services are usually geo-replicated across different geographic locations to service a geographically distributed user population. Given a geo-replicated service with replicas in different cloud locations, we exploit the characteristics of the name based Future Internet Architecture MobilityFirst to enhance the performance of these services and distribute the service load across different replicas. These enhancements are achived through the use of Application Specific Routing, a technique that uses network virtualization to apply application specific requirements to the routing logic. In this demo we will apply these concepts to a use case scenario using our prototype that run host and network resources on GENI (Rack nodes, I2 supported multi-site VLAN using AL2S, etc).

More information on MobilityFirst FIA project can be found at ​http://mobilityfirst.winlab.rutgers.edu

List of equipment that will need AC connections (e.g. laptop, switch, monitor): 1 laptop, 1 monitor

Total number of wired network connections (sum standard IP and VLAN connections): 1 connection to a GENI VLAN.

Number of wired layer 2 VLANs (if any): Layer2 connectivity to fia-mobilityfirst VLAN.

Number of wireless network connections (include required bandwidth if significant): 1

Number of static addresses needed (if any): None

Monitor (y/n, specify VGA or DVI): 1 VGA

Number of posters (max size poster boards are 30" x 40"): 1

Special requests: Be located next to the other MobilityFirst demos