430 | | We present the design of clean-slate transport layer protocols for the FIA ==== |
| 430 | We present the design of clean-slate transport layer protocols for the !MobilityFirst (MF) future Internet architecture based on the concept of named objects. |
| 431 | |
| 432 | This protocol includes four basic functions needed to constitute a flexible transport protocol for MF: |
| 433 | (i) fragmentation and end-to-end re-sequencing; |
| 434 | (ii) lightweight end-to-end error recovery with in-network transport proxies; |
| 435 | (iii) optional flow and congestion control mechanisms; |
| 436 | (iv) scalable multicast delivery mechanisms. |
| 437 | |
| 438 | In the demo a prototype of the proposed MFTP protocol is compared with TCP/IP showcasing the performance gains that can be achieved. |
| 439 | |
| 440 | Participants: |
| 441 | * Wireless Information Network Laboratory (WINLAB) at Rutgers University |
| 442 | * Franceso Bronzino, bronzino@winlab.rutgers.edu |
| 443 | * Ivan Seskar, seskar@winlab.rutgers.edu |
| 444 | * Kai Su, kais@winlab.rutgers.edu |
| 445 | |
| 446 | ==== Edge Aware Inter-domain Routing (EIR) Designed for !MobilityFirst FIA ==== |