Demo Abstracts
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"SAVAH: an architecture for validating source IP addresses" (HIIT)

Abstract:
SAVAH (Source Address Validation Architecture with Host Identity
Protocol) can be utilized in access control and AAA systems to validate
source IP addresses of the clients connecting to a network. The
architecture is implemented on a first-hop router, in our case on a
Wi-Fi access point Gateworks Avila GW2348-4. We demonstrate different
possible scenarios including: a) validating the source IP address;
b) rejecting connection if IP spoofing was detected; c) client 
registration via a web interface in order to get access.

More information:  dmitriy.kuptsov@hiit.fi



"Distributed Mobility and Resource Management" (VTT)

Abstract:
This prototype implementation is a proof of concept demo that shows the 
main elements of Distributed Control and Management Framework (DCMF) 
developed in WISEciti project workpackages 3 and 4. The demo shows how 
the mobile user can benefit from the distributed mobility management and 
gain a better user experience while using services like video streaming. 
Demonstration shows also how network side information and resource 
management can be used for intelligent mobility management and to 
control the mobile clients and their use of the available access 
networks.

More information: jukka.makela@vtt.fi



"Mobile Videostreaming" (Arcada)

Abstract:
It is shown using a mobile notebook PC that a video stream received from
a network source
- is terminated in the current Internet (= a standard TCP/IP network)
- continues uninterrupted in a HIP based Internet (= a HIP based TCP/IP
  network)
when the network attachment (and IP adress) changes from a wired LAN
connection to a wireless WLAN connection.

More information: goran.pulkkis@arcada.fi



"HIP Animation" (Arcada)

Abstract:
"HIP animation" is a learning object, which can be integrated in virtual
network courses as well as in traditional network courses. The
chosen didactical approach is a structured animated network environment
in which the communication between an Initiator and a Responder can
be studied. The objective is to understand the HIP architecture, the
Base Exchange, mobility and multi-homing, and the combination of HIP
and ESP. The communication logistics for all options of the HIP can be
studied on the highest level. Communication details, like the data
packet header fields, can be interactively studied on lower levels of
the animated environment.

More information: goran.pulkkis@arcada.fi



"HIP Proxy: Multiaccess Mobility for Legacy Terminals and Subnetworks" (Ericsson)

Abstract:
The demo will give hands-on experience on using HIP proxy enabled
multiaccess mobile network with legacy terminals and applications.
Audience will be able to make VoIP calls and move around initiating
seamless handovers between different access networks." (Ericcson)

More information: jan.melen@ericsson.com



"Case study: Ämppäri" (PM&RG)

Abstract:
The experimentation investigates the delay experienced by the 
application streaming audio over TCP/IP when an uninformed LAN to WLAN 
vertical handover occurs.

More information:  pmrg-assari@cs.hut.fi