The work has been published on The 1st International Conference on Science, Technology, and Interdisciplinary Research, September 21 – 23, 2015, Bandar Lampung, Indonesia
Preparation Guide for Poster
Affiliation
logo
First Author1,2, Second Author1, and Third Author2
1Author’s
affiliation, Name of Institution, Country
2 1Author’s affiliation, Name of Institution, Country
email: firstauthor@xxx.xxx, secondauthor@xxx.xxx, thirdauthor@xxx.xxx
Abstract – The abstract goes here. The length of the abstract do not exceed 150 words.
FIGURES AND TABLES
 Core network interface: GAN,
SIP, 3GPP luh and IMS;
 Broadband security: IPSec;
 Device security &
authentication: Certificate or
SIM;
 Remote device management:
DSL Forum TR-069.
DSL connection
11 U
FAP 1
3G Mobile Core
Network
DSL connection
1
2
3
4
5
6
7
*
8
0
9
#
3G phone
FAP 2
Keywords—put the important keyword here
1
2
3
4
5
6
7
*
8
0
9
#
Standard IP conn.
3G phone
INTRODUCTION
IMS Core
IP conn.
SIP Registrar/SIP Proxy
(OpenIMSCore)
FAP#1
Heading:
1
2
3
4
5
6
7
*
8
0
9
#
Broadband access
AT#1
• Put your text here,
11 U
Internet
• Put your text here
− Please use the template format for
reference[1],
LAN/WLAN/HSPA
AAA Server
Mobile Core Network
IxChariot(client manager/
test tool)/Wireshark(packet
analyser)
Femto Gateway
Broadband access
Iu interface/IP
FAP#2
• Put your text here [2][3]
1
2
3
4
5
6
7
*
8
0
9
#
IMS Core
AT#2
− Put your text here
IP conn.
SIP Registrar/SIP Proxy
(OpenIMS)
Fig. 2. Caption
Table 1 Table Caption
Node
Citation:
Equation:
• Equations are created
equation environment
using traditional
• Citations are made as: [1], [4]–[6],
• ,
Specification
 GSM/GPRS/EDGE 850/900/1800/1900
F-UE
MHz;
 UMTS/HSPA 2100 MHz
Fig. Caption
• Please refer to equations, tables, and figures
as follows (Fig. 1),
DSL
FAP
 Energy consumption <5W;
 UMTS operating and network listen bands:
Band I (2100), Band II (1900), Band V
(850);
 GSM network listen bands: Band III (1800)
& Band VIII (900);
 Maximum transmit power: UMTS +10
dBm];
 Interference management: Fully automatic:
real-time cognitive radio;
 HSPA performance: Up to 14.4Mbps
downlink & 5.7Mbps uplink;
FGW
IMS
Client
Manager
Generated
Traffic
 Application Layer: DHCP,
DNS (Proxy), HTTP, RTP,
Passes UPnP;
 Application Gateway Details:
FTP (TCP: 20, 21), PPTP
(TCP: 1723), PPTP_TUNNEL
(GRE: 0)
 Transport Layer: RSVP, TCP,
UDPv4, UDPv6;
 Network Layer: ARP, ICMP,
IGMP, IPv4, IPv6, IPv6
client/server/relay, IP
fragmentation and reassembly,
NAT/PAT, RT QoS;
 Data Link Layer: ATM (8
PVCs), QoS on ATM, Bridging,
PPP, IPSec & VPN, Passthrough, Static, Routing, PPTP
Port Forwarding, 802.1d,
Spanning tree;
 Physical Layer:
Ethernet:10BaseT/100BaseT
 Strong Swan
 OpenIMS (SIP registrar/SIP
proxy/HSS)
 AAA Radius server
 IxChariot traffic generator
 Wireshark packet analyser
 SIP, UDP, TCP, HTTP, RTP
METHODS or SCENARIOS
RESULTS
Including:
• the analysis of session establishment during registration and call setup process
• the evaluation of network performance characteristic
• the measurements of generated traffics, jitter, and max delta, during a call session establishment
IMS SIGNALLING ANALYSIS
F-UE1
F-UE2
FAP#1
FAP#2
FAP#1
acquisition
FAP#2
acquisition
FGW
SIP Service
(P/I/S-CSCF
AAA
P
I
IPSec establishment based on IKEv2
(IP#2 assignment)
F-UE1
booting
SIP REGISTER (For F-UE1, Contact IP#1)
200 OK
F-UE2
booting
Stage-3: SIP registration procedure;
the registration procedure in IMS starts
with the SIP REGISTER message
request is being sent to the P-CSCF by
the UE,
F-UE2 attach procedure (wireless link establishment)
SIP REGISTER (For F-UE2, Contact IP#2)
200 OK
Call
F-UE2
SIP INVITE (To F-UE2, SDP: IP#1, Port#1
180 Ringing
Ringing
Call response
Fig. 5. Caption
Stage-4: SIP invitation procedure;
originating F-UE1 generates a SIP
INVITE request and sends it to the PCSCF,
Call request (To F-UE2)
SIP invitation procedure
Fig. 4. Caption
Stage-2: F-UE attach; The Attach
Request message is send by the F-UE
to the FAP,
F-UE1 attach procedure (wireless link establishment)
Call request (To F-UE2)
S
Stage-1: FAP acquisition; the both
FAPs are switched on, and then
conduct the registration and acquisition
procedures,
IPSec establishment based on IKEv2 (IP#1 assignment)
SIP registration procedure
Proposed signalling procedure:
200OK (SDP: IP#1, Port#1, IP#2, Port#2)
200OK (SDP: IP#1, Port#1, IP#2, Port#2)
Call response
Stage-5: Media transfer; upon
completed the session establishment
procedure, both F-UE1 and F-UE2 can
start the communication using the
assigned transfer and communication
protocols.
ACK
ACK
Media data (IP#1, Port#1, IP#2, Port#2)
Media data exchanged (e.g., voice call)
Fig. 6. Example of jitter charateristic; forward stream(F-UE1 to F-UE2), reverse stream (F-UE2 to F-UE1)
Fig. 3. Caption
CONCLUSIONS
References:
[1]
[2]
[3]
[4]
[5]
[6]
ETSI TS 25.467 v8.6.0, Release 8, “UTRAN Architecture for 3G Home Node
B (HNB)”, 2011-01.
ETSI TS 23.228 v5.5.0, Release 5, “UMTS, IP Multimedia Subsystem
(IMS),” Stage 2, 2002-06.
ETSI TS 123.228 v6.16.0, Release 6, “Technical Specification Group
Services and System Aspects; IP Multimedia Subsystem (IMS); Stage 2.”,
2007-03.
T. Chiba and H. Yokota, ”Efficient Route Optimization Methods for
Femtocell-based All IP Networks”, Proc. IEEE Int. Conference on Wireless
and Mobile Computing, Networking and Communications, 2009, pp. 221226, 12-14 Oct. 2009.
Y. Im, H. Jung, J.H. Lee, W. Yoon, T. Kwon, Y. Choi, “Vertical handovers in
Multiple Heteregeneous Wireless Networks: A Measurement Study for
the Future Internet”, in proceeding of International Conference on Future
Internet Technologies (CFI), Seoul, Korea, 2010
H.Jung, et.al., “A Femtocell-based testbed for Evaluating Future Cellular
Network”, in proceeding of International Conference on Future Internet
Tchnologies (CFI), 2008. Korea.
[6]
[7]
[8]
[9]
[10]
[11]
[12]
[13]
[14]
H.Jung, et.al., “A Femtocell-based testbed for Evaluating Future Cellular
Network”, in proceeding of International Conference on Future Internet
Tchnologies (CFI), 2008. Korea.
Ulvan, M., Bestak, R., Ulvan. A. “The Study of IMS Functionality in
Femtocell Environment”, in 2009 IEEE 9th Malaysia International
Conference on Communications (MICC 2009). Kuala Lumpur, Malaysia,
pp. 512-517, DOI: 10.1109/MICC.2009.5431608. 2009.
Ulvan, M., Bestak, R., Ulvan, A., “IMS Signalling in LTE-Based Femtocell
Network”, in NextTech 2010, Silicon Valley: International Academy,
Research and Industry Association (IARIA), 2010, p. 213-218. ISBN: 978-161208-000-0.
ETSI TS 24.229 v5.2.5, Release 5,”IP Multimedia Call Control Protocol
based on SIP and SDP; Stage 3”, 2011-10.
StrongSwan, http://www.strongswan.org/
FreeRADIUS, http://freeradius.org/
OpenIMS, http://www.openimscore.org/
Wireshark Packet Analyser, http://www.wireshark.org/
Ulvan, M., Ulvan. A., Bestak, R.” Network Entry Procedure in LTE-based
Femtocell Network”, In 2010 Networking and Electronic Commerce
Research Conference (NAEC 2010). Riva del Garda, Italy, 2010
• Put your text here
• Put your text here
• Put your text here
Future Works
• Put your text here
Acknowledgment: Write any necessary acknowledgement here.