|
|
AAA 2-12
billing/settlement 4-6
defined 1-2
for interdomain calls 4-6
RADIUS and Clarent 7-6
server 1-2
usage records 2-10
number 6-2
numbers and PC users 6-3
token 4-9
DHCP 4-9
for intradomain calls 4-9
OSP server 2-7
storage on TFTP server 2-5
AAA 1-2
and intercarrier call authorization 1-3
Ecosystem Partners 1-3
AIN triggering 2-8
API 1-3
functional areas (figure) 2-1, 2-2
interconnection types 2-1
ARJ 5-3
ARP 4-6
ASP 1-5
ASP-to-ASP interconnect 2-16
ASP-to-ITSP interconnect 2-16
ASP-to-IXC interconnect 2-15
ASP-to-LEC interconnect 2-15
audio files 2-4
and loss of fax tones with two back-to-back GWs 2-10
and QoS for voice with two back-to-back GWs 2-10
billing/settlement 5-5
DGK-based interconnect 2-4
dial plan 2-10
fault tolerance 2-11
ingress and egress carrier (figure) 2-9
IVR 2-9
modem passthrough 2-10
network management 2-11
obscuring information 5-4
OSP 7-3
relationship to wholesaler and carries (figure) 2-10
SS7 POP 2-9
TFTP server 2-11
usage records 2-10
POP size 2-6
Belle Systems 3-6
benefits 1-2
BHCA 2-3
AAA based 6-2, 6-3, 6-4, 7-3, 7-4
back-to-back GW 2-11
between OSP providers 7-4
billing server 1-2
billing system front-ending 3-7
non-SS7 POP 2-7
OSP server 2-4
settlement 3-7
usage records 2-4
black listing 2-8
branding 6-3
and local languages 6-3
BRI 2-6
authorization 3-9
call control and SS7 POP 2-8
interdomain and security 4-9
international 1-5
routing and DGK 4-6
routing table 4-5
routing and OSP 4-6
topology 1-2
call admission/blocking 3-4
for international calls (figure) 1-6
prepaid and postpaid 1-5
call routing 3-4
destination E.164 addresses 3-4
DGK 4-6
dial plan 2-5
least cost 1-2
OSP 4-6
billing/settlement 4-6
introduced 1-2
service provider interconnect 2-11
topology 1, originating TDM/terminating TDM 2-13
topology 1, originating TDM/terminating TDM (figure) 2-13
topology 2, originating TDM/terminating IP (figure) 2-14
topology 3, originating IP/terminating TDM (figure) 2-15
topology 4, originating IP/terminating IP (transit VoIP network) (figure) 2-16
and OSP server 3-9
collection 3-9
correlation 3-9
correlation and settlement 3-9
reports 3-4
usage indicators 3-9
certificates 3-8
China TUP 3-3
Cisco 2600 3-2
Cisco 3600 series 2-6, 3-2, 3-3
Cisco 3620 3-3
Cisco 3640 3-3
Cisco AS5300 series 2-8
Cisco AS5350 2-6, 2-10, 3-2, 3-3
Cisco AS5400 2-6, 2-10, 3-2, 3-3
Cisco AS5800 2-6
Cisco Ecosystem Partners 1-3
URL 3-8
Cisco H.323 directory gatekeepers (DGKs) 3-2
Cisco H.323 gatekeepers (GKs) 3-2
Cisco Info Center (CIC) 2-4, 3-10
and fault management 2-5
Cisco Internetwork Performance Monitor (IPM)
and QoS 2-5
Cisco IPM 2-5
Cisco New World Ecosystem 3-8
Cisco SC2200 2-8, 3-2, 3-3, 3-5
in SS7-based POP 2-8
Cisco SC2200 node 2-8
Cisco signaling controllers 3-2
Cisco SS7 Interconnect for Voice Gateways 2-8, 3-5, 4-7
Cisco SS7 Interconnect for Voice Gateways 1.1 3-3
Cisco SS7 signaling link termination (SLT) systems 3-2
Cisco voice gateways (GWs) 3-2
Cisco Voice Manager (CVM) 2-4, 3-9, 3-10
and reports 2-5
and SNMP 2-5
CiscoWorks2000 2-4
CiscoWorks Internet Protocol Manager (IPM) 3-10
Command Center 7-6
OSP 4-6
CLI 4-10
G.711 7-5
G.723.1 7-5
G.729 7-5
transport options 2-12
additional (third-party) for shared services (table) 3-5
major (Cisco) components (table) 3-1
third party (shared services) components (table) 3-5
compression 1-1
configurations 2-5
call routing 4-5
DGK 4-8
example 5-3
CSR 2-12
(figure) 7-1
limited, RADIUS based 2-13
CSR (limited egress) 1-7
CVM 3-9
prompt 3-9
debit card 3-7
considerations 2-2
dial peers with identical pattern 5-3
GK 4-8
LRQ route statements 7-5
DGK 4-5
HSRP pair 4-9
DGK peering 7-3
DHCP 4-9
single stage 2-9
two-stage 6-1
dial plan 5-3
failover 4-7
administration 2-2
back-to-back GW 2-10
dial peer 5-3
distribution of responsibilities 4-7
H.323 7-5
local, national, international 1-3
non-SS7 POP 2-7
scaling 2-3
single-stage dialing 5-3
SS7-based POP 2-8
two-stage dialing 6-1
prefixing and stripping 4-8
directory gatekeeper (DGK) 2-2, 2-4
organization x
related documents xi
download 2-5
DRQ 4-7
DS1/DS3 2-6
E&M 2-6
E.164 address 3-4
Ecosystem Partner H.323 GK 3-5
Ecosystem Partners 1-3
CSR 1-7
egress CSR (figure) 7-1
Cisco Voice Manager 3-9
enhanced services over IP 1-1
ETSI TIPHON A-2
(figure) 4-8
dial peer 4-4
example 4-9
H.323 fault tolerance in GWs 2-9
HSRP 4-9
rotary dial peers 4-7
through dial peer provisioning 5-3
alternate GK 2-7
back-to-back GW 2-11
H.323 based 6-1
for intradomain calls and DGK-based IP interconnects 4-8
in simple carrier-interconnect scenarios
H.323 based 5-1
non-SS7 POP 2-7
registration 2-7
SS7 POP 2-9
(figure) 4-8
features 1-2
fault-tolerant architecture using alternate GKs 4-8
functional areas of the Cisco Wholesale Voice Solution 2-2
high-level view of end-to-end service possibilities 1-4
limited egress CSR using sequential LRQs 7-1
non-SS7-based POP signaling 2-6
originating IP/terminating IP 2-15
originating IP/terminating IP (transit VoIP network) 2-16
originating TDM/terminating TDM 2-13, 2-14
OSP-based interconnect with other service partners 4-5
possible interconnect scenarios 1-2
providing calling-card services for international calls 1-6
relationship of the back-to-back GW to wholesaler and carriers 2-10
role of DGK and GKs in the gatekeeper core 2-3
SS7-based POP signaling 2-8
steps in designing a solution 4-1
typical large-scale H.323 network design 4-7
front ending 3-7
functional areas (figure) 2-1
FXO 2-6
FXO/FXS 2-6
G.711 7-5
G.723.1 7-5
G.729 7-5
application servers 3-5
core (figure) 2-2
gatekeeper core (figure) 2-3
GK application server 3-5
GKRCS 5-2
and application servers 3-4
call routing 2-5
interface specification 3-8
gw-priority 6-2
billing/settlement 4-6
call-signaling path 4-6
access token 4-9
OSP tokens 5-4
security 4-9
and GKs 3-7
Clarent clearinghouse 7-5
architecture (figure) 4-7
interconnect to Clarent-based clearinghouse 7-5
SC2200 2-9
gateway 3-4
GK 1-3
GKs and DGKs 3-4
large-scale network design 4-7
large-scale network design (figure) 4-7
network 2-2
SETUP message 5-2
VoIP interconnect 1-5
Ecosystem Partner 3-5
hopoff 6-1
hopoff zone 7-2
HP OpenView 2-5
DGK pair 4-9
failover and fault tolerance 4-9
fault tolerance 2-4
SS7 POP 2-8
ASP to ASP 2-16
ASP to ITSP 2-16
ASP to IXC 2-15
ASP to LEC 2-15
call topologies 2-11
carrier interconnect scenarios 2-12
IP interconnect variations 4-3
IP to IP with DGK 2-17
IP to IP with OSP 2-17
ITSP to ASP 2-16
ITSP to ITSP 2-16
ITSP to IXC 2-15
ITSP to LEC 2-15
IXC to ASP 2-14
IXC to ITSP 2-14
IXC to IXC 2-13
LEC to ASP 2-14
LEC to ITSP 2-14
LEC to LEC 2-13
OSP based 4-4
OSP based, with other service partners (figure) 4-5
scenarios (figure) 1-2
TDM to IP with DGK 2-17
TDM to IP with OSP 2-17
See interconnect 2-1
interconnect zone 5-3
analog E&M WIC 3-3
analog FXO WIC 3-3
BRI WIC 3-3
NM-2V 3-3
NM-HDV-1 T1/E1 3-3
NM-HDV-2 T1/E1 3-3
octal T1/E1 3-3
quad E1 3-3
quad T1 3-3
T1/E1 WVIC 3-3
international calls 1-5
interoperability 1-3
in back-to-back GW 2-9
ITSP-to-ASP interconnect 2-16
ITSP-to-ITSP interconnect 2-16
ITSP-to-IXC interconnect 2-15
ITSP-to-LEC interconnect 2-15
IVR 1-6
authenticating IP-based users 6-3
back-to-back GW 2-9
defined 1-3
files 3-9
in functional areas 2-1
pool 6-3
prompt database 3-6
script 6-2
script in IP-to-IP-Based Interconnect (Transit Network) with DGK 6-4
script in IP-to-IP-Based Interconnect (Transit Network) with OSP 6-5
script in TDM-to-IP-Based Interconnect with OSP 6-4
script in TDM-to-IP-based topology 6-3
script in TDM-to-TDM-based topology 6-2
IXC 2-12
IXC offload 2-13
IXC-to-ASP interconnect 2-14
IXC-to-ITSP interconnect 2-14
IXC-to-IXC interconnect 2-13
and branding 6-3
LEC 2-12
LEC-to-ASP interconnect 2-14
LEC-to-ITSP interconnect 2-14
LEC-to-LEC interconnect 2-13
LRJ 7-1
forwarding 1-5
messages 2-3
RAS messages 3-4
requests 4-5
route statements 7-5
routing entries 7-4
routing entries in DGK 5-5
with DGK 4-6
LRQ/LCF RAS messages 2-3
vendor 3-7
mediation server 3-7
SETUP 4-6
ARJ 5-3
ARQ 4-7
DRQ 4-7
H.323 SETUP 5-2
LRQ 7-2
LRQ/LCF RAS 2-3
call routing 4-5
routing to other domains 3-4
registration and unregistration (RRQ/URQ) 3-4
MGCP 3-3
MIB 4-10
MIND/CTI 3-6
minutes aggregation and resale (including ASP termination) 1-5
minutes aggregation and termination 1-4
modem passthrough 2-13
back-to-back GW 2-10
MTP1 3-5
MTP2 3-5
MTP3 3-5
and Cisco Info Center 2-7
back-to-back GW 2-11
non-SS7 POPs 2-7
SNMP 2-5
and Cisco Voice Manager 2-7
NOA 2-8
number expansion 4-8
number modification 2-8
number translation 3-4
OLO 1-3
OPT A-2
call model 1-1
distributed architectures 1-2
AAA RADIUS 4-6
billing/settlement 4-6
clearinghouse 4-6
interconnection zone 5-3
server 3-5
accounting information 4-6
billing 2-4
call routing 2-5
prefix call routing tables 4-6
security in non-SS7 POP 2-7
usage records 7-4
passwords 5-5
in call topologies 2-5
small scale 2-6
and OSP-based interconnect calls 5-3
PRI 2-6
prompt database 3-9
prompt servers 3-6
proxy server 5-2
Q.767 3-3
from Cisco SC2200 to AS5300/5400 2-8
NI-2 signaling 4-7
and Cisco Internetwork Performance Monitor (IPM) 2-5
and security 3-4
CSR 2-13
OSS server 3-5
VSA 3-6
resource management 3-4
thresholds 4-7
with local GKs 4-8
call termination 5-3
dial peer 5-3
timeout 5-3
registration 2-7
and unregistration (RRQ/URQ) messages 3-4
lightweight 4-8
reports 2-5
RLM 2-9
routing 1-2
routing table 4-5
dial plan 2-3
network size 2-3
AAA server 2-4
and back-to-back GW 2-11
back-to-back GW 5-4
for intradomain calls 4-9
H.235 3-7
H.235 OSP tokens 5-4
IVR script 6-2
non-SS7 POP 2-7
OSP interconnect 2-7
TFTP server 2-5
token 4-6
sequential LRQ 4-9
application 3-4
billing 1-2
GK application 3-5
mediation 3-7
proxy 5-2
RADIUS 3-4
settlement 1-2
Minutes Aggregation and Resale (Including ASP Termination) 1-5
Calling Card Services (Prepaid and Postpaid) 1-5
service providers 1-5
RAS 5-3
settlement 5-3
server 1-2
settlement providers 1-3
settlementCDR correlation 3-9
shared services 2-2
shared support services 2-4
analog E&M types I through V 3-3
analog FXO ground start 3-3
BRI (ETSI, NI-2) 3-3
BRI/PRI 2-6
CT1/CE1/PRI (ETSI, NI-2) 3-3
DS1/DS3 2-6
DS3 3-3
E&M 2-6
FXO/FXS 2-6
in non-SS7-based POP (figure) 2-6
PRI (ETSI, NI-2) 3-3
signaling types supported by Service A 1-5
types supported in non-SS7 POP 2-6
single-stage dialing 2-9
Cisco 2600 2-8
in SS7-based POP 2-8
and Cisco Voice Manager 2-5
and NMS 3-10
NMS platforms 2-5
reporting 4-10
additional shared services (third-party) components (table) 3-5
advantages 1-1
architecture 2-1
beneficiaries 1-1
benefits 1-2
major (Cisco) components (table) 3-1
third party (shared services) components (table) 3-5
components (figure) 1-4
customers 1-3
designing 4-1
features (table) 1-3
functional areas (figure) 2-1, 2-2
services supported (figure) 1-4
SS7 A-1
and Cisco SC2200 3-5
Cisco SC2200 3-3
Cisco SS7 Interconnect for Voice Gateways 3-3
Cisco SS7 Interconnect for Voice Gateways 1.1 3-2
E1/R2 signaling 1-3
SS7-based POP (figure) 2-8
support services 2-4
features of the Cisco Wholesale Voice Solution 1-3
tandem compression 7-5
and TFTP server 2-4
scripts 2-5
in back-to-back GW 2-9
in non-SS7-based POPs 2-6
T1 CAS trunks 2-10
voice GWs 3-2
IP to IP with DGK-based interconnect 2-17
IP to IP with OSP-based interconnect 2-17
TDM to IP with DGK-based interconnect 2-17
TDM to IP with OSP-based interconnect 2-17
TDM to TDM 2-17
price 1-1
services 1-5
dial plan 2-3
in non-SS7 POP 2-7
security 2-5
server 2-4, 2-7, 2-11, 3-6, 3-9, 6-2
server in back-to-back GW 2-11
ASP-to-LEC interconnect 2-15
ITSP-to-LEC interconnect 2-15
LEC-to-ITSP interconnect 2-14
LEC-to-LEC interconnect 2-13
TR-113 3-3
traffic management 1-1
transit network 5-4
transit VoIP network 2-16
transit zone 5-4
transparency (in bearer transport) 2-7, 2-13
Trinagy 3-10
UDP 4-7
billing/settlement 4-6
OSP server 4-6
usage records 2-4
back-to-back GW 2-10
OSP server 2-4
validation (call authorization) 3-9
compared that of PSTN 1-3
compared to that of PSTN 1-2
SS7 POP 2-10
and back-to-back GWs 7-5
in AAA 3-7
RADIUS 3-6
Weblink Preferences xi
white listing 2-8
wholesale network providers 1-5
XACCT 3-7
fault-tolerant architecture 4-9
sequential LRQs 2-4
Posted: Wed Jan 22 15:20:22 PST 2003
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