Comsphere Telecommunications - Homologation Project

Transcript

COMSPHERE TELECOMMUNICATIONS INTERNATIONAL NETWORK SERVICES CLARO VCI (VOIP CARRIER INTERCONNECT) HOMOLOGATION PROJECT # 04715 Version: 1.0 FEBRUARY 27, 2013 COMSPHERE TELECOMMUNICATIONS CLARO INC Table  of  Contents   1.0   Executive  Summary   3   2.0   Originated  By   6   3.0   Purpose   4.0   Current  Working  Configuration   7   5.0   Planned  Network  Configuration   7   6.0   Signaling  and  Route  Data   7.0   ITU-­‐T  SS7  Technical  Specifications:   8.0   SS7  Signaling  Routing   9   6   9   9   9.0              IP  Address  Information   10   10.0   Network  Diagrams   10   11.0   Implementation  Steps   11   12.0   Circuit  Level  Plan   14   13.0          Comsphere  Homologation  SS7    Assignment   14.0          Dialing  Plan  Information   14   15     APPENDICES APPENDIX A– CONTACTS……………………..…………………………………………....XII APPENDIX B– VOIP TEST PLAN……………………..………………………………..….XIV 2 1.0 Executive Summary This document is the overview and technical specifications of the Comsphere Telecommunications VoIP project for Claro. The network diagram and project plan is to centralize manage and capacity planning of all International telephone traffic for Claro. The Homologation plan is to interconnect TDM interfaces into Claro’s network and to enable VoIP interconnect our Session Border Controller so that Claro will have the ability to receive a VoIP call from their contracted carriers and terminate the call / traffic into Claro’s network. Comsphere Telecommunications is using technology from multiple manufacturers and integrating these products into a “Best of Class” solution for Claro. The homologation test will deliver the following services for Claro. 1. High Capacity SIP peering trunks from Claro’s contracted carriers. High capacity meaning the only limit to the capacity of termination channels is (session licenses on the VoIP SBC) and Gateway (TDM) capacity assigned to our system. 2. The Homologation is to prove that our equipment will function correctly with Claro’s Network. 3. We will also Provide Claro with a plan to deliver direct service to customers in the USA / World that will completely bypass the standard model of Calling Card distribution. The standard model today usually has a cost of between 20% to 30% to deliver the calling card to the sales POP (point of Presence). Our plan is to completely bypass this model and provide Claro with a direct model that will cost no more the 2% to 3% to deliver a pre-paid Calling Card services to Claro’s international Customers. 4. Our Network plan will enable calls from the Central American Countries where we have installed the Comsphere Telecommunications rack to be ON-NET calls that will be SIP traffic and have multiple survivability routes to maintain 99.99999% up time. 5. The Comsphere Telecommunications Reporting capabilities will provide Claro with close to unlimited reporting statistics. 6. Comsphere Telecommunications is providing STM1 Gateways, Reporting Engines, Layer 3 Router and Switches, Session Border Controllers, Transcoding Systems, High Capacity VoIP Routing Engines (enabling local – Local Number Portability USA and any other county where the System is installed) to be a local database in our System. 7. Comsphere Telecommunications Class 5 Feature Server for Enterprise and end user services. Comsphere Telecommunications will include a full Class 5 feature server (feature list included in appendix) for Claro telephony Customers. In this design the Sansay VSXi acts as a proxy registrar for Comsphere Telecommunications Class 5 feature Server for a DOCSIS Network and routes the customer call based on the routing table. A DOCSIS Customer calling another customer ON-NET or a DOCSIS customer calling a subscriber off net. Of course based on leased cost routing in the LCR database Comsphere Telecommunications Manufacturers / Partners 1. 2. 3. 4. 5. 6. 3 Sansay Inc. USA based Session Border Controller, Routing Engine, Transcoding Engine. Oculeus is the market leading developer of operational international voice management tools Intel Servers. TelcoBridges – TDM to SIP gateways. Comsphere Class 5 Feature Server for Sansay. Cisco IP Layer 2 and Layer 3 IP Products – specifically the ME 4924 The Comsphere Telecommunication advantage is that we have integrated these manufacturer products into our one point of management via our included management console. By centralizing the management of all these products we simplify the day to day operations of all these services. We expect that Claro will provide 24 hour per day 365 days per year Network operation Service – By using the Comsphere Telecommunications management console we believe the NOC services can be accomplished by no more then one or two personal for ALL sites in the network or even remotely. Included in the Comsphere Telecommunication system is our trouble ticketing system that will accomplish the following: Open tickets with Comsphere Telecommunications NOC operations and also the respective manufacturers network support service. Each Rack has a built in PBX that integrates the trouble ticket system with Comsphere first level support network engineering service. Comsphere would like to thank Claro for their time in evaluating our solution. Basically the Comsphere Telecommunication “RACK” solution provides best in class performance and will deliver a level of performance, management and capabilities that will improve Claro’s international telephony business and deliver a class of service to the CMTS network that will give Claro TV specialized feature sets for Business customers and home users. Comsphere focus in this project is not to sell Claro a list of equipment our goal is to open new business opportunities and markets using technology. For me Technology (besides being something I love) in terms of business is nothing more then a tool to increase market control and create new revenue. In this proposal we are obviously offering Claro a list of equipment to purchase, never the less we are showing how this specific list of equipment and services will increase Claro’s market share in Central America and the USA. It’s not what box Claro decides to buy or how much it costs it's what can this CAPEX purchase do for our business opportunities in the future. I am a Claro customer and if Claro is interested in what we are offering I would also like to offer consulting services in order to specifically attack Claro’s competition – Tigo. Claro’s has a better network, offers more services then Tigo and offers a more aggressive cost for service compared to Tigo. I believe together we can increase Claro user base by 15 to 20 percent in Honduras, Guatemala and El Salvador. The test of our expertise is this homologation network and purchase of our solution. This is step one. Once Claro realizes the increased ability to manage the network, manage international sales, increase Claro direct users in the USA and deliver a full set of services to the Claro TV business and home customers we can move onto a direct attack in order to make Claro the leader in Central America Telecommunications service. Especially our hosted Enterprise PBX solution (included in our class 5 feature set – this is a wonderful business tool that will enable Claro customers to interconnect their smartphone with the company PBX so that the smart phone can act as a extension to the PBX or integrate with the users Desk Phone, also we have rule sets using the GPS and Bluetooth to automatically route calls to the users deskphone or the smartphone based on the location of the user. Also an option is to enable SSL VPN access to the enterprise customer with a Claro VoIP Dialer so that the customer is always connected. To prove we are serious about providing Claro with the tools needed to control market share in Honduras, Guatemala and El Salvador we are offering this idea /service – of course we can enable this in our services but this is not just a feature server – it is a specific means of migrating TIgo users to Claro. 4 Comsphere Telecommunications pinless – 0% distribution cost Calling card services and new customer generation program. Comsphere Telecommunications Calling card distribution solution that will save Claro 30% in the cost of distribution and will deliver direct calling card service from Claro (via Comsphere telecommunications) solution. Our Solution is designed to DRIVE NEW CUSTOMERS to CLARO. This solution alone will provide Claro with Millions of dollars of Return on Investment and enable Claro to expand their direct customer base to the USA and the World. The truly interesting thing about our solution is that is it a pure TDM solution not relying on VoIP via 3G or internet in the USA on the client’s smart phones which is an interesting technology but not yet a carrier grade solution. By using Sansay ROAM high capacity LCR routing engine we know exactly what network our USA customers are using, and by expanding Comsphere Telecommunications dial in services to include all the carriers in the USA with our bi-lateral agreements we can do the following. Using our iPhone app, which is basically checking our customers ANI (Phone Number) and IMEI we create an encrypted ID for the iPhone app customer. (iPhone, Android and Blackberry) Our iPhone app is not a dialer, it verifies the encrypted ID of our customers device and decides what is the best (LCR) dial in access number to reach our pinless prepaid switch based on a query to our Sansay ROAM LNP server. The iPhone app accesses our ROAM Server and verifies the LNP and route number (RN) of our customer’s service provider. The Sansay ROAM server then decides what is the ON-NET Free call to the customer to access our prepaid pinless Switch. The iPhone app then dials the local access number and creates a new account in our system based on the ANI and iMEI hash. The system then initiates the IVR requesting a deposit in our customers account. The deposit (mostlikely) is a prepaid credit card from Wal-Mart. (Actually it would be a perfect marketing option to offer prepaid VISA Cards with the Claro Pinless . After credit is verified we then ask the customer what country does the customer want to have his virtual number. The virtual number is a number in Latin America where Claro has the Comsphere Solution. After deciding what country the customer would like to have service we allow the customer to choose 5 local numbers that his account will allow him to dial. Our switch then sends SMS’s to each of the 5 numbers notifying the local user in the country chosen by the customer in the USA of the local access number to reach the USA customer and that in order to access the local number the customer MUST have Claro Service. Again we verify the ANI and the IMEI of the local users in Latin America where Claro has Comsphere Telecommunication’s service to verify that they are Claro customers and also verify that they maintain service with Claro. Bonus – Included in the IVR – If the Customer chooses a number that is not a Claro Number we then initiate a SMS campaign to notify the OFF-NET user that if they switch their service to Claro they will be able to contact the USA person via a local number and we offer the USA customer a free credit after the user in country switches to Claro and maintains the Claro service for 60 days. Once the USA customer has their 5 users setup with Claro numbers in the Central American country and has credit on their account when they dial the local access number (always verified by our ROAM LCR database) then the USA customer accesses the pinless switch and can then dial by choosing 1 to 5. Or dial by name, or verify the 5 numbers / names in the pinless system The USA customer can at any time change one of the 5 users (except new accounts from another carrier to Claro (we limit that to 90 or 120 days because the customer has received a credit for helping Claro obtain an new customer). We can even add more credit to the USA customer for the second and third new customer added to Claro’s network in Latin America. 5 We can offer special bonus to the USA customer for adding 5 or more new customers to Claro’s network in Latin America – once it is verified that the customer in Latin America maintains the service. The same service can be used to TOP OFF customers in Latin America and we can even notify the USA customer when the credit level of the Latin Americans account falls below a pre set limit (set by the USA customer via the IVR System. Of course Claro will manage the system and the traffic from the USA customer and the Latin American customer to the USA customer – the plan has great potential to generate new Claro customers everywhere. Also by expanding USA Carrier bi-lateral agreements Claro will know (VIA ROAM) exactly how much traffic is being terminated and exactly to which network, obviously 90 or more percent of the traffic terminating in the USA is ON-NET traffic but by expanding Claro’s US termination contracts specifically with US CLEC carriers I would expect that Claro can drop it’s average cost of termination into the US market to below $.002 per minute. I believe this alone could provide a return on investment for the entire project to under 18 months but the ROI is not the important focus – migrating customers from TIGO to Claro in Latin America is our main focus for the pinless system. The Comsphere RACK solution provides Claro with a complete International telephony solution with one point of support for the entire network. Comsphere is a new Company – started business in February 2013 but we have been building telephone companies and enterprise solutions in Latin America for over 20 years. We are just regrouping some of the top-level Sales, Marketing, Network Design and engineering expertise into a new company. Our Company is a USA but we live and operate Central America. Comsphere Telecommunications – Experts in IP Telecom Solutions. Thank You, Comsphere Telecommunications team. Pedro Mejia - CEO Jonathan Davis – VO Systems Engineering 2.0 Originated By Comsphere Telecommunications Engineering Implemented By: Jonathan Davis President Systems Engineering Comsphere Telecommunications 3.0 Purpose The purpose of this plan is to provide implementation details for the successful establishment of a VoIP connection between Claro’s Country GSM switch and the new International VoIP Network designed by COMSPHERE TELECOMMUNICATIONS. Associated with this project will be the activation of STM1 voice circuits. This project will 6 support two-way traffic. Also we are providing proxy registration and provisioning for Claro’s CMTS network via our Class 5 Feature servers and Sansay SBC. 4.0 Current Working Configuration Comsphere Telecommunications does not have an interconnection with Claro. 5.0 Planned Network Configuration 5.1 Overview Claro and COMSPHERE TELECOMMUNICATIONS have agreed to Homologate a new VoIP Network Design to support two-way voice traffic. The protocol to be used is “SIP” and will utilize the Comsphere TDM to VoIP Network. The Comsphere Telecommunications platform will interface directly with Claro’s Country TDM Switches. The Public Internet or Extended private Claro MPLS Network will be used to transport packets between sites. Also as this network design will support the Claro CMTS network Comsphere Telecommunications is proposing that we also homologate session control, proxy registration and our enterprise and class 5 feature set with Claro’s Cable telephony network. 5.2 Detail Calls will be handled as follows: The TELCOBRIDGES 7800 will hand each call to the COMSPHERE Homologation VoIP Platform. The COMSPHERE Homologation VoIP Platform will determine how best to handle/route the call, convert the TDM voice stream into IP packets, and negotiate call setup directly with the associated SIP access trunk. The VoIP Platform will be located in Claro’s Homologation Laboratories in Guatemala. Traffic originating from the far-end, will follow the same process, only in reverse order The outbound call from Claro’s network will utilize SS7 signaling between Claro’s TDM Switches and Comsphere’s TelcoBridges TDM Gateways. TelcoBridges then sends the call to our Sansay Interconnect SIP trunk (in Guatemala). With a full deployment the call will then be routed to the Comsphere Rack in Miami (this call because it between Sansay to Sansay switches will only use 1 call session and is viewed as an intermachine trunk. The call depending on the DNIS rout will then be sent out via Sansay on a sip access trunk to the carrier with the 1st choice in the routing table. The same will work on an inbound call from a USA customer from another carrier to Claro’s GSM network in Central America. All circuits are to be built two-way, and will support traffic SIP to TDM and TDM to SIP. We are supporting SIP-T SS7 over IP for the Homologation Test. We can also homologate a Cable Network customer registering via Sansay proxy registration to our back end Class 5 Feature Server and follow the same testing as we are following with the TDM testing plan. Again the interesting feature here is that the Session license pool is shared across the entire network so if we add the necessary session licenses to the project the pool of sessions (concurrent Active Calls) are available to all Comsphere Telecommunications Points Of Presence installed in Claro’s Network. We are already including the necessary media services in each Rack. The potential for Claro is to integrate 7 the international gateways with the Cable network Class 5 services incorporating Sansays Secure SBC and our high capacity proxy registration is included in the proposal. The new SS7 interconnect will consist of: 1953 voice circuits (DS0s) in Claro Labs – 1 STM1 E1, DS3 or STM1 interfaces (TO BE Determined) TDM / STM1 Designators Comsphere Homologation Rack / to Claro Switching Network. Claro will assign TDM interfaces, SS7 Information and final interconnection into COMSPHERE Homologation VoIP Platform TDM Patch Panel (Demarcation point for Claro’s TDM Responsibility) End-to-End Designators CIC assignment to be Determined LinkSets Linkset to be provided by Claro See Section 7.0 for specific Point Code information. SS7 CICs Homologation Rack COMSPHERE Requisition Data Claro Carrier Code: Trunk ID: Claro Voip Platform Translations Setup/CLI: The circuit type for the E1s are: The service type for the DS3 are: The format type for the STM1’s are: 8 The circuit type for the DS0s is: The service type for the DS0s is: The format type for the DS0s is: 6.0 Signaling and Route Data Provided by Claro : info requested in worksheet below: 7.0 ITU-T SS7 Technical Specifications: Location Name Type CLARO Signal Point Code User Part CCITT Spec. MTP Spec And STP Facility Exchange System Guatemala – Public SBC SIP Access Trucking Guatemala – Private SBC – CMTS interconnect Guatemala SS7 Linkset Guatemala ISUP assignment Guatemala – TDM Physical interfaces 8.0 1. 2. 3. 4. 1. 2. 3. 5. 9 SS7 Signaling Routing For Homologation – call Flow: Claro User GSM – DSIS route to SIP trunk into our test platform in USA Call Routes to Comsphere TDM CIC Comsphere TDM gateway routes the call to the Sansay SBC. Sansay SBC routes to call to destinations (To Be Determined by Claro) User in remote (Non Claro) network Dials a DNIS that is routed via SIP to the SBC in Guatemala calls in then routed to the TDM Gateway using a ISUP CIC to then be terminated into Claro’s network. Claro CMTS user follows the same test pattern – call in and calls out For the CTMS users we also will provide testing for Voice Mail, Visual VM, Call Waiting, Call Conferencing –basic class 5 feature testing. SIP peering to Termination provider 9.0 IP Address Information COMSPHERE TELECOMMUNICATIONS Platform DEVICE Sansay VSXi SBC Cluster Sansay MST Cluster Sansay Signaling SIP Sansay SIP Access Trunks (For SIP Client – iPhone, Android) Sansay Signaling H.323 Sansay Signaling IMT SIP – to Other internal destinations Sansay ROAMExternal Routing Option – Full LNP Routing DB USA TelcoBridges Media TelcoBridges Management TelcoBridges Controller Captura for Sansay reporting Engine Capture for Sansay Proxy Comsphere Management Appliance w / VM’s Cisco ME4924 CMTS Network POOL CMTS Gateway to Comsphere SBC IP ADDRESS (Mininum Config) 3 IP 5 IP 1 IP 1 IP 1 IP 1 IP’s 2 IP’s 1 IP 1 IP 2 IP’s 2 IP’s 2 IP’s 3 IP’s 2 IP’s Class A Subnets 2 IP’s X 2 SBC clusters for redundancy Claro Test Platform DEVICE 1 10 GB Interface to Public Network 1 10 GB Interface redundant to public Network Route /26 network 1 10 GB Interface to Private Network (CMTS) 1 10 GB Interface redundant to CMTS Network 10 IP ADDRESS /30 /30 Route/26 network to each of the /30 networks Sansay Facilities Based Access Network (In Claro network DOCSIS) and E1 and VoIP over IP MPLS Network Facilities Based Access Network Class 5 Feature Server Proxy from Sansay to Sansay Guatemala This Could Be a Vlan or a VRF in Claro International MPLS / Metro Network (we need more information) R1500 XR R1500 XR R1500 XR R1500 XR TDM Switch + + - - + + - - 100 % 25 % 100 % 25 % 100 % 25 % 100 % 25 % ! + + - - + + - - ! ! ! Sansay Public Network Connection – International VoIP Transport Network Cisco ME-4924 Sansay VSXi Cluster Media – Full Redundant Scalable to Hundreds of thousands of Sessions 25 Million Routes per Cluster ROAM Routing Engine – Hundreds of Millions of Routes – FULL LNP USA Optional Class 5 Feature Server for Sansay - IP Customers – with iTunes App, Google Play App. Hosted Enterprise PBX Comsphere Telecommunications System Management Engine Ticket Reporting System for All products Internet Access (SRTP / VPN Optional) for SIP Interconnects with Worldwide Customers Claro MPLS Extended International Back Bone SIP to SIP – Intermachine Trunk Sansay Facilities Based Access Network (In Claro network DOCSIS) and E1 and VoIP over IP MPLS Network Miami Claro Internet To Central America R1500 XR R1500 XR R1500 XR R1500 XR R1500 XR R1500 XR R1500 XR R1500 XR R1500 XR This Could Be a Vlan or a VRF in Claro International MPLS / Metro Network (we need more information) Facilities Based Access Network Class 5 Feature Server Proxy from Sansay to Sansay R1500 XR ! ! ! + + - - + + - - + + - - + + - - 10 0% 25 % 10 0% 25 % 10 0% 25 % 10 0% 25 % 10 0% 25 % 10 0% 25 % + + - - ! + + - - ! ! + + - - 100 % 25 % 100 % 25 % 100 % 25 % Sansay VSXi Cluster Transcoding Media – Full Redundant Scalable to Hundreds of thousands of Sessions 25 Million Routes per Cluster ROAM Routing Engine – Hundreds of Millions of Routes – FULL LNP USA Comsphere Telecommunications System Management Engine Ticket Reporting System for All products Optional Class 5 Feature Server for Sansay - IP Customers – with iTunes App, Google Play App. Hosted Enterprise PBX Oculeus Captura Reporting and Statistics for Sansay If TDM Interconnect is needed in the USA we Can Add the appropriate TDM Gateway but IP Should be Sufficient fro all Interconnects in USA / World With This Model Adding Countries is a Simple as Purchasing the needed Gateway and Sansay Servers – Licensing is included for the entire network. R1500 XR R1500 XR R1500 XR R1500 XR This Could Be a Vlan or a VRF in Claro International MPLS / Metro Network (we need more information) Class 5 Feature Server Proxy from Sansay to Sansay Facilities Based Access Network Sansay Facilities Based Access Network (In Claro network DOCSIS) and E1 and VoIP over IP MPLS Network SIP to SIP – Intermachine Trunk •  Twenty-four Gigabit Ethernet SFP User to Network Interfaces (UNI) and four Gigabit Ethernet SFP uplinks/ trunk ports with an additional two 10 Gigabit Ethernet X2 uplinks. •  MPLS  Network  Ready, Full L3 - Auto L3 ACL UPdate from Comsphere Management Server •  Redundant  field-replaceable AC and DC power supplies •  Removable  fan  tray  with  redundant  fans •  1 rack unit (RU) form factor Claro MPLS Network or INternet Optional Class 5 Feature Server for Sansay - IP Customers – with iTunes App, Google Play App. Hosted Enterprise PBX Scalable to Hundreds of thousands of Sessions 25 Million Routes per Cluster ROAM Routing Engine – Hundreds of Millions of Routes – FULL LNP USA Cisco ME-4924 Sansay VSXi Cluster Media – Full Redundant Sansay Public Network Connection – International VoIP Transport Network + + - - 100 % 25 % ! + + - - + + - - ! ! ! Comsphere Telecommunications System Management Engine Ticket Reporting System for All products ! ! ! + + - - + + - - + + - - + + - - 100 % 25 % 100 % 25 % 100 % 25 % 100 % 25 % Optional Class 5 Feature Server for Sansay - IP Customers – with iTunes App, Google Play App. Hosted Enterprise PBX Scalable to Hundreds of thousands of Sessions 25 Million Routes per Cluster ROAM Routing Engine – Hundreds of Millions of Routes – FULL LNP USA Cisco ME-4924 Sansay VSXi Cluster Media – Full Redundant Sansay Public Network Connection – International VoIP Transport Network ! Comsphere Telecommunications System Management Engine Ticket Reporting System for All products 2 STM1's TDM Interconnect Per Country TelcoBridges STM1 Gateways Scalable to 10 STM1's per Rack 2 STM1's TDM Interconnect Per Country TelcoBridges STM1 Gateways Scalable to 10 STM1's per Rack TDM PATCH PANEL – E1, DS3, STM1 (Depending upon Customer port Availability 2 STM1's TDM Interconnect Per Country TelcoBridges STM1 Gateways Scalable to 10 STM1's per Rack TDM PATCH PANEL – E1, DS3, STM1 (Depending upon Customer port Availability TDM Switch TDM PATCH PANEL – E1, DS3, STM1 (Depending upon Customer port Availability TDM Switch 11 Sansay Public Network Connection – International VoIP Transport Network Sansay Facilities Based Access Network (In Claro network DOCSIS) and E1 and VoIP over IP MPLS Network Cisco ME-4924 Facilities Based Access Network Proxy from Sansay to Sansay R1500 XR ! + - + - 100 % 25 % ! + - + - 100 % 25 % ! + - + - 100 % 25 % + - 100 % 25 % R1500 XR Class 5 Feature Server R1500 XR R1500 XR ! + - Optional Class 5 Feature Server for Sansay - IP Customers – with iTunes App, Google Play App. Hosted Enterprise PBX Comsphere Telecommunications System Management Engine Ticket Reporting System for All products 2 STM1's TDM Interconnect Per Country TelcoBridges STM1 Gateways Scalable to 10 STM1's per Rack TDM PATCH PANEL – E1, DS3, STM1 (Depending upon Customer port Availability Business'Voice'&'SIP'Trunking' Wholesale Termination Partner 1 Network-Facing Session Control Over-the-Top Service Delivery •  Subscriber and networkfacing session control in a single system Wholesale Termination Partner 2 VSXi Feature Server (e.g., BroadWorks) IP Network VSXi VSXi Business Communications Provider SubscriberFacing Session Control FacilitiesBased Access Network •  Highly flexible deployment options to support distributed network architectures •  Commercially deployed with leading feature / application servers / IPPBXs •  Proxy registrations or can act as Registrar for feature server(s) •  Billing and charging support via CDRs Hosted IP PBX Subscriber Hosted IP PBX Subscriber •  Support Lawful Intercept / CALEA Note: Distributed deployment shown above. Subscriber and network-facing functions can be managed on single VSXi system. 7" 12 Sansay Public Network Connection – International VoIP Transport Network Sansay Facilities Based Access Network (In Claro network DOCSIS) and E1 and VoIP over IP MPLS Network Cisco ME-4924 Facilities Based Access Network Proxy from Sansay to Sansay R1500 XR ! + - + - 100 % 25 % ! + - + - 100 % 25 % ! + - + - 100 % 25 % ! + - + - 100 % 25 % R1500 XR Class 5 Feature Server R1500 XR R1500 XR Optional Class 5 Feature Server for Sansay - IP Customers – with iTunes App, Google Play App. Hosted Enterprise PBX Comsphere Telecommunications System Management Engine Ticket Reporting System for All products 2 STM1's TDM Interconnect Per Country TelcoBridges STM1 Gateways Scalable to 10 STM1's per Rack TDM PATCH PANEL – E1, DS3, STM1 (Depending upon Customer port Availability VSXi%for%Enhanced%Applica3ons%% Wholesale Termination Partner 1 Network-Facing Session Control Subscriber-Facing Session Control •  Subscriber and networkfacing session control Wholesale Termination Partner 2 VSXi VSXi IP Network Enhanced Services / Prepaid Server Over-the-Top Service Delivery •  Support Radius for prepaid and other real-time billing applications •  Commercially deployed with IVR and other enhanced communications apps •  High CPS for inbound / outbound call center / dialer applications Note: Distributed deployment shown above. Subscriber and network-facing functions can be managed on single VSXi system. 8" 13 10.0 Site Network Topology VoIP IMTs On Net Traffic Sansay INX Feature Server Sansay INX VoIP Partners Telco Bridges GW SS7 to Local PTT DOCSIS MTA CMTS/HFC 10.x.x.x Cable Head End Offices 11.0 Implementation Steps Comsphere Operations Project # 04715 Start Test Date: TBD  Establish connectivity as defined in Section 5.0.  Establish TDM Interconnect.  Establish new ISUP trunks.  Establish IP connectivity.  Perform modified Level 4* and Confidence testing.  Activate remaining circuits. 12.0 Circuit Level Plan TBD 13.0 14 COMSPHERE TEST TDM Line 1 SIP Phone DS3 ID 14.0 Time Slot MeetMeRoom (MMR) Bay MMR Jack Gateway GW Port DS3 STM1 E1 # Dialing Plan Information - TELCOBRIDGES 7800 Related Required OUT-Bound Digit Stream (FROM Claro TO Carrier) 011 + 502 + Local Number Required IN-Bound Digit Stream (TO Claro FROM Carrier) (See Below) - VoIP Platform Related Required OUT-Bound Digit Stream (FROM Claro TO Carrier) Prefix + 011 + 502 + Local Number Required IN-Bound Digit Stream (TO Claro FROM Carrier) Prefix + (See Below) Appendix A COMSPHERE TELECOMMUNICATIONS Contact List Name Title Telephone Number ?   (Commercial  Contact)   +1-­‐305-­‐767-­‐1649  ext  215   GENERAL Pedro  Mejia   [email protected]     15 Facsimile Number Jonathan  Davis   [email protected]     Glen  Gerhard   [email protected]   Honduras  Support     Comsphere  –  Gateway  Support     [email protected]   [email protected]     ESCALATION   Jonathan  Davis   Jonathan.davis@Comsphere   Telecommunications-­‐llc.com   NOC [email protected] CR  VP   (Project  Manager)   (Technical  Contact)   +1-­‐305-­‐767-­‐1649  ext  201   ([email protected])   +1-­‐858-­‐754-­‐2202   Jdavis         NOC   NOC       +504-­‐9982-­‐2749         +1-­‐443-­‐451-­‐5483   +1-­‐443-­‐451-­‐5483       st 1  Level   +1-­‐443-­‐451-­‐5483   2nd Level +1-443-451-5483 CLARO Contact List Name Title Telephone Number GENERAL CONTACTS: Please Provide Please Provide Please Provide Please Provide Please Provide Please Provide Appendix B / Testing CCITT No. 7 INTERCONNECTION TESTS (ISUP Level 4 Compatibility Tests) 1.0 GENERAL This document, based on recommendation Q.784, describes the minimum of ISUP tests, which have to be performed on Homologation nodes interconnected with ITU-T SS7 signaling system. 16 The ISUP tests will be realized using the network interconnection as shown in Figure 1. 2.0 TEST CONFIGURATIONS AND ENVIRONMENT A single signaling relation and a circuit-group with a minimum of X circuits are required between the two exchanges. The following compatibility tests will be performed on each interconnected exchange. Test No. Description 1.1 1.3.1.1 1.3.1.2 1.3.2.1 1.3.2.2 1.3.2.3 1.3.2.4 1.4.1 1.4.2 2.1.1 2.1.2 2.2.1 2.3.1 2.3.2 2.3.3 Non-allocated circuits CGB and CGU received CGB and CGU sent BLO received BLO sent Blocking from both ends: removal of blocking from one end IAM received on a remotely blocked circuit CCR received: successful CCR sent: successful IAM sent by controlling SP IAM sent by non-controlling SP "en block" operation Ordinary call (with various indication in ACM) Ordinary call (ACM, CPG, and ANM) Ordinary call (with various indications in CON) Test No. Description 2.3.4 2.3.5 2.3.6 2.3.7 3.1 3.2 3.3 3.4 3.5 3.8 4.1 5.2.2 5.3.1 5.3.2 6.1.2 6.1.4 6.2.1 6.3.1 7.1.1 7.1.3 7.2.1 17 Call switched via a satellite Echo control procedure for call set up Blocking and unblocking during a call (initiated) Blocking and unblocking during a call (received) Calling party clears before and backward messages Calling party clears before answer Calling party clears after answer Called party clears after answer Suspend initiated by the network Collision of REL messages Validate a set of known causes for release T9: waiting for an answer message Of an outgoing circuit Of an incoming circuit COT applied on a previous circuit Delay of through connect Dual seizure for non-controlling SP Dual seizure for controlling SP Successful call setup Dual seizure Successful call set up VOIP  Test  Plan     1.0          Purpose/Scope       The purpose is to test and validate the VoIP interconnection. Please refer to the above figures for network details. For simplicity, some of the network elements are not shown in these drawings. The scope of this plan is to make a few successful test calls and a few unsuccessful test calls (Voice and Fax) to each destination country/route, in order to ensure proper functionality. The following items will be noted for the successful test calls to a telephone/fax number in the terminating country. a. b. c. d. e. f. g. Make a call to an idle phone and let it ring. Answer the call at the destination end Have a brief conversation (approximately 1-2 minutes) Hang up – first call at the terminating end; then a second call hang up from the originating end. Monitor the quality of the connection; noise, clipping, transmission quality (loudness), echo, latency. (Note: It is acknowledged these tests are purely subjective in nature.) Observe Post Dial Delay (PDD). Collect a CDR and note the following quality parameters: latency, total packets (transmitted and received), total packets dropped, and conversation time. Make 5-6 successful test calls and document the above observations. Note that the above is just an example of things to look for – Claro/Comsphere Telecommunications personnel will make adjustments as necessary. Make 5-6 successful test calls to a fax machine. Send a one page document and confirm the successful transmission. Based on the above, we will make test calls for speech and fax. Testing of 56KBps or 64KBps calls will not be performed. Digital data calls will not be tested nor supported by the VoIP network. Make some of the following unsuccessful test calls and observe the results: a. b. c. d. The phone is busy. Observe busy tone from the terminating end. Ring no answer. Ensure the terminating party does not answer. The call should disconnect after time out. Unallocated number. Send a telephone number (too few digits) that does not exist and observe the results. Test any other impairment that the far-end is capable of introducing. 1.1 System Description Comsphere RACK installed and in service – ready for call testing and Homologation testing 1.2 Test Setup 18 See Figures 1.3 Call Processing Successful Call Test Case ID V1 TITLE DESCRIPTION REQUIREMENTS Test Setup Successful Call Scenario Successful Call Completion TBD N/A STEP CHECKLIS PROCEDURE T Make a call through the Claro TELCOBRIDGES 7800, to a user (called party) in the Correspondent's terminating network. Terminate the call from either side (calling party or called party). 1 Was the call successful? Repeat the call attempt 5-6 times to ensure proper functionality of the network. As noted earlier, observe/measure QoS. Yes No Unsuccessful Call: Egress Termination Failure Test Case ID TITLE DESCRIPTION REQUIREMENTS TEST SETUP STEP V2 Unsuccessful Call: Egress Termination Failure Failure to complete the call due to any of the following reasons: 1 - Subscriber Line Busy 2 - Incomplete Number 3 - Unallocated Number TBD N/A PROCEDURE CHECKLIST 1 - “Busy” tone heard from far end for SLB 1 Induce the above conditions on the egress side. Repeat the call attempts 5 times. Yes No 2 & 3 * - “Fast-Busy” tone heard from far end for either IN or UN. Yes No * Audible treatments (for call progress) are preferred, but may not be available from the correspondent’s equipment. In this case, “Fast-Busy” tones are acceptable. 19 Unsuccessful Call: Ring No Answer Test case ID TITLE DESCRIPTION REQUIREMENTS TEST SETUP STEP 1 2 20 V3 Unsuccessful Call: Ring No Answer (RNA) RNA Timeout TBD N/A PROCEDURE CHECKLIST Make a call Do not answer the call. After 60 seconds, is the call torn down? Yes No Installation Worksheet Pre-Installation Worksheet Instructions (Completed by SE/Customer): Question # Notes: 1-4 The physical installation address of the Comsphere equipment. *Required Field 5 6-9 10-13 If installed in a collocation facility this field should be completed to assist the Field Engineer in locating the proper mounting position. *Required Field Name and contact information for the primary on-site contact (customer or collocation employee) who can assist with on-site issues and access to the facilities. *Required Field Name and contact information for the primary technical contact who will be working with Comsphere on technical issues. *Required Field 14-16 IP Address block Assigned to Comsphere RACK 17 Comsphere is Providing a Full Rack for Homologation Testing – with 10 GB IP Interconnect to customer Network 18 Password requested for the “Comsphere” account shell login via HTTP. *Required Field 19 DNS, TIME, Certificate, VPN Server, NTP Server, FTP Server, Support Ticket Manger, All Supplied by Comsphere – NTP Sync IP from Customer. 20 Comsphere Requires 4 110 V 30 AMP Power Source – Preferably Battery Backup 21 Time Zone for the servers. This is the time that will be put into CDRs. *Required Field 22 Sansay VSXi Cluster in one Rack can grow to 180 Thousand simultaneous calls – Homologation system can support X Session for Homologation testing (How many sessions do w you need for testing) 23 Comsphere is providing a full 7 foot locking Rack to Homologation testing 24 Public IP Block for Homologation Testing /27 minimum 25 Private Block for Homologation /24 26 Default GW for public and private block Comsphere uses Cisco ME 4924-10GE Ethernet Aggregation Switch – please specify specific any specific needs (MPLS, -VRF) for the 10 GB Interconnect from Comsphere to customer Network – Known as Demarcation point Interface for Default Gateway is 10 GB – optional electrical or Optical – please specify, If Optical please specify Single mode or Multimode 27 28 29 Dual 3000 Watt PS Included – Cisco ME 4924 30 FQDN Assigned to System (if applicable) 31 Access Control List of IP address to Access the System 32 Remote Support IP address for support (VPN Functionality) – open to the homologation system? 33 If we are testing CDR functionality with Existing Billing system – please provide Sample CDR 34 Trusted Hosts for FTP/SCP/GUI, Trusted Hosts for GUI ONLY 35 NOTE – Comsphere Rack with Associated Servers and equipment is designed for ONLY our equipment any additional systems installed for Homologation testing needs to be approved by Comsphere 36 External Routing Servers (RES) yes / no 37 If yes Please Provide ERS IP and type information 38 External Radius Server (YES / NO 39 If YES Please provide RADIUS IP and System info 40 For Homologation Testing – SIP Trunk Parameters for Remote SIP Peering 41 Digit Translation for SIP Peering 42 Default DNIS or Digit Mapping table for Testing, text file comma Separated *Required Field 43 TDM Interfaces (E1, DS3, STM1) Available for Homologation Testing - CODECS supported / Needed 21 44 CNAM, LNP, TELEBLOCK External database information (IpAddress) 45 System is Basic Setup supports 25 Million 25,000,000 Routes – we can preload any routing tables. Please provide text file 46 TDM INTERFACES, SS7 Signaling Type, Point Code Assigned, 47 How Many SPC (Signaling Pint Code) are needed for Homologation? 48 Time Slot for LINK 49 Preferred ISUP Configuration – Starting CIC – ENDING CIC 50 NOTE* Sansay and Captiva Routing and Rating Setup – We can use Sample’s or if we are going to do live test please chose some 51 Master Code List 52 Supplier Names, Rates sheets & Rates 53 Customer Names Rate Sheets & Rates 54 Supplier Switch IP addresses, Trunk Groups, Tech Prefixs 55 Customer Switch, IP Addresses, Trunk Groups, Tech Prefixs 56 All Switch Information- TDM, SIP SBCs, Nexgen – (Comsphere will supply the Switch info based on the Homologation test for live implementation we will need info from any countries or switches not included in our network) 57 Correlation & Mediation Information 58 CDR sample formats – other then the Sansay 22 Tmedia™ TMG7800 VoIP / media gateway data sheet . PRODUCT DESCRIPTION The TelcoBridges Tmedia TMG7800 is our high-level VoIP gateway. This series of VoIP gateways is defined by the highest scalability in the entire Tmedia family. Offering carriers from 16 to 1024 T1/E1s, or 1 to 48 DS3 or 1 to 16 OC3/STM1, the TMG7800 offers the redundancy required for carriergrade networks. A Tmedia TMG7800 system consists of 1 or 2 TMG7800-CTRL (depending on the clients need for redundancy), which then control up to 16 TMG7800 telecom units. Ordering information Part # TMG7800-CTRL TMG7800-TMS Description Media controller Media switch TMG7800-TE-16 TMG7800-TE-32 TMG7800-TE-48 TMG7800-TE-64 TMG7800-DS3-1 TMG7800-DS3-2 TMG7800-DS3-3 TMG7800-STM1 16 x T1/E1 32 x T1/E1 48 x T1/E1 64 x T1/E1 1 x DS3 2 x DS3 3 x DS3 1 x STM1 Each configuration is available in redundant AC or DC power. TelcoBridges Inc. Characteristics of the TMG7800:  4U to 39U VoIP gateway  512 to 32,768 VoIP channels  16 to 1024 T1/E1s or 1 to 48 DS3 or 1 to 16 OC3/STM1  Redundant AC or DC power supplies For more information on the Tmedia TMG7800 visit www.telcobridges.com. ILLUSTRATIONS Tmedia TMG7800 telecom unit, 2U VoIP / media gateway front view Tmedia TMG7800-CTRL gateway controller front view 23 91 de la Barre, suite 01 Boucherville, QC J4B 2X6, CANADA Sales +1.450.655.8993 TB Support +1.866.438.4703 www.telcobridges.com Tmedia TMG3200-TE VoIP / media gateway data sheet Capacity and voice processing 512 to 2,048 VoIP channels (simple field upgrade) PSTN interfaces 16 to 64 T1/E1 (simple field upgrade) Independently configurable per port SCSI connectors to RJ48C patch panel VoIP interfaces Dual 100/1000Base-T RJ45 connectors on rear of unit Vocoding Universal codecs: G.711, G.723.1, G.726, G.729ab, T.38 V.17, clear mode (RFC 4040) Other codecs: G.722.2 (AMR-WB), G.728, G.729eg, iLBC, AMR, EVRC, GSM-FR/EFR Fax/Modem/Data T.38 fax relay (V.17 and V.34) Automatic G.711 fallback Modem and data pass-through DTMF relay RFC 2833, SIP INFO Method, In-band H.248 (MEGACO) call control ITU-T H.248 versions 1 and 2 UDP, SCTP, IPSec transport DTMF and fax detection DTMF, call progress tone generation, COT generation Call quality and inactivity alerts H.248 control port redundancy (supports virtual IP) Session management and billing SIP peer availability polling RTP inactivity monitoring, RTCP CDR generation (RADIUS and text file) Echo cancellation G.168 echo cancellation 128 ms echo tail on all channels simultaneously OAMP+T Operation & Administration Web-based system status and operations SNMP V2, V3 GET, TRAPs and alarms Voice processing Dynamic and programmable jitter buffer (20 to 200 ms) Voice activity detection (VAD) Comfort noise generation (CNG) Maintenance Web-based interface for maintenance Automated system upgrade System backup, restore and copy Management interfaces 1 RJ45 serial port with RS-232C adapter Dual 100/1000Base-T for OAMP Supports virtual IP Provisioning Web-based interface for configuration Dynamic activation Dynamic configuration changes Signalling (Simultaneous signalling support) SIP Supported RFCs: 2327, 2976*, 3261, 3262, 3263, 3264*, 3311*, 3323*, 3325*, 3398, 3515, 3578*, 3764, 3891, 4028, 3581, 3665*, 3666 (*: partial compliance) Troubleshooting Per-call tracing (history and/or live) Signalling capture tools SSH command-line interface SIGTRAN M2PA, M2UA, M3UA, IUA SS7 termination and/or relay supported SS7 Up to 64 x MTP2 links (56, 64, n x 56/64 kbps, HSL) Multiple redundant MTP2 links Up to 64 MTP3 originating point codes and linksets ISUP variants: ITU 92, ITU 97, ANSI 88, ANSI 92, ANSI 95, Q.767, Telcordia 97, ETSIv2, ETSIv3, China, Singapore, UK ISDN PRI Q.931 ISDN PRI: NI-2, 4ESS, 5ESS, DMS-100, DMS-250, Euro ISDN ETSI NET5 (France, Germany, UK, China, Hong Kong, Korea), NTT (Japan), Australia CAS MFC R2 (standard ITU, Brazil, Mexico) Customizable protocol script files TelcoBridges Inc. 91 de la Barre, suite 01, Boucherville, QC, J4B 2X6, CANADA TB Support +1-866-438-4703, Sales +1-450-655-8993 24 TMG-CONTROL Standalone call control Any to any call routing (TDM-VoIP, TDM-TDM, VoIP-VoIP with transcoding) Call routing based on: trunk group, calling/called numbers, nature of address, ASR, time of day, load-based, cost-based, TO:, FROM: Request URI, redirect numbers, and other parameters NPA-NXX routing (100K+ table entries, Excel or CVS file upload) Route retries, calling/called digit manipulation, customizable call cause code mapping, call transfer (REFER, AT&T TR 50075) Electrical characteristics Power input 90 to 260 VAC, 47 to 63 Hz, -40 to -60 VDC Redundant power supply option with dual power inputs Maximum 138W power consumption Physical characteristics (Dimensions & Weight) 2U,  3.5”(88.9mm)  H  x  17.4”  (442mm)  W  x  16”  (406mm)  D 20lbs (9.1kg) Regulatory compliance (UL/CSA 60950, CSA C22.2) EMC : FCC Part 15:2009, Subpart B, CE Mark (EN55022:2006, Class A, EM60950, EN61000, ETS 300 386) Environmental Operating temperature: 0 to +55 °C, 95% re. hum. non-condensing Storage temperature: -10 to +75 °C, 95% rel. hum. non-condensing Designed to meet NEBS Level 3, RoHS compliant HRS - High-speed Route Server The Sansay HRS (High-speed Route Server) is part of the ROME product family and functions as the route engine for interconnect call processing. Route Management Layer SOAP / GUI Simplify route management Enable more sophisticated routing Extend Sansay routing to 3rd party SBCs Improve overall network performance The HRS enables operators to centralize route management and integrates seamlessly with Sansay VSXi session controllers. Functional Overview The HRS is a stateless redirect server. Session controllers query the HRS using the SIP protocol. The HRS sends back 302 Redirect messages with the routing instructions to direct calls. The HRS supports sophisticated routing requirements that include the following:  Multi-layer route tables  Jurisdictional tables up to 50M for full NPA-NXX-Y checking  Intelligent jurisdictional checking using RN or DNIS against the ANI, PAI, PCI or JIP  Up to 50 alternative routes The HRS simplifies operations, providing a single point for route updates. Route tables are managed either though the SOAP API or graphical user interface (GUI). Updates do not impact system query speeds and associated network-wide call handling. Query & Route Selection Call Processing and Media Management Layer VSXi VSXi VSXi System Performance The HRS enables service providers achieve new levels network-wide call switching performance by eliminating route delivery as a potential performance bottleneck. The HRS offers unmatched route management and delivery performance along several key metrics:  15,000 queries per second  200 million routes These performance metrics are achieved by the HRS by maintaining route data in system RAM, making information more quickly accessible for queries. System Redundancy The HRS uses a cluster-based redundancy scheme, providing both high availability and the option for geographic redundancy. Servers  are  deployed  in  an  “Active-Active”  relationship  with   primary systems typically deployed  at  a  carrier’s  Super-POP or core network hub. Load-balancing between systems can be setup across redundant sites. Summary Hardware Options Contact Sansay at [email protected] today for a consultation with Sansay engineering staff to understand the capabilities of HRS and how it can benefit VoIP service providers. Sansay, Inc. 4350 La Jolla Village Dr. Ste. 888, San Diego, CA 92122 © 2012 Sansay, Inc. All rights reserved. Information is subject to change without notice VSXi Above: Sansay HRS Provides Routes Selection Instructions for Interconnect Session Control Nodes The HRS interworks with leading least cost routing (LCR) applications and can provide routes to 3rd party SBCs to centralize routing across a mix of vendor session control infrastructure. The system is delivered as an appliance on Sansayconfigured hardware, the MXP4 with 24 core CPU and 96 G of RAM and RAID 1TB HDD. 25 Load-Balanced / “Active-Active”   SIP Telecom service providers deploy the HRS for the following benefits:     HRS Update & Manage The HRS enables VoIP service providers to vastly improve routing efficiency, performance, and sophistication. phone +1.858.754.2200 fax +1.858.550.2044 http://sansay.com [email protected] TRANSCODING – MST The Sansay MST - media server for transcoding converts media encoding of IP-based audio and video traffic for VoIP service providers. The MST functions as a transcoding subsystem for Sansay VSXI session controllers. Service providers have the option to deploy the MST as a dedicated media resource or combined on the same hardware as the VSXi session controller. Service Provider Benefits International Wholesale:  Add routes and new traffic that require G.729 / G.723 - G.711 transcoding Retail & US Wholesale:  Improve call quality via echo cancellation, p-time normalization, & latency reduction Product Description The MST is primarily delivered as a rack-mounted 1U appliance and supports up to 2000 sessions per node. Transcoding is performed by specialized digital signaling processor (DSP) resources. The VSXi directs traffic for transcoding to the MST using H.248. Traffic is load-balanced across a pool of MST nodes. Redundancy is handled via n+1 pooling. Transcoding is licensed by simultaneous active sessions. The license can be distributed across a pool of MST nodes, enabling better transcoding support for localized bursts, follow-the-sun traffic patterns, and geographic redundancy. Dedicated Call Setup VSXi Messages SIP & H.323 Signaling H.248 MST Traffic Targeted RTP for Transcoding Integrated Media VSXi + MST Signaling Traffic Transcoded Media Cellular:  More flexible transcoding of iLBC, AMR, & G.722.2 / AMR-WB for off-net call termination Wireless Broadband & WebRTC:  Add new services & call resilience using advanced codecs designed for OTT service delivery Above: MST offers flexible configuration options Simple to Operate MST setup and operation is managed using an intuitive graphical user interface (GUI). Transcoding is associated with specific trunk ID (TID). Codecs are selected using a drop-down selection. Value Added Applications:  Reduce dropped calls and failed call setups with fixes for G.711 - T.38 Fax termination and DTMF detection (RFC2833 to SIP INFO method interop)  Increase security via SRTP media encryption and generate QoS statistics for improved network troubleshooting  Improve support for video calling and video conferencing services with H.263 and H.264 transcoding Sansay, Inc. 4350 La Jolla Village Dr. Ste. 888, San Diego, CA 92122 © 2013 Sansay, Inc. All rights reserved. Information is subject to change without notice 26 Above: Codec selection using a drop-down menu phone +1.858.754.2200 fax +1.858.550.2044 http://sansay.com [email protected] Intelligent and Flexible Traffic Handling MST configurations support a wide range of traffic management approaches and networking requirements. The MST includes intelligence and configuration flexibility consistent  with  Sansay’s deep expertise in session control and RTP media handling. Deployed  with  Sansay’s  VSXi  session  controller,   the MST offers the following traffic handling advantages to service providers:  Transcodes only targeted traffic to optimize the use of transcoding resources & ports  Maintains  “state”  on  the  media  and   provides traffic characteristics via CDR output  Offers options to minimize network hops and traffic hair-pinning Bulk / Automated Provisioning In addition to the GUI for configuration changes, the MST can be configured / provisioned via API using SOAP / XML. Wholesale HD Voice Services With the increasing number of HD-capable devices, demand is growing for interconnects that support HD traffic between retail operators. The MST represents a straightforward means for VoIP service providers to add HD voice services and routes to their existing wholesale services. Compression for SIP Trunking SIP trunking represents the standard for business voice connectivity. The MST enables service providers to offer greater channel density and improved QoS resilience for the delivery of services to communications CPE QoS Monitoring The MST can be configured to monitor traffic for key QoS properties. Using the same trunk group assignment process used for transcoding configurations, select media traffic is directed to the MST for the detection of delay, jitter, and packet loss. Sansay, Inc. 4350 La Jolla Village Dr. Ste. 888, San Diego, CA 92122 © 2013 Sansay, Inc. All rights reserved. Information is subject to change without notice 27 Specifications Audio Encoders: G.711u64K G.711u56K G.729 G.729A G.729D G.729E G.722 G.722.1 AMR AMR-WB SILK* OPUS* G.711a64K G.729B G.723.1 EVRC GSM-FR Video & Audio / Video Encoders: H.263 H.264 MPEG4 G.711a56K G.729AB G.728 iLBC GSM-EFR REDCODE Additional Encoders: T.38: Fax RFC 2833: DTMF MTP Licensing: 1U delivers up to 2000 concurrent transcoding sessions** All codecs fully indemnified – no additional fees required Interoperability (including but not limited to): Session Border Controllers: Acme Packet, Sonus, Dialogic, Genband (NexTone), Mera (ALOE), Metaswitch, Sonus Media Gateways: Cisco, Audiocodes, Dialogic, TelcoBridges, Huawei Billing Systems: APEX, Fastlink, BillCall, Oculeus, OptimalPath, Orcawave Teledynamicx, MCL, WebCDR, RiverRock Systems, Logisense Power and Physical: 19 inch rack mountable 1U server 300W, 25 lbs Universal AC / Autoswitched Certifications: FCC: Part 15, Class A, UL 1950, CSA 950, CE EN60950 CISPR 22/EN55022, NEBS GR-63, GR-1089 ETSI 300 386, 300 019, 753 *Available via firmware upgrade **Actual capacity determined via codec & application info Summary The MST is a straightforward addition for VSXi operators to add transcoding. Please contact Sansay at [email protected] to learn more about added networking capabilities, specialty use cases, a walk through of the management portal, and how quickly transcoding is added to VSXi networks. phone +1.858.754.2200 fax +1.858.550.2044 http://sansay.com [email protected] 28 29 30 31 TMG7800 System Installation Guide 1.2 Installation Prerequisites For the installation to proceed without interruption, it is important that you verify that you have all necessary materials on hand. 1.2.1 TMG7800-CTRL Adequate space for the installation of the TMG7800-CTRL You will need to mount the TMG7800-CTRL on a 19" equipment rack (customer provided). Your TMG7800-CTRL is a 2U unit. Plan for an additional 2U space on the equipment rack for a redundant TMG7800-CTRL. Note The depth of the TMG7800-CTRL is 26” (660mm) instead of 16” (406mm) depth of the TMG7800 telecom units. It is important to plan for an equipment rack of an adequate size. The dimension of the TMG7800-CTRL are as follows: • Depth x Width x Height (mm) 660 x 430 x 88 • Depth x Width x Height (inch) 26" x 16.9" x 3.5" TMG7800-CTRL 2U TMG7800-CTRL 2U TMG7800-CTRL 2U TMG7800-TE 2U TMG7800-STM1 2U For this type of 2U larger installation TMG7800-STM1 For this type of installation 4U of rack space is required TMG7800-STM1 20Us of 2U rack space are required TMG7800-STM1 2U TMG7800-STM1 2U TMG7800-STM1 2U TMG7800-STM1 2U TMG7800-TMS 1U 1U TMG7800-TMS 4 32 Introduction TMG7800-TE TMG7800-DS3 TMG7800-STM1 Figure 1.2 TMG7800 Telecom Units Front and Rear Views TMG780 0-TMS 0 2 4 6 8 10 12 14 1 3 5 7 9 11 13 15 Figure 1.3 BITS1 ETH0 ETH1 IOIOI BITS0 TMG7800-TMS Front and Rear Views 3 Sample deployment of TelcoBridges Multi STM1 33 42 U 2U TDM PATCH PANEL 6U TelcoBridges STM1 Gateways Scalable to 10 STM1's per Rack Claro TDM Network – STM1 Connectors There  are  a  few  “Points”  About  Sansay   VSXi / Solutions. We are the ONLY Session Boarder Controller company that allows customers to – in a geographical disperse network configuration – to share sessions between all Sansay VSXi Clusters, calls between VSXi Clusters are viewed as IMT calls. We are the ONLY SBC manufacturer that out of the box with the ROAM routing engine allows customers (with a Nustar account) to synchronize the full USA LNP database directly into our routing engine 500 Million or so routes 1U Power Distribution R1500 XR ! + - + - 100 % 25 % ! + - + - 100 % 25 % ! + - + - 100 % 25 % ! + - + - 100 % 25 % R1500 XR 8U R1500 XR Sansay VSXi Cluster Transcoding Media – Full Redundant Scalable to Hundreds of thousands of Sessions 25 Million Routes per Cluster ROAM Routing Engine – Hundreds of Millions of Routes – FULL LNP USA R1500 XR 1U Power Distribution R1500 XR 4U ! + - + - 100 % 25 % ! + - + - 100 % 25 % R1500 XR Optional Class 5 Feature Server for Sansay - IP Customers – with iTunes App, Google Play App. Hosted Enterprise PBX 1U 2U 4U Internet Connection – Public IP’s  on  the  Sansay  SBC Claro MPLS Network Management 34 Comsphere Telecommunications System Management Engine Ticket Reporting System for All products Oculeus Captura Billing / Prepaid Wholesale Oculeus Captura Reporting Captura LCR for Sansay 2U 1U •  Twenty-four Gigabit Ethernet SFP User to Network Interfaces (UNI) and four Gigabit Ethernet SFP uplinks/ trunk ports with an additional two 10 Gigabit Ethernet X2 uplinks. •  MPLS  Network  Ready, Full L3 - Auto L3 ACL UPdate from Comsphere Management Server •  Redundant  field-replaceable AC and DC power supplies •  Removable  fan  tray  with  redundant  fans •  1 rack unit (RU) form factor Sansay  Class  5  Feature  Set   Call  Transfer   Call  Waiting   Call  Features   Caller  ID   Automated  Attendant   Caller  ID  Blocking   Blacklists   Caller  ID  on  Call  Waiting   Blind  Transfer   Calling  Cards   Call  Detail  Records   Conference  Bridging   Call  Forward  on  Busy   Database  Integration   Call  Forward  on  No  Answer   Direct  Inward  System  Access   Call  Forward  Variable   Distinctive  Ring   Call  Monitoring   Call  Parking   Distributed  Universal  Number   Discovery  (DUNDi™)   Call  Queuing   Do  Not  Disturb   Call  Recording   E911   Call  Retrieval   ENUM   Call  Routing     Interactive  Directory  Listing   Call  Snooping   Interactive  Voice  Response  (IVR)   Local  and  Remote  Call  Agents   Music  On  Hold   Music  On  Transfer   Predictive  Dialer   Privacy   Protocol  Conversion   Remote  Call  Pickup   Remote  Office  Support   Roaming  Extensions   Route  by  Caller  ID   Streaming  Media  Access   Supervised  Transfer   Talk  Detection   Three-­‐way  Calling   Trunking   VoIP  Gateways   Voicemail   Voicemail  Groups   Visual  Indicator  for  Message  Waiting   Web  Voicemail  Interface   Stutter  Dialtone  for  Message  Waiting   Voicemail  to  email   35   Inegration   Point   iLBC   Sansay  Proxy     Linear   Sansay  Media  Termination   LPC-­‐10   Speex   TelcoBridges  Gateways   Outbound  Call  Spooling   Predictive  Dialer   TCP/IP  Management  Interface   Scability   • TDMoE  (Time  Division   Multiplex  over  Ethernet)   o Allows  direct   connection  of  Sansay  Media   Pool   IAX™  (Inter-­‐Asterisk  Exchange)   H.323   SIP  (Session  Initiation  Protocol)   MGCP  (Media  Gateway  Control   Protocol   SCCP  (Cisco®  Skinny®)   Interoperbality     E&M   o Sansay  Signaling     E&M  Wink   o Zero  latency   Feature  Group  D   o Server  supports  1GBb   or  10GB   Voice-­‐over  IP   • o Allows  for  integration   of  physically  separate   installations   o Uses  commonly   deployed  data  connections   o Allows  a  unified   dialplan  across  multiple  offices   Codecs   G.711  (A-­‐Law  &  μ-­‐Law)   G.723.1  (pass  through)   G.726   G.729  (through  purchase  of   commercial  license  through  Digium)   GSM   FXO   GR-­‐303   Loopstart   Groundstart   Kewlstart   MF  and  DTMF  support   Robbed-­‐bit  Signaling  (RBS)   Types   4ESS   BRI  (ISDN4Linux)   DMS100   EuroISDN   Lucent  5E   National  ISDN2   NFAS       Modos  de  la  Consola      FXS   PRI  Protocolos   ADPCM   36 Protocolos   Comsphere  Web  Portal