Push to Talk and Wireless Push Technologies Market Opportunities Strategies, Shares, and Forecasts 2008 to 2014
It’s all about the Internet. Push to talk services implement push SIP session control, instead of using circuit switched end-to-end session control. Push technology promises to bring the next generation of communications services on wireless handsets. Push to talk service is an integral part of an IP multimedia communication portfolio
PTT session management is representative of the push technology market shifts, Push technology is a disruptive technology, push technology is more efficient. Data drives the adoption curve, voice services provide the revenue stream.
Push to talk markets are forecast to achieve growth because the calls have subsecond call set up, the systems implement voice over IP, and there is no session to manage, or control. Systems are as useful across geographical locations as they are for families located in the next room. Motorola’s multinational PTT is an outdated technology, but relevant still as it integrates with more than 18.3 million existing PTT users throughout the Americas.
PTT service will use VoIP (Voice over IP) and SIP (Session Initiation Protocol) technology to set up and route the instant calls. These technologies leverage the mobile operator’s prior investments in wireless CDMA 1X data networking, since VoIP sends voice as data packets over wireline or wireless data channels. There is no need to set up a session using proprietary switch technology. The router controls the sessions.
A private line from Marseilles to Clarity’s secure data center in Naperville, Illinois will carry the packetized voice traffic as instant calls between the subscriber handsets and Clarity’s SIP-based switch. Qualcomm and Kodiak are among vendors anticipated to benefit from significant market growth.
If a user is involved in a PTT session and receives a cellular call, they receive a call waiting indication. They can answer the cell call, and then switch between the conversations. AT&T boasts the largest Push To Talk network in America, and its PTT service includes several differentiating features, including availability icons, quick group-calling and the ability to easily switch from a PTT session to a regular wireless voice call.
The Push to Talk service is an integral part of the IP Multimedia communication portfolio envisioned by Nokia, and a part of the service offering in IP Multimedia Subsystem (IMS). It is based on half-duplex voice over IP (VoIP) technology over mobile networks.
IP technology gives push to talk service cellular access and radio resources more efficiently than circuit-switched cellular services, reserving network resources only for the duration of talk spurts instead of for an entire call session. Subscribers can instantly talk to each other or to a group by the simple push of a button. It very easily facilitates the close family or business work group needs for very quick and informal communications.
Push to Talk is a presence communication tool, creating a way to communicate with someone as though you are in the same room with them, but from a remote location.
"Push-to-X" means users can key in a single button and have immediate access to something other than another cell phone. That could be anything from a weather report to a stock update.
Push to talk cellular subscribers at 30 million in 2007 are expected to have rapid growth. Subscriber growth comes from the ease of use. Market growth is anticipated as the data services create demand and voice services provide the bulk of the revenue. Push to talk cellular subscriber revenue is expected to be $14 billion in 2014 with significant more revenue streams added as push technology is used for a variety of applications. The cellular push to talk is evolving to achieve sub second connect times, needing standards to achieve this milestone.
Push to Talk, Push to Cellular, Voice and Data IP Push Strategies, Market Shares, and Market Forecasts, 2008 to 2014 study discusses the advantages of push technology as the small screen of wireless handsets becomes a dominant force in delivery of value added services.
Vendor revenue directly from push to talk at $350 million in 2007 will reach $3.5 billion in 2014 improving by a factor of 10 as more subscribers are signed up. The networks and services growth that is spurred by the applications will generate over $14.3 billion in subscriber revenue in 2014.
PTT session management is representative of the push technology market shifts, Push technology is a disruptive technology, push technology is more efficient. Data drives the adoption curve, voice services provide the revenue stream.
Push to talk markets are forecast to achieve growth because the calls have subsecond call set up, the systems implement voice over IP, and there is no session to manage, or control. Systems are as useful across geographical locations as they are for families located in the next room. Motorola’s multinational PTT is an outdated technology, but relevant still as it integrates with more than 18.3 million existing PTT users throughout the Americas.
PTT service will use VoIP (Voice over IP) and SIP (Session Initiation Protocol) technology to set up and route the instant calls. These technologies leverage the mobile operator’s prior investments in wireless CDMA 1X data networking, since VoIP sends voice as data packets over wireline or wireless data channels. There is no need to set up a session using proprietary switch technology. The router controls the sessions.
A private line from Marseilles to Clarity’s secure data center in Naperville, Illinois will carry the packetized voice traffic as instant calls between the subscriber handsets and Clarity’s SIP-based switch. Qualcomm and Kodiak are among vendors anticipated to benefit from significant market growth.
If a user is involved in a PTT session and receives a cellular call, they receive a call waiting indication. They can answer the cell call, and then switch between the conversations. AT&T boasts the largest Push To Talk network in America, and its PTT service includes several differentiating features, including availability icons, quick group-calling and the ability to easily switch from a PTT session to a regular wireless voice call.
The Push to Talk service is an integral part of the IP Multimedia communication portfolio envisioned by Nokia, and a part of the service offering in IP Multimedia Subsystem (IMS). It is based on half-duplex voice over IP (VoIP) technology over mobile networks.
IP technology gives push to talk service cellular access and radio resources more efficiently than circuit-switched cellular services, reserving network resources only for the duration of talk spurts instead of for an entire call session. Subscribers can instantly talk to each other or to a group by the simple push of a button. It very easily facilitates the close family or business work group needs for very quick and informal communications.
Push to Talk is a presence communication tool, creating a way to communicate with someone as though you are in the same room with them, but from a remote location.
"Push-to-X" means users can key in a single button and have immediate access to something other than another cell phone. That could be anything from a weather report to a stock update.
Push to talk cellular subscribers at 30 million in 2007 are expected to have rapid growth. Subscriber growth comes from the ease of use. Market growth is anticipated as the data services create demand and voice services provide the bulk of the revenue. Push to talk cellular subscriber revenue is expected to be $14 billion in 2014 with significant more revenue streams added as push technology is used for a variety of applications. The cellular push to talk is evolving to achieve sub second connect times, needing standards to achieve this milestone.
Push to Talk, Push to Cellular, Voice and Data IP Push Strategies, Market Shares, and Market Forecasts, 2008 to 2014 study discusses the advantages of push technology as the small screen of wireless handsets becomes a dominant force in delivery of value added services.
Vendor revenue directly from push to talk at $350 million in 2007 will reach $3.5 billion in 2014 improving by a factor of 10 as more subscribers are signed up. The networks and services growth that is spurred by the applications will generate over $14.3 billion in subscriber revenue in 2014.
PUSH TO TALK OVER CELLULAR (POC) EXECUTIVE SUMMARY
Push to Talk Services Implement IP Session Control
Push to Talk Service As An Integral Part Of An IP
Multimedia Communication Portfolio
PTT Session Management
3G Deployments Support IP Applications
Push To Talk Is Powerful As A Technology / Works Like A Browser
Impact of Style on Push Technology Handsets
Enterprise Push Technology Data Messaging
Systems From IBM and Tibco
Interoperability With The Next Generation Products
Push-To-Talk Over Cellular (PoC) Reliability
Motorola Seamless End-To-End POC Services:
Push to Talk Market Driving Forces
Push To Talk Mobile Phone Infrastructure Markets
Push To Talk Mobile Phone Infrastructure Market Shares
Push To Talk Mobile Phone Infrastructure and Subscriber
Market Forecasts
Push to Talk Subscribers and Subscriber Revenue
1. PUSH TO TALK MARKET DYNAMICS, MARKET SERVICES, AND MARKET DESCRIPTION
1.1 Sprint Push-to-Talk
1.1.1 Sprint Nextel Qualcomm QChat
1.1.2 Samsung / Sprint QChat
1.1.3 Sprint Nextel Direct Connect
1.1.4 Motorola and Sprint / Motorola and Nokia
1.1.5 Sprint Nextel iDEN Push-to-Talk
1.2 Kodiak
1.3 Sonim
1.4 Internet Broadband Networks
1.4.1 Google Push to Talk
1.4.2 Google Internet Services Via Wireless Devices
1.4.3 AT&T Helps Wireless Business GPS-Enabled, Location-Based Services Solution
1.4.4 AT&T's BlackBerry 8800 TeleNav Track
1.4.5 AT&T's Wireless Business-To- Business PTT
1.4.6 AT&T Wireless Push to Talk
1.4.7 Verizon Wireless Push to Talk
1.4.8 Decline of Wireless Analog Networks
1.4.9 Sprint Joins Open Handset Alliance
1.4.10 Sprint restates commitment to iDEN
1.4.11 Sprint Expands EV-DO Rev. A Network
1.4.12 Sprint Commercial Availability Of The High Performance Push-To-Talk Service
1.4.13 Sprint Push to Talk Fleet Management ROI
1.4.14 Qualcomm QChat® Push-To-Talk Solution
1.5 Push-to-Talk (PTT) Communications Services
1.5.1 PTT Services Move Past Proprietary Network
1.5.2 Principle Of Communication Behind The Push To Talk Service
1.5.3 Push To Talk Service Integral Part Of IP Multimedia Communication Portfolio
1.6 OMA Standard Impacts Push-To-Talk Over Cellular
1.6.1 Push-to-Experience Ecosystem
1.7 Push-to-Talk Voice Equivalent Of Instant Messaging
1.7.1 Advances in PTT Bring Interconnectivity Of Different Networks
1.8 Fixed-Mobile Convergence
1.9 Nokia Group Summary of Services
1.10 Push-To-Talk Over Cellular (PoC)
1.10.1 PoC Traffic Runs Over IP, Users Can Use Data Compression
1.11 Push To Talk Two-Way Communication
1.11.1 Push to Talk Market Definition
1.11.2 Push To Talk Target Markets
1.11.3 Push To Talk Service Application Servers Functions
1.11.4 Calls Started With A Push Of A Key And Connected Directly
1.12 Push To Talk Real-Time Voice Communications Service
1.12.1 Session Initiation Protocol (SIP)
1.13 Push To Talk Functions
1.13.1 Push To Talk Integrated Hands free Functionality
1.14 Presence Based Instant Text Service
1.15 Instant Talk Type Of Services
1.16 Push to Talk Positioning
1.17 Push to Talk Handsets
1.17.1 Sprint Nextel Push to Talk Handsets
1.18 Kodiak Commercial Handsets for Push to Talk
1.18.1 ASUS
1.19 UTStarCom POC Networks
2. PUSH TO TALK (PTT) MARKET SHARES AND MARKET FORECASTS
2.1 Push to Talk Market Driving Forces
2.1.1 Push-To-Talk Market Goals
2.1.2 "Push-to-X"
2.1.3 PTT over Cellular (PoC)
2.2 Push To Talk Mobile Phone Infrastructure Markets
2.2.1 Push To Talk Mobile Phone Infrastructure Market Shares
2.2.2 Push To Talk Mobile Phone Infrastructure Market Forecasts
2.2.3 Manufacturers of PTT infrastructure
2.2.4 Kodiak
2.2.5 Kodiak Strategically Positioned To Leverage Existing Infrastructure
2.2.6 Sonim Develops POC
2.2.7 Sonim
2.2.8 Motorola
2.3 Push To Talk Subscriber Market Shares
2.3.1 Sprint Push to Talk Revenue
2.3.2 Sprint Nextel 2007 Direct Connect 90 Billion Push-To-Talk Connections
2.3.3 Sprint
2.3.4 Push to Talk Services
2.4 Infrastructure for PTT
2.4.1 UTStarcom Infrastructure for PTT
2.4.2 UTStarcom
2.5 Push To Talk Mobile Phone Market Participants
2.5.1 Manufacturers of PTT Mobile Phones
2.5.2 Sonim Technologies
2.5.3 Kodiak Networks
2.5.4 Ericsson
2.6 Push To Talk Costs
2.6.1 Push to Talk Systems Integration Costs
2.7 Push to Talk Subscriber Revenue Analysis
2.7.1 Comparison between POC vs. IDEN performance
2.7.2 Reasons For Poor Adoption Of PoC Over The World
2.8 Subscribers By Region
2.8.1 Discussion of the Push To Talk Market
2.8.2 Qualcomm and Lucent QChat Call Set-Up Performance And Bandwidth Savings
2.8.3 Mobile Subscribers
2.8.4 Push to Talk Handset Shipments
2.9 GPRS-Based PTT and iDEN PTT Applications
2.9.1 Push to Talk Applications Analysis
2.9.2 Small-Screen Rendering Technology
2.9.3 Sprint / Nextel® Walkie-Talkie Push to Talk Pricing
2.9.4 MMS
2.10 Cellular Infrastructure Markets
2.10.1 Base Station Analysis
2.10.2 Wireless Infrastructure Segments
2.10.3 Base Station Controllers BSC Replaced By Radio Network Controllers RNC In 3 G
2.10.4 Macro Base Stations
2.10.5 Node B System Requirements
2.10.6 Wireless Networks
2.10.7 Base Station Installation Analysis
2.10.8 Wireless PAS Network Solutions
2.11 High Availability High Reliability One to N Base Station Telecommunications Middleware Market Shares
2.11.1 High Availability One to N Middleware Software For Wireless Base Station Telecommunications Market Shares
2.11.2 Hughes AIReach
2.11.3 High Availability High Reliability One to N Middleware Software For Wireless Base Station Telecommunications Market Forecasts
2.11.4 Push To Talk Enterprise Workgroup Market Forecasts
2.11.5 Affinity Groups Including Business And Consumer Groups
2.12 Push to Talk Regional Analysis
2.12.1 Motorola PoC Deployed Across Markets Worldwide
2.12.2 Clarity PTT Serving The World Of Smallish Carriers
2.12.3 In Canada
2.12.4 In Slovakia
2.12.5 Growth of Chinese Mobile Handset Market
2.12.6 Wireless Market Regional Analysis
2.12.7 Nokia and Siemens Dominate The European Mobile PTT Phone Market
2.12.8 Adoption In The US Particularly From Sprint
2.12.9 Driving Forces Of Wireless Infrastructure Market
3. PUSH TO TALK CELLULAR (PTT) PRODUCT DESCRIPTION
3.1 Kodiak Networks
3.1.1 Kodiak Uses The Cellular Voice Channels -- Transit Delay Is On The Order Of 200 Msec
3.1.2 Kodiak Integrates PTT Function With Cell Phone Operation
3.1.3 Kodiak Mobile Conferencing
3.1.4 Kodiak Mobile Messaging
3.1.5 Kodiak Group SMS
3.1.6 Kodiak Voice Notes
3.1.7 Kodiak Presence And Contact Management
3.1.8 Kodiak Push To Talk
3.1.9 Alltel Service Provided By Kodiak Networks
3.2 Sonim
3.2.1 Sonim ICS Product Benefits
3.2.2 Sonim Technologies Dispatch Manager
3.2.3 Sonim Technologies Contact Manager
3.2.4 Sonim Technologies XPS PoC Manager for Connections
3.2.5 Sonim Instant Communications Solution (ICS)
3.3 Qualcomm QChat
3.4 Nokia Siemens Networks
3.4.1 Nokia / Siemens3G Femto Home Access Solution
3.4.2 Nokia And Microsoft To Deliver Windows Live Services To Millions Of Mobile Customers
3.4.3 Nokia Siemens Networks’ PoC Solution
3.4.4 China Mobile Group Beijing Co. Ltd (CMBJ) has Nokia Siemens Networks Push-to-Talk over Cellular (PoC) Solution
3.5 Motorola
3.5.1 Motorola PTT Server Solution
3.5.2 Motorola IP Multimedia Subsystem – Based PT Solution
3.5.3 Motorola PTT over Cellular (PoC)
3.5.4 Motorola Push-To-Talk over Cellular Integrated Handset / Client / Server Solution
3.5.5 Motorola Push-To-Talk over Cellular Flexible Configuration
3.5.6 Motorola Push-To-Talk over Cellular (PoC) Reliability
3.5.7 Motorola Seamless End-To-End POC Services:
3.5.8 Motorola PoC Flexible Configuration:
3.5.9 Motorola Deployment Service:
3.5.10 Motorola Installation, Integration & Commissioning Service:
3.5.11 Key Elements Of Motorola Optimization Service
3.5.12 Motorola PTT Operations Service
3.5.13 Motorola Network Security Assessment
3.5.14 Operator Partners Benefit From Motorola PoC Solutions
3.5.15 Motorola PoC Basic Solution
3.5.16 Motorola Push-To-Xperience (PTX)
3.5.17 Motorola Solutions For Small, Medium, Large Operators
3.5.18 Motorola’s Push-To-Talk Over Cellular Flexible Billing Solutions
3.5.19 Motorola iDEN Push To Talk
3.5.20 Motorola PoC Client For Symbian
3.6 Airvana Push-to-Talk Software Over EV-DO Network
3.7 Clarity Communication Systems
3.7.1 Clarity Communication Systems Hosted Push-to-Talk (PTT) Presence Services
3.7.2 Clarity inTouch Push-to-Talk Hosting Solution For Tier Two And Tier Three CDMA Wireless Carriers
3.7.3 Clarity inTouch Push-to-Talk System (PTT) and Location Based Service (LBS) In One Application
3.7.4 Clarity inTouch Push-to-Talk System Where2Talk Application
3.7.5 Location-Based Services
3.8 Celtius Push-to-Talk VAS SDK
3.9 Research In Motion BlackBerry Devices
3.9.1 RIM BlackBerry Support Of Major E-Mail Platforms Exchange, Lotus Notes, and GroupWise
3.9.2 RIM Sells Into The Enterprise
3.10 Microsoft Adds Push E-Mail
3.11 Cisco Model 7921
3.11.1 Cisco PTT VoIP
3.12 S2 Technologies Software Verification Platform for Dual-Mode Wireless Handset
3.13 Conaito Technologies VoIP Evo
3.13.1 AT&T BlackBerry Push To Talk PTT
3.13.2 BlackBerry Curve
3.13.3 BlackBerry Desktop Software Roxio(R) Media Manager
3.13.4 Unlimited Cingular Push to Talk Service
3.14 Ericsson
3.15 Mobilemonday Shanghai Push to Talk
3.16 UT StarCom PAS System Specifications
3.16.1 UTStarcom mSwitch™
3.16.2 UTStarcom Total Control® 1000 Enhanced Data System
3.16.3 UTStarcom 8250 Personal Communications Management System (PCMS)
3.16.4 UTStarcom Network Migration — from Wireline to Wireless
3.16.5 UT Starcom iPAS Advantages
3.16.6 UT Starcom IPAS Mobile Local Loop Solutions
3.17 Research In Motion BlackBerry Devices
3.17.1 RIM BlackBerry Support Of Major E-Mail Platforms Exchange, Lotus Notes, and GroupWise
3.17.2 RIM Sells Into The Enterprise
3.18 Microsoft Adds Push E-Mail
3.19 Cisco Model 7921
3.19.1 Cisco PTT VoIP
3.20 S2 Technologies Software Verification Platform for Dual-Mode Wireless Handset
3.21 Ericsson
4. PUSH TO TALK OVER CELLULAR TECHNOLOGY
4.1 Open Systems
4.1.1 Open Web Services Technology
4.1.2 Open Standards To Define A Common Event
4.1.3 Open Systems
4.2 Service Oriented Architecture (SOA)
4.2.1 IBM Service Oriented Architecture (SOA)
4.2.2 SOA Business Challenge IT Imperative
4.2.3 Service-Oriented Architecture And Relevant Standards
4.3 Push to Talk New Standard Required
4.3.1 Ericsson, Nokia, Motorola and Siemens Collaborated On A PoC Standard For OMA (Open Mobile Alliance)
4.3.2 Sonim Push to Talk Standards Participation
4.3.3 Nokia Push to Talk Services Open Standards
4.3.4 Open Mobile Alliance
4.3.5 Drive Toward A Consistent IMS Environment Between GSM And CDMA2000
4.3.6 IMS
4.3.7 Joint Specification for 3GPP IMS Based Push to Talk over Cellular (PoC) Technology
4.3.8 PoC Faces Stumbling Block Of Interoperability
4.4 Testing Push-To-Talk Over Cellular
4.4.1 Data Packets May Be Delayed Or Re-Ordered
4.5 UTStarcom iPAS Interconnects With The Existing PSTN
4.6 Agilent Direct / Agilent Open PTT Testing
4.7 GPRS RTT Call Set-UP
4.8 Motorola / Nextel Communications Mobile Push To Talk Technology
4.8.1 Sprint Plans On Implementing Qualcomm's QChat
4.8.2 Mobile Tornado, Motorola, Nokia, Ericsson, Siemens, Sonim, Wireless ZT SIP and RTP protocols
4.9 700MHz Spectrum
4.9.1 Google 700MHz Spectrum Positioning
4.9.2 AT&T and Verizon Wireless 700MHz Spectrum
4.10 3G Femto Cells
4.10.1 Multivendor Iu Femto Gateway
4.11 Jennic Full Duplex Reference Design
4.12 Wind and Solar Powered Cell Site
4.13 Push To Talk Technologies
4.14 Key Technologies
4.14.1 Java Technology
4.14.2 Evolving Technologies
4.14.3 Packet based Networks And Application Wireless Technology
4.15 Mobile Web Services
4.16 Mobile Terminal Software Architecture
4.17 Platforms
4.17.1 Software Components
4.17.2 Standards Organizations
4.18 Ericsson, Nokia and Siemens Unified Solution For Push To Talk Over GPRS
4.18.1 Push To Talk Over GPRS and EDGE Networks
4.19 IP Multimedia System (IMS)
4.19.1 Push to talk service
4.19.2 GPRS and UMTS Stacks
4.19.3 Node B Application
4.19.4 Radio Network Control Stack
4.20 Nokia Series 60 Software Platform
4.21 Impact Of Text Messaging
4.21.1 24 Billion SMS Messages
4.22 SIP
4.22.1 IP Prepaid Services
4.22.2 MMS Messaging
4.22.3 Mobile Commerce
4.22.4 Transaction Messaging
4.22.5 Entertainment
4.22.6 Games
4.22.7 List Of Mobile Entertainment Functions
4.23 Corporate Applications
4.24 WCDMA
4.25 TETRA (Terrestrial Trunked Radio)
4.26 EDGE Technology
4.27 Symbian Applications
4.28 Dynamic and Shared Memory VS. Static Memory
4.28.1 Shared Memory
4.29 Technologies Connecting Terminals, Networks, And Applications
4.30 Web Services
4.30.1 SOAP
4.30.2 SOAP Framework
4.30.3 Framework For Developing Web Services
4.30.4 Apache SOAP
4.30.5 Load balancer with SSL support
4.30.6 Points Of Failure
4.30.7 SOAP Limitations
4.30.8 SOAP Protocol Uses Multi-Step Process
4.30.9 Framework Benefits
4.30.10 SOAP Test Strategies
4.30.11 SOAP Solutions
4.30.12 WSDL
4.30.13 WSDL Service Descriptions
4.30.14 UDDI Registry
4.30.15 UDDI Test Registries
4.30.16 UDDI Distributed Web Service Discovery
4.30.17 UDDI Consortium
4.30.18 WS-Inspection Document Extensibility
4.30.19 Language XSLT
4.30.20 OASIS
4.30.21 Open Applications Group OAGIS Standards
4.30.22 Readily Accessible Application-Level Services
4.31 Mobile Terminal Software Architecture
4.31.1 Browser Impact On The Mobile Terminal Software
4.31.2 Photo Exchange
4.31.3 Games Over I-Mode
4.32 Mobile Operating System Function
4.33 Mozilla
4.33.1 Wireless Industry Java Technology
4.34 Symbian Multitasking System
4.34.1 Symbian Multithreading And Co-Operative Multitasking
4.34.2 Multithreading
4.34.3 Co-operative multitasking
4.34.4 Asynchronous Message Oriented Middleware
4.34.5 IBM WebSphere Middleware Messaging Product De Facto Industry Standard
5. PUSH TO TALK OVER CELLULAR (PTT) COMPANY PROFILES
5.1 Agilent Technologies Extends NgN Analysis System to End-to-End Management of IMS Services
5.1.1 Agilent Technologies (NYSE: A) NgN Analysis System
5.1.2 Agilent's NgN Analysis System
5.2 AT&T
5.3 Celtius
5.3.1 CeltiPoC/Presence Server Suite
5.3.2 CeltiServers Implement Standard Interfaces
5.3.3 CeltiPoC/Presence Server Suite Suite Editions and Features
5.4 Clarity Communication Systems
5.4.1 Clarity Communication Systems (inTouch) PTT system.
5.5 Conaito
5.6 Kodiak Networks (16 live installations)
5.6.1 Kodiak Connected Portfolio
5.6.2 Kodiak Conferencing
5.6.3 Kodiak Messaging
5.6.4 Kodiak PTT Presence Manager
5.6.5 Kodiak Customer Base
5.7 Jennic
5.8 Mobile Tornado
5.9 Motorola
5.9.1 Motorola Customers
5.9.2 Motorola Products
5.10 Nokia Siemens Networks
5.10.1 Nokia Siemens Networks A New Company
5.11 Qualcomm QChat (1 Live install in the works}
5.11.1 Qualcomm Push to Talk for WCDMA and EV-DO Chipsets
5.12 Research In Motion (RIM)
5.12.1 BlackBerry RIM technology
5.13 SONIM
5.13.1 Sonim End-To-End Mobile VoIP Platform
5.13.2 Sonim Founding Author Of The OMA
5.13.3 Sonim Enables GSM and CDMA Wireless Data Networks
5.13.4 Sonim Product Categorization
5.14 Sprint Nextel
5.14.1 Sprint Data Services
5.14.2 Sprint Agreements with Motorola
5.14.3 Migrating Customers From iDEN to CDMA Utilizing PowerSource Devices
5.14.4 Sprint Nextel
5.15 UTStarcom
5.15.1 UTStarcom IP Access Innovation
5.16 WirelessZT (15 Countries / Installations)
Push to Talk Services Implement IP Session Control
Push to Talk Service As An Integral Part Of An IP
Multimedia Communication Portfolio
PTT Session Management
3G Deployments Support IP Applications
Push To Talk Is Powerful As A Technology / Works Like A Browser
Impact of Style on Push Technology Handsets
Enterprise Push Technology Data Messaging
Systems From IBM and Tibco
Interoperability With The Next Generation Products
Push-To-Talk Over Cellular (PoC) Reliability
Motorola Seamless End-To-End POC Services:
Push to Talk Market Driving Forces
Push To Talk Mobile Phone Infrastructure Markets
Push To Talk Mobile Phone Infrastructure Market Shares
Push To Talk Mobile Phone Infrastructure and Subscriber
Market Forecasts
Push to Talk Subscribers and Subscriber Revenue
1. PUSH TO TALK MARKET DYNAMICS, MARKET SERVICES, AND MARKET DESCRIPTION
1.1 Sprint Push-to-Talk
1.1.1 Sprint Nextel Qualcomm QChat
1.1.2 Samsung / Sprint QChat
1.1.3 Sprint Nextel Direct Connect
1.1.4 Motorola and Sprint / Motorola and Nokia
1.1.5 Sprint Nextel iDEN Push-to-Talk
1.2 Kodiak
1.3 Sonim
1.4 Internet Broadband Networks
1.4.1 Google Push to Talk
1.4.2 Google Internet Services Via Wireless Devices
1.4.3 AT&T Helps Wireless Business GPS-Enabled, Location-Based Services Solution
1.4.4 AT&T's BlackBerry 8800 TeleNav Track
1.4.5 AT&T's Wireless Business-To- Business PTT
1.4.6 AT&T Wireless Push to Talk
1.4.7 Verizon Wireless Push to Talk
1.4.8 Decline of Wireless Analog Networks
1.4.9 Sprint Joins Open Handset Alliance
1.4.10 Sprint restates commitment to iDEN
1.4.11 Sprint Expands EV-DO Rev. A Network
1.4.12 Sprint Commercial Availability Of The High Performance Push-To-Talk Service
1.4.13 Sprint Push to Talk Fleet Management ROI
1.4.14 Qualcomm QChat® Push-To-Talk Solution
1.5 Push-to-Talk (PTT) Communications Services
1.5.1 PTT Services Move Past Proprietary Network
1.5.2 Principle Of Communication Behind The Push To Talk Service
1.5.3 Push To Talk Service Integral Part Of IP Multimedia Communication Portfolio
1.6 OMA Standard Impacts Push-To-Talk Over Cellular
1.6.1 Push-to-Experience Ecosystem
1.7 Push-to-Talk Voice Equivalent Of Instant Messaging
1.7.1 Advances in PTT Bring Interconnectivity Of Different Networks
1.8 Fixed-Mobile Convergence
1.9 Nokia Group Summary of Services
1.10 Push-To-Talk Over Cellular (PoC)
1.10.1 PoC Traffic Runs Over IP, Users Can Use Data Compression
1.11 Push To Talk Two-Way Communication
1.11.1 Push to Talk Market Definition
1.11.2 Push To Talk Target Markets
1.11.3 Push To Talk Service Application Servers Functions
1.11.4 Calls Started With A Push Of A Key And Connected Directly
1.12 Push To Talk Real-Time Voice Communications Service
1.12.1 Session Initiation Protocol (SIP)
1.13 Push To Talk Functions
1.13.1 Push To Talk Integrated Hands free Functionality
1.14 Presence Based Instant Text Service
1.15 Instant Talk Type Of Services
1.16 Push to Talk Positioning
1.17 Push to Talk Handsets
1.17.1 Sprint Nextel Push to Talk Handsets
1.18 Kodiak Commercial Handsets for Push to Talk
1.18.1 ASUS
1.19 UTStarCom POC Networks
2. PUSH TO TALK (PTT) MARKET SHARES AND MARKET FORECASTS
2.1 Push to Talk Market Driving Forces
2.1.1 Push-To-Talk Market Goals
2.1.2 "Push-to-X"
2.1.3 PTT over Cellular (PoC)
2.2 Push To Talk Mobile Phone Infrastructure Markets
2.2.1 Push To Talk Mobile Phone Infrastructure Market Shares
2.2.2 Push To Talk Mobile Phone Infrastructure Market Forecasts
2.2.3 Manufacturers of PTT infrastructure
2.2.4 Kodiak
2.2.5 Kodiak Strategically Positioned To Leverage Existing Infrastructure
2.2.6 Sonim Develops POC
2.2.7 Sonim
2.2.8 Motorola
2.3 Push To Talk Subscriber Market Shares
2.3.1 Sprint Push to Talk Revenue
2.3.2 Sprint Nextel 2007 Direct Connect 90 Billion Push-To-Talk Connections
2.3.3 Sprint
2.3.4 Push to Talk Services
2.4 Infrastructure for PTT
2.4.1 UTStarcom Infrastructure for PTT
2.4.2 UTStarcom
2.5 Push To Talk Mobile Phone Market Participants
2.5.1 Manufacturers of PTT Mobile Phones
2.5.2 Sonim Technologies
2.5.3 Kodiak Networks
2.5.4 Ericsson
2.6 Push To Talk Costs
2.6.1 Push to Talk Systems Integration Costs
2.7 Push to Talk Subscriber Revenue Analysis
2.7.1 Comparison between POC vs. IDEN performance
2.7.2 Reasons For Poor Adoption Of PoC Over The World
2.8 Subscribers By Region
2.8.1 Discussion of the Push To Talk Market
2.8.2 Qualcomm and Lucent QChat Call Set-Up Performance And Bandwidth Savings
2.8.3 Mobile Subscribers
2.8.4 Push to Talk Handset Shipments
2.9 GPRS-Based PTT and iDEN PTT Applications
2.9.1 Push to Talk Applications Analysis
2.9.2 Small-Screen Rendering Technology
2.9.3 Sprint / Nextel® Walkie-Talkie Push to Talk Pricing
2.9.4 MMS
2.10 Cellular Infrastructure Markets
2.10.1 Base Station Analysis
2.10.2 Wireless Infrastructure Segments
2.10.3 Base Station Controllers BSC Replaced By Radio Network Controllers RNC In 3 G
2.10.4 Macro Base Stations
2.10.5 Node B System Requirements
2.10.6 Wireless Networks
2.10.7 Base Station Installation Analysis
2.10.8 Wireless PAS Network Solutions
2.11 High Availability High Reliability One to N Base Station Telecommunications Middleware Market Shares
2.11.1 High Availability One to N Middleware Software For Wireless Base Station Telecommunications Market Shares
2.11.2 Hughes AIReach
2.11.3 High Availability High Reliability One to N Middleware Software For Wireless Base Station Telecommunications Market Forecasts
2.11.4 Push To Talk Enterprise Workgroup Market Forecasts
2.11.5 Affinity Groups Including Business And Consumer Groups
2.12 Push to Talk Regional Analysis
2.12.1 Motorola PoC Deployed Across Markets Worldwide
2.12.2 Clarity PTT Serving The World Of Smallish Carriers
2.12.3 In Canada
2.12.4 In Slovakia
2.12.5 Growth of Chinese Mobile Handset Market
2.12.6 Wireless Market Regional Analysis
2.12.7 Nokia and Siemens Dominate The European Mobile PTT Phone Market
2.12.8 Adoption In The US Particularly From Sprint
2.12.9 Driving Forces Of Wireless Infrastructure Market
3. PUSH TO TALK CELLULAR (PTT) PRODUCT DESCRIPTION
3.1 Kodiak Networks
3.1.1 Kodiak Uses The Cellular Voice Channels -- Transit Delay Is On The Order Of 200 Msec
3.1.2 Kodiak Integrates PTT Function With Cell Phone Operation
3.1.3 Kodiak Mobile Conferencing
3.1.4 Kodiak Mobile Messaging
3.1.5 Kodiak Group SMS
3.1.6 Kodiak Voice Notes
3.1.7 Kodiak Presence And Contact Management
3.1.8 Kodiak Push To Talk
3.1.9 Alltel Service Provided By Kodiak Networks
3.2 Sonim
3.2.1 Sonim ICS Product Benefits
3.2.2 Sonim Technologies Dispatch Manager
3.2.3 Sonim Technologies Contact Manager
3.2.4 Sonim Technologies XPS PoC Manager for Connections
3.2.5 Sonim Instant Communications Solution (ICS)
3.3 Qualcomm QChat
3.4 Nokia Siemens Networks
3.4.1 Nokia / Siemens3G Femto Home Access Solution
3.4.2 Nokia And Microsoft To Deliver Windows Live Services To Millions Of Mobile Customers
3.4.3 Nokia Siemens Networks’ PoC Solution
3.4.4 China Mobile Group Beijing Co. Ltd (CMBJ) has Nokia Siemens Networks Push-to-Talk over Cellular (PoC) Solution
3.5 Motorola
3.5.1 Motorola PTT Server Solution
3.5.2 Motorola IP Multimedia Subsystem – Based PT Solution
3.5.3 Motorola PTT over Cellular (PoC)
3.5.4 Motorola Push-To-Talk over Cellular Integrated Handset / Client / Server Solution
3.5.5 Motorola Push-To-Talk over Cellular Flexible Configuration
3.5.6 Motorola Push-To-Talk over Cellular (PoC) Reliability
3.5.7 Motorola Seamless End-To-End POC Services:
3.5.8 Motorola PoC Flexible Configuration:
3.5.9 Motorola Deployment Service:
3.5.10 Motorola Installation, Integration & Commissioning Service:
3.5.11 Key Elements Of Motorola Optimization Service
3.5.12 Motorola PTT Operations Service
3.5.13 Motorola Network Security Assessment
3.5.14 Operator Partners Benefit From Motorola PoC Solutions
3.5.15 Motorola PoC Basic Solution
3.5.16 Motorola Push-To-Xperience (PTX)
3.5.17 Motorola Solutions For Small, Medium, Large Operators
3.5.18 Motorola’s Push-To-Talk Over Cellular Flexible Billing Solutions
3.5.19 Motorola iDEN Push To Talk
3.5.20 Motorola PoC Client For Symbian
3.6 Airvana Push-to-Talk Software Over EV-DO Network
3.7 Clarity Communication Systems
3.7.1 Clarity Communication Systems Hosted Push-to-Talk (PTT) Presence Services
3.7.2 Clarity inTouch Push-to-Talk Hosting Solution For Tier Two And Tier Three CDMA Wireless Carriers
3.7.3 Clarity inTouch Push-to-Talk System (PTT) and Location Based Service (LBS) In One Application
3.7.4 Clarity inTouch Push-to-Talk System Where2Talk Application
3.7.5 Location-Based Services
3.8 Celtius Push-to-Talk VAS SDK
3.9 Research In Motion BlackBerry Devices
3.9.1 RIM BlackBerry Support Of Major E-Mail Platforms Exchange, Lotus Notes, and GroupWise
3.9.2 RIM Sells Into The Enterprise
3.10 Microsoft Adds Push E-Mail
3.11 Cisco Model 7921
3.11.1 Cisco PTT VoIP
3.12 S2 Technologies Software Verification Platform for Dual-Mode Wireless Handset
3.13 Conaito Technologies VoIP Evo
3.13.1 AT&T BlackBerry Push To Talk PTT
3.13.2 BlackBerry Curve
3.13.3 BlackBerry Desktop Software Roxio(R) Media Manager
3.13.4 Unlimited Cingular Push to Talk Service
3.14 Ericsson
3.15 Mobilemonday Shanghai Push to Talk
3.16 UT StarCom PAS System Specifications
3.16.1 UTStarcom mSwitch™
3.16.2 UTStarcom Total Control® 1000 Enhanced Data System
3.16.3 UTStarcom 8250 Personal Communications Management System (PCMS)
3.16.4 UTStarcom Network Migration — from Wireline to Wireless
3.16.5 UT Starcom iPAS Advantages
3.16.6 UT Starcom IPAS Mobile Local Loop Solutions
3.17 Research In Motion BlackBerry Devices
3.17.1 RIM BlackBerry Support Of Major E-Mail Platforms Exchange, Lotus Notes, and GroupWise
3.17.2 RIM Sells Into The Enterprise
3.18 Microsoft Adds Push E-Mail
3.19 Cisco Model 7921
3.19.1 Cisco PTT VoIP
3.20 S2 Technologies Software Verification Platform for Dual-Mode Wireless Handset
3.21 Ericsson
4. PUSH TO TALK OVER CELLULAR TECHNOLOGY
4.1 Open Systems
4.1.1 Open Web Services Technology
4.1.2 Open Standards To Define A Common Event
4.1.3 Open Systems
4.2 Service Oriented Architecture (SOA)
4.2.1 IBM Service Oriented Architecture (SOA)
4.2.2 SOA Business Challenge IT Imperative
4.2.3 Service-Oriented Architecture And Relevant Standards
4.3 Push to Talk New Standard Required
4.3.1 Ericsson, Nokia, Motorola and Siemens Collaborated On A PoC Standard For OMA (Open Mobile Alliance)
4.3.2 Sonim Push to Talk Standards Participation
4.3.3 Nokia Push to Talk Services Open Standards
4.3.4 Open Mobile Alliance
4.3.5 Drive Toward A Consistent IMS Environment Between GSM And CDMA2000
4.3.6 IMS
4.3.7 Joint Specification for 3GPP IMS Based Push to Talk over Cellular (PoC) Technology
4.3.8 PoC Faces Stumbling Block Of Interoperability
4.4 Testing Push-To-Talk Over Cellular
4.4.1 Data Packets May Be Delayed Or Re-Ordered
4.5 UTStarcom iPAS Interconnects With The Existing PSTN
4.6 Agilent Direct / Agilent Open PTT Testing
4.7 GPRS RTT Call Set-UP
4.8 Motorola / Nextel Communications Mobile Push To Talk Technology
4.8.1 Sprint Plans On Implementing Qualcomm's QChat
4.8.2 Mobile Tornado, Motorola, Nokia, Ericsson, Siemens, Sonim, Wireless ZT SIP and RTP protocols
4.9 700MHz Spectrum
4.9.1 Google 700MHz Spectrum Positioning
4.9.2 AT&T and Verizon Wireless 700MHz Spectrum
4.10 3G Femto Cells
4.10.1 Multivendor Iu Femto Gateway
4.11 Jennic Full Duplex Reference Design
4.12 Wind and Solar Powered Cell Site
4.13 Push To Talk Technologies
4.14 Key Technologies
4.14.1 Java Technology
4.14.2 Evolving Technologies
4.14.3 Packet based Networks And Application Wireless Technology
4.15 Mobile Web Services
4.16 Mobile Terminal Software Architecture
4.17 Platforms
4.17.1 Software Components
4.17.2 Standards Organizations
4.18 Ericsson, Nokia and Siemens Unified Solution For Push To Talk Over GPRS
4.18.1 Push To Talk Over GPRS and EDGE Networks
4.19 IP Multimedia System (IMS)
4.19.1 Push to talk service
4.19.2 GPRS and UMTS Stacks
4.19.3 Node B Application
4.19.4 Radio Network Control Stack
4.20 Nokia Series 60 Software Platform
4.21 Impact Of Text Messaging
4.21.1 24 Billion SMS Messages
4.22 SIP
4.22.1 IP Prepaid Services
4.22.2 MMS Messaging
4.22.3 Mobile Commerce
4.22.4 Transaction Messaging
4.22.5 Entertainment
4.22.6 Games
4.22.7 List Of Mobile Entertainment Functions
4.23 Corporate Applications
4.24 WCDMA
4.25 TETRA (Terrestrial Trunked Radio)
4.26 EDGE Technology
4.27 Symbian Applications
4.28 Dynamic and Shared Memory VS. Static Memory
4.28.1 Shared Memory
4.29 Technologies Connecting Terminals, Networks, And Applications
4.30 Web Services
4.30.1 SOAP
4.30.2 SOAP Framework
4.30.3 Framework For Developing Web Services
4.30.4 Apache SOAP
4.30.5 Load balancer with SSL support
4.30.6 Points Of Failure
4.30.7 SOAP Limitations
4.30.8 SOAP Protocol Uses Multi-Step Process
4.30.9 Framework Benefits
4.30.10 SOAP Test Strategies
4.30.11 SOAP Solutions
4.30.12 WSDL
4.30.13 WSDL Service Descriptions
4.30.14 UDDI Registry
4.30.15 UDDI Test Registries
4.30.16 UDDI Distributed Web Service Discovery
4.30.17 UDDI Consortium
4.30.18 WS-Inspection Document Extensibility
4.30.19 Language XSLT
4.30.20 OASIS
4.30.21 Open Applications Group OAGIS Standards
4.30.22 Readily Accessible Application-Level Services
4.31 Mobile Terminal Software Architecture
4.31.1 Browser Impact On The Mobile Terminal Software
4.31.2 Photo Exchange
4.31.3 Games Over I-Mode
4.32 Mobile Operating System Function
4.33 Mozilla
4.33.1 Wireless Industry Java Technology
4.34 Symbian Multitasking System
4.34.1 Symbian Multithreading And Co-Operative Multitasking
4.34.2 Multithreading
4.34.3 Co-operative multitasking
4.34.4 Asynchronous Message Oriented Middleware
4.34.5 IBM WebSphere Middleware Messaging Product De Facto Industry Standard
5. PUSH TO TALK OVER CELLULAR (PTT) COMPANY PROFILES
5.1 Agilent Technologies Extends NgN Analysis System to End-to-End Management of IMS Services
5.1.1 Agilent Technologies (NYSE: A) NgN Analysis System
5.1.2 Agilent's NgN Analysis System
5.2 AT&T
5.3 Celtius
5.3.1 CeltiPoC/Presence Server Suite
5.3.2 CeltiServers Implement Standard Interfaces
5.3.3 CeltiPoC/Presence Server Suite Suite Editions and Features
5.4 Clarity Communication Systems
5.4.1 Clarity Communication Systems (inTouch) PTT system.
5.5 Conaito
5.6 Kodiak Networks (16 live installations)
5.6.1 Kodiak Connected Portfolio
5.6.2 Kodiak Conferencing
5.6.3 Kodiak Messaging
5.6.4 Kodiak PTT Presence Manager
5.6.5 Kodiak Customer Base
5.7 Jennic
5.8 Mobile Tornado
5.9 Motorola
5.9.1 Motorola Customers
5.9.2 Motorola Products
5.10 Nokia Siemens Networks
5.10.1 Nokia Siemens Networks A New Company
5.11 Qualcomm QChat (1 Live install in the works}
5.11.1 Qualcomm Push to Talk for WCDMA and EV-DO Chipsets
5.12 Research In Motion (RIM)
5.12.1 BlackBerry RIM technology
5.13 SONIM
5.13.1 Sonim End-To-End Mobile VoIP Platform
5.13.2 Sonim Founding Author Of The OMA
5.13.3 Sonim Enables GSM and CDMA Wireless Data Networks
5.13.4 Sonim Product Categorization
5.14 Sprint Nextel
5.14.1 Sprint Data Services
5.14.2 Sprint Agreements with Motorola
5.14.3 Migrating Customers From iDEN to CDMA Utilizing PowerSource Devices
5.14.4 Sprint Nextel
5.15 UTStarcom
5.15.1 UTStarcom IP Access Innovation
5.16 WirelessZT (15 Countries / Installations)
LIST OF TABLES AND FIGURES
Table ES-1 Push to Talk Cellular Market Driving Forces
Figure ES-2 Worldwide Push to Talk Server and Software Infrastructure Market Shares, Dollars, 2007
Figure ES-3 Worldwide Push to Talk Software and Server Infrastructure Market Forecasts, 2008-2014
Table ES-4 Worldwide Push to Talk Subscribers Market Forecasts, Subscribers and Dollars, 2008-2014
Figure 1-1 Sprint Samsung FCC QChat Telephones
Figure 1-2 Kodiak Networks Commercial Deployments
Table 1-3 Nokia Group Summary of Services
Table 1-4 Push to Talk Target Markets
Table 1-5 Push To Talk Service Application Servers Functions
Table 1-6 Push To Talk Application Server Functions
Table 1-7 Push to Talk Expanded Capabilities
Table 1-8 Sprint Nextel Direct Connect handsets
Figure 1-9 Sprint Nextel Direct Connect Motorola Handsets
Figure 1-10 Kodiak Commercial Handsets for Push to Talk
Table 2-1 Push to Talk Cellular Market Driving Forces
Table 2-2 Push-To-Talk Market Goals
Table 2-3 Push-To-Talk Customer Challenges And System Benefits:
Table 2-4 Number of GSM Connections by Region
Table 2-5 Number of 3GSM Connections by Region
Table 2-6 Number of Wireless Connections by Technology
Table 2-7 Worldwide Wireless Subscriber Connections, Market Segments By Technology, 2007
Table 2-8 Worldwide GSM And CDMA Connections, Number and Percent, 2007
Figure 2-9 Worldwide Push to Talk Server and Software Infrastructure Market Shares, Dollars, 2007
Table 2-10 Worldwide Push to Talk Server and Software Infrastructure Market Shares, Dollars, 2007
Figure 2-11 Worldwide Push to Talk Software and Server Infrastructure Market Forecasts, 2008-2014
Table 2-12 Worldwide Push to Talk Server and Software Infrastructure Market Forecasts, 2008-2014
Table 2-13 Push To Talk PTT and PTT Over Cellular Infrastructure
Table 2-14 Worldwide Push to Talk Services Market Shares, Dollars, 2007
Table 2-15 Sprint Nextel has 49.1 Million subscribers in 2008
Table 2-16 Leading Push-To-Talk Solution Direct Connect™ from Sprint Nextel Benefits
Table 2-17 Service Provider Build-Out Of The Next Generation 3G Systems
Table 2-18 Selected Manufacturers of PTT Mobile Phones
Figure 2-19 Ericsson Push to Talk Web 2.0 Mobile Services
Table 2-20 Worldwide Push to Talk Subscribers Market Forecasts, Subscribers and Dollars, 2008-2014
Table 2-21 Worldwide Wireless Subscriber Forecasts by Region, Millions of Subscribers, 2007-2013
Table 2-22 Worldwide 2G, 2.5G, and 3G Push to Talk Handset Market Forecasts, Shipments, 2007-2013
Figure 2-23 Worldwide Push to Talk Handset Shipments Market Forecasts, Units, 2007-2013
Table 2-24 Worldwide Push to Talk Handset Market Forecasts, Shipments, 2007-2013
Table 2-25 GPRS-based PTT and iDEN PTT Vertical Sectors Applications
Table 2-26 GPRS-Based PTT Consumer Market Applications
Table 2-27 Worldwide Cellular Push to Talk Application Market Segments, 2008
Table 2-28 Selected Examples of Sprint / Nextel Power Pack Plans Including Push to Talk Pricing
Table 2-29 Worldwide Cell Sites by Region Market Segments, 2007
Figure 2-30 Motorola PTT System Architecture
Figure 2-31 Global Wireless Infrastructure Market Segments, 2008
Table 2-32 Factors Contributing To Mobile Systems Infrastructure Growth
Figure 2-33 Base Station Controllers 2.5 g / Radio Network Controllers In 3 G Wireless Networks
Table 2-34 Wireless Network Interface Line Card Functions:
Table 2-35 Node B System Requirements
Table 2-36 Service Provider Build-Out Of The Next Generation 3G Systems
Table 2-37 Market Positioning for UTStarcom PAS Solutions
Figure 2-38 Worldwide High Availability Telco One to N Base Station Infrastructure Market Shares, Dollars, 2006
Figure 2-39 Worldwide High Availability Telco One To N Base Station Infrastructure Market Shares, Dollars, 2006
Figure 2-40 Worldwide High Availability Telco One To N Base Station Infrastructure Market Forecasts, Dollars, 2007 to 2013
Figure 2-41 Worldwide High Availability Telco One To N Base Station Infrastructure Market Forecasts, Dollars, 2007 to 2013
Figure 2-42 Worldwide High Availability Telco One To N Base Station Infrastructure Market Forecasts, Dollars, 2007 to 2013
Figure 2-43 Sprint Nextel Trends in Wireless and Broadband
Figure 2-44 Motorola View Of Enterprise Mobility
Figure 2-45 Growth of Chinese Mobile Handset Market
Figure 2-46 Growth of Chinese Mobile Handset Market Dependent on Mobile Instant Messaging (IM)
Table 3-1 Kodiak PTT Functions
Figure 3-2 Sonim SmartFlow PTT Data Distribution
Table 3-3 Sonim Technologies Infrastructure Solutions For PTT
Table 3-4 Sonim Technologies Functions
Table 3-5 Sonim Technologies Push to Talk Target Markets:
Table 3-6 Sonim Technologies Contact Manager Features
Table 3-7 Sonim Technologies Contact Manager Benefits
Table 3-8 Sonim Technologies Connection Manager
Table 3-9 Sonim Technologies XPS 3.0: Functions
Table 3-10 Sonim Technologies Benefits of XPS PoC Manager
Table 3-11 Minimum Requirements Met By Nokia PTT Solutions:
Table 3-12 Nokia PTT Business Users Solution Target Markets:
Figure 3-13 Nokia Widescreen Multimedia Smartphone Push to Talk Device
Figure 3-14 Selected Nokia Push to Talk Devices
Figure 3-15 Motorola PTT System Architecture
Figure 3-16 Motorola PTT Works Across Many Platforms
Figure 3-17 Motorola Networks PTT Systems Architecture Approach
Table 3-18 Motorola Push-To-Talk over Cellular Flexible Configuration
Figure 3-19 Motorola Push-To-Talk over Cellular (PoC) Over IP Network
Table 3-20 Motorola Push-To-Talk over Cellular PoC Functions
Table 3-21 Motorola Broad Set of Services:
Table 3-22 Motorola Deployment Services
Table 3-23 Motorola Deployment Services Functions
Table 3-24 Key Elements Of Motorola Optimization Service
Table 3-25 Motorola OMA PoC Benefits
Table 3-26 Benefits of Motorola PoC Services:
Table 3-27 Motorola’s Push-To-Talk Over Cellular Flexible Billing Solution Subscriber Criteria Features
Table 3-28 Clarity's inTouch Push-to-Talk system Key Product Features:
Table 3-29 Clarity inTouch Push-to-Talk System Applications Capabilities From The Mobile Phone and From the Dispatch Console
Table 3-30 Celtius Push-to-Talk Value-Added Services VAS SDK Functions
Figure 3-31 Celtius Push-to-Talk Value-Added Services VAS Architecture
Table 3-32 conaito VoIP Evo VoIP Client Features
Table 3-33 BlackBerry Curve from AT&T Push to Talk (PTT) Features
Figure 3-34 Mobilemonday Shanghai Content Application Development for Push to Talk
Table 3-35 UTStarcom System Specifications
Table 3-36 UTStarcom Personal Handyphone System (PHS) Air Interface Specifications
Table 3-37 UT Starcom iPAS Advantages
Table 3-38 UT Starcom IPAS Mobile Local Loop Solutions Advantages:
Table 4-1 Service Oriented Architecture (SOA) Functions
Figure 4-2 Network Architecture Of OMA PoC Solution
Table 4-3 Push-To-Talk Over Cellular Network Elements And Functions That Have To Comply With The Standards
Table 4-4 UTStarcom iPAS Architecture
Figure 4-5 UTStarcom PAS Architecture
Figure 4-6 Agilent Push to Cellular Test Set Up
Figure 4-7 GPRS RTT Call Set-Up Functions
Figure 4-8 Wireless Internet (IP) Technologies Used for Push to Talk
Table 4-9 700MHz Spectrum Auction Openness Principles
Figure 4-10 Schematic Diagram Of The Intelligent Service Node
Figure 4-11 SIP As Key Convergence Protocol
Figure 4-12 Operator Business Support System
Table 4-13 Push To Talk Technologies
Table 4-14 Primary Mobile Services Technologies For Operators And Developers
Table 4-15 Wireless Handset Evolving Technologies
Table 4-16 Wireless Handset Messaging Technologies
Table 4-17 Wireless Handset Content Technologies
Table 4-18 Software Building Blocks Of A Mobile Terminal
Table 4-19 Browser Mobile Terminal Software Aspects
Table 4-20 Mobile Terminal Platform Architecture Modules and Standards
Table 4-21 Wireless Types of Messaging
Table 4-22 SIP Solutions Types
Table 4-23 List Of Mobile Entertainment Functions
Table 4-24 Software Building Blocks Of A Mobile Terminal
Table 4-25 SOAP-Based Web Service Production Environment Testing
Table 4-26 XSLT Transformation of XML
Figure 5-1 CeltiPoC/Presence Server Suite Component And Its Tasks
Figure 5-2 Celtius Push to Talk Presence Network Layers
Table 5-3 Mobile Tornado Partnering
Table 5-4 Mobile Tornado Scaleable Solutions
Figure 5-5 Motorola End-to-End Wireless Enterprise Solutions
Figure 5-6 Motorola View Of Enterprise Mobility
Table 5-7 Nokia Siemens Networks New Company Positioning
Figure 5-8 Nokia Siemens Networks Global Presence
Table 5-9 Sprint Wireless Data Communications Services
Figure 5-10 Sprint / Nextel Second Quarter 2007 Revenue
Figure 5-11 Sprint / Nextel Second Quarter 2007 Operating Statistics
Figure 5-12 Sprint / Nextel Key Operating Metrics
Figure 5-13 Sprint Nextel Investment in WiMax for Broadband
Figure 5-14 Sprint Nextel Key Services
COMPANIES PROFILED
QualComm
Nokia Seimens Networks
Kodiak Networks
Agilent Technologies
Celtius Clarity Communication Systems
Conaito
Jennic
WirelessZT
UT Starcom
SONIM
Motorola
Sprint Nextel
ATT
Verizon
Nokia
LG
Research In Motion (RIM)
Motorola
Samsung
Table ES-1 Push to Talk Cellular Market Driving Forces
Figure ES-2 Worldwide Push to Talk Server and Software Infrastructure Market Shares, Dollars, 2007
Figure ES-3 Worldwide Push to Talk Software and Server Infrastructure Market Forecasts, 2008-2014
Table ES-4 Worldwide Push to Talk Subscribers Market Forecasts, Subscribers and Dollars, 2008-2014
Figure 1-1 Sprint Samsung FCC QChat Telephones
Figure 1-2 Kodiak Networks Commercial Deployments
Table 1-3 Nokia Group Summary of Services
Table 1-4 Push to Talk Target Markets
Table 1-5 Push To Talk Service Application Servers Functions
Table 1-6 Push To Talk Application Server Functions
Table 1-7 Push to Talk Expanded Capabilities
Table 1-8 Sprint Nextel Direct Connect handsets
Figure 1-9 Sprint Nextel Direct Connect Motorola Handsets
Figure 1-10 Kodiak Commercial Handsets for Push to Talk
Table 2-1 Push to Talk Cellular Market Driving Forces
Table 2-2 Push-To-Talk Market Goals
Table 2-3 Push-To-Talk Customer Challenges And System Benefits:
Table 2-4 Number of GSM Connections by Region
Table 2-5 Number of 3GSM Connections by Region
Table 2-6 Number of Wireless Connections by Technology
Table 2-7 Worldwide Wireless Subscriber Connections, Market Segments By Technology, 2007
Table 2-8 Worldwide GSM And CDMA Connections, Number and Percent, 2007
Figure 2-9 Worldwide Push to Talk Server and Software Infrastructure Market Shares, Dollars, 2007
Table 2-10 Worldwide Push to Talk Server and Software Infrastructure Market Shares, Dollars, 2007
Figure 2-11 Worldwide Push to Talk Software and Server Infrastructure Market Forecasts, 2008-2014
Table 2-12 Worldwide Push to Talk Server and Software Infrastructure Market Forecasts, 2008-2014
Table 2-13 Push To Talk PTT and PTT Over Cellular Infrastructure
Table 2-14 Worldwide Push to Talk Services Market Shares, Dollars, 2007
Table 2-15 Sprint Nextel has 49.1 Million subscribers in 2008
Table 2-16 Leading Push-To-Talk Solution Direct Connect™ from Sprint Nextel Benefits
Table 2-17 Service Provider Build-Out Of The Next Generation 3G Systems
Table 2-18 Selected Manufacturers of PTT Mobile Phones
Figure 2-19 Ericsson Push to Talk Web 2.0 Mobile Services
Table 2-20 Worldwide Push to Talk Subscribers Market Forecasts, Subscribers and Dollars, 2008-2014
Table 2-21 Worldwide Wireless Subscriber Forecasts by Region, Millions of Subscribers, 2007-2013
Table 2-22 Worldwide 2G, 2.5G, and 3G Push to Talk Handset Market Forecasts, Shipments, 2007-2013
Figure 2-23 Worldwide Push to Talk Handset Shipments Market Forecasts, Units, 2007-2013
Table 2-24 Worldwide Push to Talk Handset Market Forecasts, Shipments, 2007-2013
Table 2-25 GPRS-based PTT and iDEN PTT Vertical Sectors Applications
Table 2-26 GPRS-Based PTT Consumer Market Applications
Table 2-27 Worldwide Cellular Push to Talk Application Market Segments, 2008
Table 2-28 Selected Examples of Sprint / Nextel Power Pack Plans Including Push to Talk Pricing
Table 2-29 Worldwide Cell Sites by Region Market Segments, 2007
Figure 2-30 Motorola PTT System Architecture
Figure 2-31 Global Wireless Infrastructure Market Segments, 2008
Table 2-32 Factors Contributing To Mobile Systems Infrastructure Growth
Figure 2-33 Base Station Controllers 2.5 g / Radio Network Controllers In 3 G Wireless Networks
Table 2-34 Wireless Network Interface Line Card Functions:
Table 2-35 Node B System Requirements
Table 2-36 Service Provider Build-Out Of The Next Generation 3G Systems
Table 2-37 Market Positioning for UTStarcom PAS Solutions
Figure 2-38 Worldwide High Availability Telco One to N Base Station Infrastructure Market Shares, Dollars, 2006
Figure 2-39 Worldwide High Availability Telco One To N Base Station Infrastructure Market Shares, Dollars, 2006
Figure 2-40 Worldwide High Availability Telco One To N Base Station Infrastructure Market Forecasts, Dollars, 2007 to 2013
Figure 2-41 Worldwide High Availability Telco One To N Base Station Infrastructure Market Forecasts, Dollars, 2007 to 2013
Figure 2-42 Worldwide High Availability Telco One To N Base Station Infrastructure Market Forecasts, Dollars, 2007 to 2013
Figure 2-43 Sprint Nextel Trends in Wireless and Broadband
Figure 2-44 Motorola View Of Enterprise Mobility
Figure 2-45 Growth of Chinese Mobile Handset Market
Figure 2-46 Growth of Chinese Mobile Handset Market Dependent on Mobile Instant Messaging (IM)
Table 3-1 Kodiak PTT Functions
Figure 3-2 Sonim SmartFlow PTT Data Distribution
Table 3-3 Sonim Technologies Infrastructure Solutions For PTT
Table 3-4 Sonim Technologies Functions
Table 3-5 Sonim Technologies Push to Talk Target Markets:
Table 3-6 Sonim Technologies Contact Manager Features
Table 3-7 Sonim Technologies Contact Manager Benefits
Table 3-8 Sonim Technologies Connection Manager
Table 3-9 Sonim Technologies XPS 3.0: Functions
Table 3-10 Sonim Technologies Benefits of XPS PoC Manager
Table 3-11 Minimum Requirements Met By Nokia PTT Solutions:
Table 3-12 Nokia PTT Business Users Solution Target Markets:
Figure 3-13 Nokia Widescreen Multimedia Smartphone Push to Talk Device
Figure 3-14 Selected Nokia Push to Talk Devices
Figure 3-15 Motorola PTT System Architecture
Figure 3-16 Motorola PTT Works Across Many Platforms
Figure 3-17 Motorola Networks PTT Systems Architecture Approach
Table 3-18 Motorola Push-To-Talk over Cellular Flexible Configuration
Figure 3-19 Motorola Push-To-Talk over Cellular (PoC) Over IP Network
Table 3-20 Motorola Push-To-Talk over Cellular PoC Functions
Table 3-21 Motorola Broad Set of Services:
Table 3-22 Motorola Deployment Services
Table 3-23 Motorola Deployment Services Functions
Table 3-24 Key Elements Of Motorola Optimization Service
Table 3-25 Motorola OMA PoC Benefits
Table 3-26 Benefits of Motorola PoC Services:
Table 3-27 Motorola’s Push-To-Talk Over Cellular Flexible Billing Solution Subscriber Criteria Features
Table 3-28 Clarity's inTouch Push-to-Talk system Key Product Features:
Table 3-29 Clarity inTouch Push-to-Talk System Applications Capabilities From The Mobile Phone and From the Dispatch Console
Table 3-30 Celtius Push-to-Talk Value-Added Services VAS SDK Functions
Figure 3-31 Celtius Push-to-Talk Value-Added Services VAS Architecture
Table 3-32 conaito VoIP Evo VoIP Client Features
Table 3-33 BlackBerry Curve from AT&T Push to Talk (PTT) Features
Figure 3-34 Mobilemonday Shanghai Content Application Development for Push to Talk
Table 3-35 UTStarcom System Specifications
Table 3-36 UTStarcom Personal Handyphone System (PHS) Air Interface Specifications
Table 3-37 UT Starcom iPAS Advantages
Table 3-38 UT Starcom IPAS Mobile Local Loop Solutions Advantages:
Table 4-1 Service Oriented Architecture (SOA) Functions
Figure 4-2 Network Architecture Of OMA PoC Solution
Table 4-3 Push-To-Talk Over Cellular Network Elements And Functions That Have To Comply With The Standards
Table 4-4 UTStarcom iPAS Architecture
Figure 4-5 UTStarcom PAS Architecture
Figure 4-6 Agilent Push to Cellular Test Set Up
Figure 4-7 GPRS RTT Call Set-Up Functions
Figure 4-8 Wireless Internet (IP) Technologies Used for Push to Talk
Table 4-9 700MHz Spectrum Auction Openness Principles
Figure 4-10 Schematic Diagram Of The Intelligent Service Node
Figure 4-11 SIP As Key Convergence Protocol
Figure 4-12 Operator Business Support System
Table 4-13 Push To Talk Technologies
Table 4-14 Primary Mobile Services Technologies For Operators And Developers
Table 4-15 Wireless Handset Evolving Technologies
Table 4-16 Wireless Handset Messaging Technologies
Table 4-17 Wireless Handset Content Technologies
Table 4-18 Software Building Blocks Of A Mobile Terminal
Table 4-19 Browser Mobile Terminal Software Aspects
Table 4-20 Mobile Terminal Platform Architecture Modules and Standards
Table 4-21 Wireless Types of Messaging
Table 4-22 SIP Solutions Types
Table 4-23 List Of Mobile Entertainment Functions
Table 4-24 Software Building Blocks Of A Mobile Terminal
Table 4-25 SOAP-Based Web Service Production Environment Testing
Table 4-26 XSLT Transformation of XML
Figure 5-1 CeltiPoC/Presence Server Suite Component And Its Tasks
Figure 5-2 Celtius Push to Talk Presence Network Layers
Table 5-3 Mobile Tornado Partnering
Table 5-4 Mobile Tornado Scaleable Solutions
Figure 5-5 Motorola End-to-End Wireless Enterprise Solutions
Figure 5-6 Motorola View Of Enterprise Mobility
Table 5-7 Nokia Siemens Networks New Company Positioning
Figure 5-8 Nokia Siemens Networks Global Presence
Table 5-9 Sprint Wireless Data Communications Services
Figure 5-10 Sprint / Nextel Second Quarter 2007 Revenue
Figure 5-11 Sprint / Nextel Second Quarter 2007 Operating Statistics
Figure 5-12 Sprint / Nextel Key Operating Metrics
Figure 5-13 Sprint Nextel Investment in WiMax for Broadband
Figure 5-14 Sprint Nextel Key Services
COMPANIES PROFILED
QualComm
Nokia Seimens Networks
Kodiak Networks
Agilent Technologies
Celtius Clarity Communication Systems
Conaito
Jennic
WirelessZT
UT Starcom
SONIM
Motorola
Sprint Nextel
ATT
Verizon
Nokia
LG
Research In Motion (RIM)
Motorola
Samsung
