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Over-the-Air Service Provisioning
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ANSI-41 Explained
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It reduces costs by avoiding the need to pay independent dealers for each subscriber activation
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The key to these advantages is that OTASP must be properly implemented The average consumer can have a difficult time choosing a service provider, learning about wireless services, and learning how to operate the mobile station For OTASP to be successful, wireless service providers must have highly trained customer service representatives to interface with potential subscribers during the OTASP process Also, service providers must offer clear and simple documentation to enable potential subscribers to initiate the OTASP process One of the primary requirements of OTASP is the ability to provide an authentication key (A-key) to a mobile station to enable authentication Authentication is the process by which information is exchanged between an MS and the network to confirm legitimate use of the MS The transmission of information over the air interface to generate the Akey in the MS must be a very secure process to eliminate cloning fraud Figure 151 shows an example flow chart for a typical OTASP scenario
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What is Over-the-Air Parameter Administration
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Over-the-air parameter administration (OTAPA) is similar to OTASP since the function involves the programming of NAM parameters into the mobile station over the air interface OTAPA enables remote programming of the mobile station parameters subsequent to initial activation OTAPA is used to program preferred roaming lists (PRLs), intelligent roaming databases (IRDBs), and changes to the MIN due to area code changes Note that OTAPA requires no customer service intervention and these NAM parameters can be programmed into the mobile station whenever it is powered on and without the knowledge of the subscriber OTAPA sessions are initiated autonomously by the network and do not limit the subscriber s ability to make or receive calls In fact, OTAPA can occur while a call is in progress Figure 152 shows an example flow chart for a typical OTAPA session
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Downloaded from Digital Engineering Library @ McGraw-Hill (wwwdigitalengineeringlibrarycom) Copyright 2004 The McGraw-Hill Companies All rights reserved Any use is subject to the Terms of Use as given at the website
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Over-the-Air Service Provisioning
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Over-the-Air Service Provisioning
Figure 151 Example flow chart of the typical sequence of procedures for a successful OTASP session
user obtains a mobile station
user provides charged battery or external power source for MS
service center answers call and establishes dialogue with the user
user chooses subscriber features and directory number
user is within an OTASP coverage area
network uploads current NAM parameters (optional)
customer service representative creates subscriber profile in system
user turns on mobile station power
mobile station & network perform A-key generation procedure
network transmits required parameters into mobile station NAM
user selects which NAM to program
mobile station & network perform SSD update procedure
customer service representative disconnects call
user chooses service provider
voice privacy & message encryption activated (optional)
mobile station informs user of successful activation
mobile station accesses network with OTASP feature code
customer service rep obtains information need for verification
service provider authorizes subscriber for service
network completes call to customer service center
verification successful yes
user can now operate phone
service denied to user
Downloaded from Digital Engineering Library @ McGraw-Hill (wwwdigitalengineeringlibrarycom) Copyright 2004 The McGraw-Hill Companies All rights reserved Any use is subject to the Terms of Use as given at the website
Over-the-Air Service Provisioning
Figure 152 Example flow chart of the typical sequence of procedures for a successful OTAPA session
wireless service provider invokes OTAPA for a specific mobile station
Part 2:
ANSI-41 Explained
service provider determines the MS is registered in an OTAPA-capable system
service provider unlocks the MS (optional)
the MS authenticates the network (optional)
service provider requests NAM parameters from MS (optional)
service provider transmits NAM parameters to MS
upon command, the MS commits parameters to memory
OTAPA is complete; MS resumes normal operation using updated parameters
Downloaded from Digital Engineering Library @ McGraw-Hill (wwwdigitalengineeringlibrarycom) Copyright 2004 The McGraw-Hill Companies All rights reserved Any use is subject to the Terms of Use as given at the website
Over-the-Air Service Provisioning
15:
Over-the-Air Service Provisioning
Where are OTASP and OTAPA Functions Specified
OTASP functions are specified in three general sections of TIA/EIA/IS725-A:
Sections 1, 2, and 3 specify the functional overview and stage 1 description of OTASP and OTAPA Sections 4T 9T (for TDMA) specify the detailed protocol (stages 2 and 3) and procedures for TDMA network OTASP operation Sections 4C 9C (for CDMA) specify the detailed protocol (stages 2 and 3) and procedures for CDMA network OTASP operation
Each of the CDMA and TDMA sections is analogous to each other Note that each section of TIA/EIA/IS-725-A specifies the section of ANSI-41 where this information should be added
Sections 4C and 4T provide the automatic roaming functions supporting OTASP Existing intersystem operations used for new scenarios and new intersystem operations along with the message parameters are described This section is designed as an addendum to part 3 of ANSI-41 (ANSI/TIA/EIA-413) Sections 5C and 5T are sections within TIA/EIA/IS-725-A that provide new sections 8C, 9C and 8T, 9T for part 3 of ANSI-41 (ANSI/TIA/EIA413) Sections 8C and 8T specify the individual OTASP call scenarios for all the automatic roaming functions Sections 9C and 9T specify the individual OTAPA MS programming scenarios Sections 6C and 6T provide the detailed signaling protocols for OTASP This section is designed as an addendum to part 5 of ANSI41 (ANSI/TIA/EIA-415) Sections 7C and 7T provide the detailed procedures for OTASP This section is designed as an addendum to part 6 of ANSI-41 (ANSI/TIA/EIA-416)
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