*************************************************** 
                         NOTICE
***************************************************

This document was converted from
Word97 to ASCII Text format.

Content from the original version of the document such as
headers, footers, footnotes, endnotes, graphics, and page
numbers will not show up in this text version.

All text attributes such as bold, itallic, underlining, etc. from the
original document will not show up in this text version.

Features of the orginal document layout such as
columns, tables, line and letter spacing, pagination, and margins
will not be preserved in the text version.

If you need the complete document, download the
Word97, or Adobe Acrobat versions, if available.

The path and name of the Word97, and Acrobat files
 will be the same as the ASCII Text file except that they  will 
end with the letters wp, doc, or pdf  respectively, 
instead of the letters txt.

*****************************************************

Summary of FCC E911 Phase II Reconsideration Proceeding Multi-Party Meeting
June 29, 2000 

Tom Sugrue, Chief, Wireless Telecommunications Bureau, advised attendees that FCC 
staff had requested this meeting with parties in order to discuss differing views as to what 
needs to be done to facilitate wireless carriers' implementation of E911 automatic location 
identification (ALI) technologies that comply with the FCC's accuracy and reliability 
requirements.  The FCC's goal is to have accurate, reliable, and ubiquitous E911 service, 
but the question today is how to get there.

FCC staff proceeded to pose the following questions to parties in attendance.

1. What ALI solutions are available, or likely to be available, network-based, 
handset-based, or hybrid, within the next few years, i.e., by 2005, for the various 
wireless interfaces?

Verizon Wireless

Verizon Wireless (now comprising the former AirTouch, Bell Atlantic Mobile, GTE 
Wireless, and PrimeCo) indicated that it has been concentrating primarily on testing 
network-based solutions for the CDMA air-interface, and to a lesser degree, for AMPs.  
Verizon stated that it had tested with True Position and U.S. Wireless, but has done little 
independent verification of test results reported by location technology vendors. Verizon 
has primarily been testing in suburban areas.  It has planned an urban and limited 
suburban network-based test in Manhattan that should conclude before the end of 
September, but has not tested in extremely rural areas.  Verizon indicated that it has not 
pursued testing of handset-based or hybrid technologies.
 
Sprint PCS

Sprint PCS indicated that it has been exploring network-based solutions for CDMA since 
the first quarter of 1997, working with Radix, the only developer that was developing a 
network-based solution.  In Spring 2000, Sprint completed a lab test with Radix, which 
showed that the technology works well in ideal situations (suburban), but does not work in 
certain other situations.  Sprint has not done real world testing of this technology.  Sprint 
stated that it does not consider this network solution a good fit and that it would be 
challenged to deploy the technology in its system.  One of the difficulties would be lack of 
physical room in Sprint base stations, because base stations have been shrinking.  Sprint 
has tested Lucent's server-assisted GPS solution in Tampa but no data is available yet.  
Sprint has done some limited testing with Lucent's hybrid forward link triangulation 
(FLT) technology, which has shown some good and bad results.  The technology shows 
some promise and may improve with alternative engineering, but currently does not meet 
the accuracy and reliability requirements. 
  

VoiceStream Wireless

VoiceStream Wireless indicated that it has performed some time-of-arrival (TOA) trials 
for GSM at several sites.  Although it shows some promise for meeting the mandate 
VoiceStream is no longer pursuing that solution, because there is currently no TOA 
equipment available from major vendors for GSM.  VoiceStream expressed concern about 
the location technologies causing a reduction in spectrum efficiency for GSM networks.  
Also, Voice Stream stated that it does not appear that GPS handsets for GSM will be 
available in time.  Enhanced Observed Time Difference (E-OTD) appears to be the best 
solution, and it may be deployable by the deadline.  VoiceStream is currently participating 
in a trial with BellSouth and other GSM operators and vendors, and results will be 
forthcoming.  VoiceStream has not considered a GPS solution.

Ericsson

Ericsson indicated that with respect to GSM systems, it is currently commercially 
supplying cell ID and timing advance location technology in Europe (500-meter accuracy 
or less), and has investigated TOA, server-assisted GPS, and E-OTD.  Ericsson is pursuing 
an enhancement to the cell ID and timing advance technology that moves closer to the 
required accuracy and reliability, but this technology currently does not meet the 
requirements.  Ericsson stated that it has also been looking into E-OTD.  Ericsson believes 
E-OTD will probably be available around the deadlines set forth, but contends that this 
technology will not meet the handset accuracy and reliability mandates (50 meters 67% of 
the time/150 meters 95% of the time for handset-based systems).  Ericsson has performed 
server-assisted GPS lab trials for GSM and some limited field use.  The results so far have 
been good, but there is little enthusiasm from carriers due to added complexities.  

With regard to TDMA, use of cell ID and timing advance raises bandwidth issues and 
yielded poorer results than use of such technology with GSM.  Ericsson's tests of E-OTD 
with TDMA systems yielded results that did not meet the accuracy requirements.  
Ericsson stated that E-OTD would also require TDMA network hardware and software 
additions that can not be accomplished within the required time frame.  Ericsson indicated 
that using E-OTD with TDMA systems is more difficult, and achieves lower accuracy 
levels, than use of E-OTD with GSM, because of differences in bandwidth and processing 
times between the air interfaces.  Ericsson expressed the opinion that use of E-OTD with 
TDMA will be better than Phase I, but will not meet Phase II requirements.

Ericsson stated that, for TDMA and GSM, server-assisted GPS accuracy meets the 
requirements but delivering handsets on schedule would be highly problematic.  Also, 
Ericsson is not pursuing an in-house network solution, and instead is assisting third parties 
with the development of these solutions for CDMA and TDMA interfaces.  Ericsson is 
concerned, however, about having to vouch for the efficacy and reliability of any network 
solution.  Ericsson is using Qualcomm GPS chipsets for CDMA and has not done any 
work on a hybrid solution for CDMA.  The accuracy of the cell ID and timing advance 
solution, when used with TDMA, is 200-500 meters, depending on the environment, and 
will not get much better.  Of the various air interfaces, Ericsson believes that, in the long 
run, GSM will have the most options among location technologies.

Qualcomm

Qualcomm indicated that it has two separate location technology applications: SnapTrack, 
which licenses assisted GPS location technology, and QCT, which manufactures CDMA 
chipsets.  Qualcomm indicated that several major manufacturers are SnapTrack licensees, 
and stated that there is no air interface at a disadvantage with its core technology. 
Qualcomm asserted that one manufacturer plans to develop a base-band device 
incorporating SnapTrack assisted-GPS technology, which will enable manufacturers to 
produce handsets by 3Q 2001.

Qualcomm plans to provide sample GPS chipsets for base-band and RF (cellular and 
GPS), along with accompanying reference designs, by September 2000.  Qualcomm stated 
that some of its equipment manufacturer customers should be able to produce handsets 
within 6 months after that.  Qualcomm has completed extensive testing for combined 
handset solutions.  A handset sample is needed to test software in the field and production 
can begin 6 months after sample is tested.  Qualcomm stated that it has overcome 
interference problems associated with the cellular and GPS frequencies to develop a 
unified antenna that is used in prototype handsets.  Some loss of reception was budgeted 
into the design for this antenna.  Qualcomm asserted that for GPS hardware, battery use is 
insignificant and extra memory will be integrated into the chipset, but less memory is 
needed with time-domain processing.

Ericsson commented that integrating the chipsets into a handset would be expensive and 
will take longer than 6 months.  Ericsson stated that the time frame to move from a chipset 
to a viable handset is more like 9 to 18 months.  Ericsson noted that Qualcomm does not 
supply numerous cell phone components, such as control software, documentation, PC 
board, user interface, buzzer and keypad, and is not involved in customer support and type 
acceptance activities.  Qualcomm replied that Ericsson has successfully used Qualcomm's 
chips in the past, and that Qualcomm would provide base band, MSM, IF, and RF chips 
and software design documentation; moving to a new model is a simple migration from an 
older model.  

Sprint agreed that the additional features, other than GPS, desired by customers would add 
time to the design and production of new models.  Sprint also inquired whether the 
Qualcomm chipset scheduled for sampling in September will incorporate 1X RTD 
capability.  Qualcomm responded that a chipset incorporating 1X RTD capability, the MX 
5100, would be sampled in December 2000. 
Qualcomm stated that, after extensive testing of assisted GPS in favorable and unfavorable 
environments (urban canyons, high-rises, and rural areas) for AMPS, PDC, GSM, iDEN, 
and CDMA (AMPS and CDMA results filed with the FCC), it found there are certain 
environments where assisted GPS will fail (e.g., in a building with a metal roof and metal 
windows).  Results of the assisted-GPS test demonstrated suburban highway accuracy to 
be 5-30 meters; urban high-rise accuracy was 30-90 meters.  With network enhancements, 
assisted GPS would work better in buildings.  

Qualcomm tested the AFLT technology with Sprint and concluded that it would be 
difficult to meet the accuracy mandates using AFLT.  Qualcomm also expressed the 
opinion that the E-OTD hybrid solution, which is similar to AFLT, would not meet the 
accuracy mandates.  

Ericsson stated that it might be able to provide E-OTD handsets for GSM systems towards 
the end of 2001, but can not promise.

VoiceStream anticipated that E-OTD handsets would be available to meet the requirement 
for 50% new activation by October 1, 2001, but is unsure about availability of network 
infrastructure - possibly by 3Q or 4Q 2001.  VoiceStream also indicated that standardized 
interfaces to PSAPs have not yet been finalized.  VoiceStream further expressed the 
opinion that cell i.d. and timing advance may be slightly less accurate than the 200-500 
meters estimated by Ericsson.

2. Will the PSAPs be ready?

APCO indicated that there has been a lack of information in the PSAP community, but 
that is changing and there is significant interest in making Phase II happen.  As for Phase 
I, there were in excess of 3,000 requests from PSAPs (now about 60%).  Three to four 
hundred PSAP personnel have attended APCO's recent seminar series, suggesting there is 
interest in Phase II.  For example, in Texas, there was almost 0% Phase I implementation 
one year ago, and today there is almost 100% implementation.  There has been substantial 
progress after the cost recovery rule clarification, but there is need to break the logjam for 
the handset approach to Phase II since carriers are blaming manufacturers for not 
producing and manufacturers are blaming carriers for not ordering.  PSAPs are more 
interested in Phase II than Phase I and want, in some cases, to go directly to Phase II, but 
do not understand that Phase I is a necessary component of Phase II and will provide the 
fallback when a call cannot be located by Phase II technology.  Costs to PSAPs for 
equipment necessary for Phase II are not that large.

Sprint reported that it has received requests for Phase II and has been proactive because 
there is a lot more interest than for Phase I.  Carriers expressed concern that most costs for 
Phase II implementation are on carriers' side, not the PSAPs' side.  VoiceStream 
estimated that carrier expenses for implementing Phase II would be 10 to 100 times higher 
than implementing Phase I.

4. What are other factors affecting the utility and efficiency of these solutions and the 
decisions that carriers will make?

Verizon stated that it is in the process of introducing tri-mode (PCS/ CDMA 800/ analog) 
handsets.  Handset replacement amongst its existing customer base would be problematic 
and very costly, and thus requires a network solution today and probably a handset 
solution tomorrow.  There are also concerns with first generation products (CDMA in 
particular).  Improvements in accuracy may have to wait until second and third generation 
products.

Sprint indicated that there are serious operational deployment issues for handset 
implementation that will involve considerable negotiations between handset and network 
people, as well as a substantial testing phase to resolve glitches.  In some cases, there will 
be a more expensive handset for a service that is not available everywhere.  Sprint is also 
concerned about the large carrier investment with possibly little or no return on the 
investment.

APCO is concerned with customer unawareness about the safety constraints on wireless 
E911, because many wireless callers assume the PSAP knows where they are located, as is 
the case with calls from wireline phones.

Sprint stated there will be a financial backlash on carriers if someone can not be located.  
Also, other new services are being deployed, e.g., 1X capability which provides data rates 
of 144 kbps and doubling of voice capacity.  Sprint does not want to market GPS handsets 
without 1X capability.

APCO reiterated its concern that the original FCC directive of 1996 has not spurred 
satisfactory movement on the part of carriers.  APCO also expressed concern that every 
day of delay means more non-compliant phones will be sold.  Sprint responded that it is 
not suggesting further delay, but would like to deploy technology that can provide location 
accuracy to the several hundred meters level, such as AFLT, simultaneous with the 
introduction of GPS handsets.

APCO expressed concern that implementing AFLT would impose huge infrastructure 
costs, and will not provide the requisite accuracy levels.  Sprint stated that AFLT and GPS 
standards are the same, so an AFLT-capable network will support GPS.  Sprint further 
clarified that assisted GPS is its preferred long-term approach, but that it would like to 
have multiple mechanisms to be comfortable with E911, such as GPS with AFLT fallback.

Qualcomm noted that GPS could be deployed without Location Measuring Units (LMUs) 
that are needed for E-OTD. A GPS chip will be available by September 2000, and a 
chipset with 1X and GPS by December 2000.   AFLT is hybrid that can be employed with 
GPS.  If a handset can see less than three satellites, add one base station; less than two 
satellites, add two base stations.

5.  Are you comfortable it works?

Sprint replied that the assisted GPS technology works well based on the trials they have 
participated in, but the problem is getting GPS out in the market.  Sprint also expressed 
concern that assisted GPS has never been deployed or tested on a broad commercial scale 
and therefore, it is difficult to say definitively how well it would work in a real-life 
deployment.

VoiceStream asserted that with E-OTD it could hit 100-meter accuracy.  Qualcomm 
challenged this assertion, expressing the opinion that under ideal circumstances E-OTD 
with GSM systems could only reach an accuracy level of 150-200 meters.

Ericsson stated that given availability representations, carriers are reluctant to place orders 
and manufacturers can not produce until orders are placed.  It is the chicken and egg 
phenomenon.

Qualcomm stated that it thinks that AFLT does not meet the 100-meter accuracy standard.  
Its testing has yielded poor results, and Qualcomm believes it is unlikely it will meet the 
standard.  Also, Qualcomm stated that E-OTD raises bandwidth concerns for GSM that 
make it a problematic approach for ever achieving reasonable accuracy levels.

VoiceStream challenged Qualcomm's characterization of GSM technology and stated that 
it is running a large E-OTD in Texas, and, so far, 40% of the results are within 50 meters.  
Testing will continue over the next several months.  Also, VoiceStream indicated that 
there are techniques in E-OTD that can improve the accuracy with GSM.

6. Why not go ahead and order handsets from suppliers?

Verizon stated that legacy equipment is a huge problem and has a strong preference for a 
network solution.  Sprint favors assisted GPS for CDMA, but recognizes the competitive 
pressures that exist for manufacturers and the chicken and egg problem.  Sprint has asked 
manufacturers to develop assisted-GPS technology, but manufacturers will not do so on 
speculation.  Sprint stated that the timing has not been right to place an order.

7.  Conclusions

Qualcomm stated that its GPS technology will be available in the near future and meets 
the mandated accuracy and reliability.  Its technology is widely licensed and will be 
available for all interfaces.  Qualcomm is skeptical of hybrid solutions.

VoiceStream stated that it is committed to its E-OTD technology, and there will not be 
any other technology available for GSM in the allowed time frame.  Though there are cost 
implications and commercial service implications, the first option is to use E-OTD.

Sprint stated that it could not meet performance, cost, and schedule criteria all at once.  
Instead, Sprint will have to use multiple technologies.

Ericsson expressed concern about commercializing solutions and the ability to provide 
infrastructure.  There is some uncertainty whether the technologies can meet the 
performance requirements.  The best approach is not to pursue multiple options but to 
direct investment towards fewer options.

APCO stated that delays are bad for public safety.  Everyone has to be realistic, but lives 
are at stake.  The technology exists, but it is needed on the street.

Verizon stated that its trying hard to meet the mandate, but more testing needs to be done.  
If there are a large number of PSAP requests, Verizon could have difficulty meeting the 
deployment schedule.  Verizon indicates that it will do its best but is not sure if a single 
approach will work for the whole country.


































FCC E911 Multi-Party Meeting
June 29,2000  

Name:							Company/Organization:

Joe Hanna						APCO
Bob Gurss						APCO

Barbara Baffer						Ericsson
Scott Bloebaum					Ericsson
William Gast						Ericsson

Bob Bromery						FCC/OET	
Bob Eckert						FCC/OET
Dale Hatfield						FCC/OET

Alexander Dobrev					FCC/WTB
Patrick Forster						FCC/WTB
Dan Grosh						FCC/WTB
Gil Hopenstand					FCC/WTB
Jennifer Kolen						FCC/WTB
Bill Lane						FCC/WTB
Marty Liebman					FCC/WTB
Ron Netro						FCC/WTB
Jim Schlichting					FCC/WTB
Blaise Scinto						FCC/WTB
Tom Stanley						FCC/WTB
Tom Sugrue						FCC/WTB

Jonas Neihardt						QUALCOMM INC.
Sanjay Jha						QUALCOMM INC.
Saed Younis						QUALCOMM INC.
Ellen Kirk						Snap Track

Jonathan Chambers					Sprint PCS
Brian Finnerty						Sprint PCS
Terry Rayburn						Sprint PCS

Bruce Ciotta						Verizon Wireless
Luisa Lancetti						Verizon Wireless (Wilkinson Barker Knauer	) 

Bob Calaff						Voice Stream
Beth Frasco						Voice Stream
Brian O'Connor					Voice Stream
Robert Rowe						Voice Stream
  In subsequent conversation with WTB Policy Division staff, Qualcomm amended this statement to the 
effect that while samples of a chipset incorporating 1X RTD capability will be available in December 2000, 
this chipset will not incorporate server-assisted GPS capability.  Qualcomm indicated that samples of the 
MX 5100 chipset, which incorporates both 1X RTD and assisted-GPS capability, will be available in March 
2001.   See letter from Veronica M. Ahern, Nixon Peabody LLP, to Magalie R. Salas, Secretary, FCC dated 
July 7, 2000, at 2.
  See note 1 above.
8

2