0. Digital Dividend in Africa
Elizabeth Migwalla
On Behalf of the GSM Association

1. Brief History of the GSMA
Founded in 1987 by 15 operators committed to the joint development of a cross border digital system for mobile communications
Became the global trade group for the mobile industry, representing the vast majority of mobile phone networks across the world
Now encompassing commercial, public policy and technical initiatives, ensuring mobile services work globally
The Association’s members now serve more than 3.5 billion customers
More than 750 operator Members across 218 countries
Over 200 Associate Members (manufacturers and suppliers)
For those of you that do not know, I will give a bit of background on the GSM Association.
Originally founded in 1987, the GSM Association has become the global trade group of the mobile industry representing a very high percentage of mobile operators in the world. . . and more than 3.5 billion consumers who they represent.
The GSMA has 750 operator members, and over 200 associate members, of which Qualcomm is one.

2. Beyond GSM: Voice to Video
HSPA+
42 Mbps
HSPA
14.4 Mbps
GSM
9.6 kbps
GPRS in 2000
GSM First call
made in 1991
HSPA in 2005
3G in 2001
EDGE in 2003
HSPA+ in 2008
LTE
172 Mbps
EDGE
473 kbps
WCDMA
384 kbps
GPRS
114 kbps 3G
HSPA: 120 million
WCDMA: 238 million 2G
GSM: 3.8 billion
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
While the GSM Association has retained its original name, behind that it has over seen a steady evolution of mobile technologies and services through wideband CDMA, HSPA through the release – to the consumer – of LTE technology this year.
This has seen our service offering rise from simple voice, to a wider number of data services. Importantly, with the advent of HSPA, HSPA + and now LTE, we are able to offer video.
Source: Wireless Intelligence, June, 2009
GSM technology holds nearly two decades of proven development

3. Broadcast and Broadband
Video over the internet is a well-established phenomena
YouTube and other social media sites drive video-over-internet usage
BBC iPlayer has huge and growing usage
115m downloads December 2009
120m downloads January 2010
Broadband also has a big role to play in niche TV distribution
The headline relationships between broadcast and broadband are well known. Social media sites have created a huge market for short video clips, but traditional broadcasters are also using the internet as an alternative means of distributing content.
Broadcasters such as the BBC in the UK have realised that, instead of endlessly repeating content on alternative DTT channels, it would be a more efficient use of the UK’s airwaves to make content available on the internet for one week after the live DTT broadcast. Use of its iPlayer service is rapidly growing.
However, broadband also has a role to play for the smaller, niche channels . . .

4. Broadband and the Multi-Channel Environment
Research from Europe as DTV started to mature (2008)
Both UK and France cases show heavy tail-off after first 6-10 channels
In both cases, the top channel accounts for more viewing than all channels outside top 6
DTT is inefficient medium for distribution of very small channels
Online TV / broadband can help: but mobile needs spectrum UK
FRA
These two graphs show channel viewer share – by percentage – in UK and France as their DTT markets began to mature in We will see similar maturity in Africa soon.
The figures show that, after the first 6 to 10 channels, much lower viewing figures occur. These tail off to tiny figures for the last 15 or so. However, these last 15 channels will make the same use of the airwaves – will have the same spectrum demand – as all the others.
Because of this, tiny channels have a very high transmission cost per viewer compared to the bigger ones when broadcast over DTT. Transmitting these niche channels online would greatly improve the efficiency of spectrum usage.
Mobile can provide greater efficiency, but we need spectrum.
Source: Human Capital, 2008

5. Worldwide Mobile Broadband Spectrum
Bandwidth Deployment Options1
US/Canada 700, 850 MHz 1.7/2.1, 1.9, 2.5 GHz
Europe 800, 900 MHz 1.8, 1.9/2.1, 2.5 GHz
Asia-Pacific 450, 700, 850, 900 MHz 1.7, 1.8, 1.9/2.1, 2.3, 2.5 GHz
FDD Blocks/ Spectrum band
5 MHz
10 MHz
20 MHz
2.5/2.6 GHz2
2.1 GHz
(1.7 or 1.9 uplink)
1.5, 1.7, 1.8, 1.9 GHz
900 MHz
800/850 MHz
Digital Dividend3 (700 to 800 MHz) ü ü ü ü ü
Latin America 450, 700, 850, 900 MHz 1.7/2.1, 1.8, 1.9, 2.5 GHz ü ü
Africa & Middle E , 800, 850, 900 MHz 1.8, 1.9/2.1, 2.5 GHz
Mobile’s need for more spectrum is a direct result of the wider services we offer And video takes up a lot of bandwidth.
So just where will these new wider bandwidths come from in Africa.
The key is the digital dividend. ü
Recommended Technology
FDD Blocks
5 MHz
10 MHz
20 MHz
Recommended Technology
HSPA+ & EV-DO Rev. B
HSPA+ & LTE
(2x5 MHz DO Rev. B)
LTE
(2x10 MHz HSPA+) ü ü ü
1Usable spectrum blocks for product implementation. 2IMT extension 2500 to 2690 MHz, 70 MHz+70 MHz FDD in most countries. 3Digital dividend; Region 1 (Europe, Middle East and Africa) MHz, Region 2 (Americas) MHz. Region 3 (Asia) – some MHz (e.g. China, India, Japan, Bangladesh, Korea, New Zealand, Papua New Guinea, Philippines and Singapore) others MHz

6. Africa: Covering All Areas
Africa’s huge landmass creates specific difficulties for network operators
Ensuring all consumers have the benefits of mobile broadband has a strong demand on spectrum and there are two vital bands for the LTE community:
2.5GHz
Digital Dividend band
Coverage of rural areas needs lower frequency spectrum to reach further
Digital divide between urban and rural areas will be lowered by the Digital Dividend
In to provide deliver broadband – and broadband video – to the African continent, the Digital Dividend is vital.
The vast size of the African continent provides a unique challenge in providing comprehensive mobile coverage. Significant landmass is coupled with large numbers of rural population.
This challenge is increased due to the lack of fixed line infrastructure: mobile voice massively outweighs fixed, while mobile broadband has overtaken fixed broadband in most countries, putting intense pressure on spectrum allocations.
The African need for frequency spectrum for broadband is thus as strong as anywhere else in the world.

7. MOBILE & IMT (9 countries)
WCNC Key Note
The band MHz
790 MHz
862 MHz
880 MHz
960 MHz
BROADCASTING
MOBILE & IMT
IMT-2000
GSM/WCDMA
REGION 1 (EMEA)
698 MHz
806 MHz
824 MHz
894 MHz
MOBILE & IMT
IMT-2000
cdma2000/WCDMA
REGION 2 (Americas)
698 MHz
790 MHz
862 MHz
880 MHz
960 MHz
This is an excellent portrayal of the outcome of WRC 07 in respect of IMT identification.
Since October 2007 ITU regions have been engaged in meetings to agree on channelization arrangements
The main aim is harmonization , for the obvious reasons of economies of scale.
MOBILE & IMT (9 countries)
MOBILE & IMT
IMT-2000
GSM/WCDMA
IMT-2000
cdma2000/WCDMA
REGION 3 (APAC)
824 MHz
894 MHz

8. The band 698-960 MHz REGION 1 (EMEA) AFRICA BROADCASTING BROADCASTING
WCNC Key Note
The band MHz
790 MHz
862 MHz
880 MHz
960 MHz
BROADCASTING
MOBILE & IMT
IMT-2000
GSM/WCDMA
REGION 1 (EMEA)
790 MHz
862 MHz
880 MHz
960 MHz
BROADCASTING
MOBILE & IMT
IMT-2000
GSM/WCDMA
IMT-2000
Cdma2000
While Africa is in ITU Region 1, a closer look reveals that it is quite similar to Region 3 in its current allocations and assignments.
Thus the so called “dividend” in the MHz is effectively reduced by 38MHz ( illustrative, bear in mind the centre gap)
Causes a bit of a challenge , Europe rapidly moving towards agreed harmonized channeling plan. Are there other options?
824 MHz
894 MHz
AFRICA

9. The UHF Digital Dividend: Fragmentation Risk
Analogue TV
Analogue TV only
470
DTT
862 MHz
Transition
Analogue. + DTT
Holes
Avoid fragmentation
Full DTT plan
Switch over
UHF TV frequencies after SWO
470
862 MHz
Source: Qualcomm
Qualcomm Proprietary

10. Harmonisation is vital for Mobile services
Digital Dividend
Guard band
Fragmented Digital Dividend / Unusable for mobile systems
470
862 MHz
Harmonised Digital Dividend
Reshuffling of frequencies to harmonise a sub-band
470
862 MHz
Source: Qualcomm
Qualcomm Proprietary

11. Please contact rbateson@gsm.org for more information
Conclusions
Assess the REAL need of Digital TV and the most spectrum-efficient means of distributing
Assign DTT frequencies from the lower part of the band: even if re-planning is needed
Ensure that regional discussion takes place and bear in mind opportunities for harmonization with other regions
Old broadcast models are changing: mobile broadband can help the broadcast community reach more people more efficiently
Please contact for more information
How much digital content is there? What have other regions done?
698 MHz seems to be a natural choice for harmonization with region 2 and parts of region 3
2012/13 should see maturing of LTE, thus give additional insight to inform choices.
These considerations must be done as a region/sub regions; excellent frameworks exist; SADC; WATRA; EAC etc.
GSMA and its members are ready to support the broadcast community in delivering more content to more people.