1. Workshop on � �Universal Access & Service (UAS) & Broadband Development World Bank
23 November 2009, Washington D.C.
2. Introductions Intelecon – Universal Access & Service (UAS), Regulation, �ICT applications & Market strategy
UAS Policies & funding strategies & advisory services for Uganda, Botswana, Malawi, Mozambique, Burkina Faso, Peru, India, Nepal, Mongolia, Russia, Saudi Arabia
Private sector advice, incl. Contribution of Mobile to Universal Access (GSMA), various strategic market & due diligence studies
ICT Applications – Mostly recent: m-banking for Pakistan, Mobile Money User Study for IFC
www.inteleconresearch.com
Consultants present
Andy Dymond – Managing Director
Steve Esselaar – Principal Telecommunications Consultant
Kyle Whiting – Senior ICT Consultant
3. ICT Regulation Toolkit: Module 4 – Universal Access & Service Includes:
50 page Executive Summary
Practice Notes with case examples
Online Reference documents
4. Outline of Workshop
5. Definitions Universal access (UA): ubiquitous access to service
e.g., at a public place,
also called public, community or shared access
Universal service (US): every individual or household can have service, using it privately
at home or increasingly, carried with the individual through wireless devices such as mobile phones or PDAs
Universal access and service (UAS): the generic term when referring to both UA & US or the concept
Developing countries targeting both UA and US to voice
US to voice and UA to Internet in same program
US for voice has been typical target in developed nations
UA for voice and then also Internet the target for developing countries
Now many developing countries can go for US for telephony, though Internet and broadband is mostly still UA targets
Hence the generic term UASUS for voice has been typical target in developed nations
UA for voice and then also Internet the target for developing countries
Now many developing countries can go for US for telephony, though Internet and broadband is mostly still UA targets
Hence the generic term UAS
6. UAS Concepts
7. Objectives & targets
8. Importance of QoS – Saudi example In mid/late 2008, two leading operators reached
39.5% of geographical area with low outdoors signal
31.5% with medium quality outdoor signal
Population coverage
98% with med. Quality outdoor signal
96% with indoor signal
Around 2,000 of 15,000 villages without service
Demand survey showed 22% �of villagers “with service” have poor QoS
Therefore target indoor service
9. UAS targets - examples Targets should be:
Focused on needs that have clear indicators & high priority, so that efforts are not spread too thinly among too many targets;
Designed to anticipate needs 3-5 years in the future;
Ambitious but realistic in the light of a country’s actual situation;
Reviewed regularly (e.g., every two or three years);
Objectively measurable, so that progress can be assessed.
Targets should be:
Focused on needs that have clear indicators & high priority, so that efforts are not spread too thinly among too many targets;
Designed to anticipate needs 3-5 years in the future;
Ambitious but realistic in the light of a country’s actual situation;
Reviewed regularly (e.g., every two or three years);
Objectively measurable, so that progress can be assessed.
10. Gap model – theoretical framework for UAS Over last few years operators have bridged the market efficiency gap for voice
The smart subsidy zone has narrowed
The true access gap is typically last 2-5% population
11. What are the key UAS trends? Much more ambitious goals – towards e-inclusion
Target dates compressing
Internet more closely aligned with voice
More experience with various approaches
More complex interactions with other policies
Greater interest in reaching the poor by commercial companies
We will address/illustrate these throughout presentation
12. Much more ambitious goals Driven by mobile success
Countries are achieving UA for voice and move to US goals for voice as mobile phone penetration rises
Migration to 3G increases Internet expectation
Household penetration more important for Internet Make the point about household penetration: e.g., 25% sub penetration could mean theoretically 100% HH penetration if 4 persons per HH – however, this does not account for business phones and 2nd and 3rd phones per family – nevertheless, a country with 60% sub penetration might be close to US, though there are likely small pockets of unserved areas and very poor families that are not served
Population penetration often includes up to 40%� duplicate SIMs and inactive accounts
However, household penetration may be very high,� E.g., Saudi Arabia is around 98%, � Philippines estimated at 70%
Make the point about household penetration: e.g., 25% sub penetration could mean theoretically 100% HH penetration if 4 persons per HH – however, this does not account for business phones and 2nd and 3rd phones per family – nevertheless, a country with 60% sub penetration might be close to US, though there are likely small pockets of unserved areas and very poor families that are not served
Population penetration often includes up to 40% duplicate SIMs and inactive accounts
However, household penetration may be very high, E.g., Saudi Arabia is around 98%, Philippines estimated at 70%
13. Much more ambitious goals (2) However, in parts of sub-Saharan Africa, voice access is still an issue for a considerable part of population Can mostly be addressed with improved market efficiency – however, typically around 5% are in “real” gap – i.e., commercially not viable – some even need operating subsidy
There are some extreme cases on this chart e.g. Namibia, Madagascar and Congo DRC which have between 5-20% true access gap
Can mostly be addressed with improved market efficiency – however, typically around 5% are in “real” gap – i.e., commercially not viable – some even need operating subsidy
There are some extreme cases on this chart e.g. Namibia, Madagascar and Congo DRC which have between 5-20% true access gap
14. Much more ambitious goals (3) Internet UAS � objectives require � broadband, but still a� long way to go
Focus shifts away� from simple access to
Bandwidth/speed
ICT capacity/ ability
Applications/services
UAS goals will� continue to rise with� technology & service� development –� towards e-inclusion
15. UAS integration with other programmes Education
Vanguard user to be targeted under UAS
First priority & demand – the emerging generation
Education Ministry responsible for the computer strategy
e-Government / e-governance
ICT improves administration, services, health, etc.
Accountability
Electricity
Raises the potential for ICT demand
Reduces the complexity & cost of infrastructure build-out
Microfinance and m-banking
Allied initiatives with pro-rural and pro-poor direction
m-banking regulated under Central bank but reliant on increasing ICT reach & telecom operator innovation
16. Trend to “e-Inclusion”- ICT & all sectors EU-centric term but is the trend globally.
Includes both ICT and the use of ICT to achieve wider inclusion objectives.
The Riga Declaration (June 2006) stresses actions in the following areas:
Improve digital literacy & competencies;
Reduce geographical digital divides;
Use ICT to promote cultural diversity;
Promote inclusive e-government;
Use ICT to address the needs of older workers & elderly
Enhance e-accessibility & ICT usability for people of all abilities, gender & social standing.
17. UAS and broadband policies are merging
18. Traditional incumbent obligations (USOs)
Obligation & compensation (Historic & superseded)
Regulatory reform
Several prior measures have fundamental impact on the achievement of UAS
Competitive subsidy distribution (UASFs)
Licensing and UAS
Non-Government & local community contributions
Open access, shared facilities & ICT backbones Main Approaches to UAS� Traditional approaches are here listed only– not sure if they need to be explained - how it was in the past, how it is now
Main point is that traditional approaches
Were to put USO on a monopoly player, or , in a Liberalizsed market, on the dominant player
In case of the latter, it is very complicated to come up with USO costs to compensate the USO operator
- Traditional approaches are here listed only– not sure if they need to be explained - how it was in the past, how it is now
Main point is that traditional approaches
Were to put USO on a monopoly player, or , in a Liberalizsed market, on the dominant player
In case of the latter, it is very complicated to come up with USO costs to compensate the USO operator
-
19. Reform first Regulatory reform, especially competition, accelerates achievement of UAS – regulatory reform is key first step in UAS policy
Key elements include:
Modern regulatory framework (addressing convergence)
Effective regulator
Effective regulation of competition
Interconnection and pricing
Spectrum allocation reform
Technology & service neutral licensing
Open access & regulating dominant markets
Taxes, import duties and fees
Implementing UAS policies in badly regulated markets is highly ineffective (e.g., higher subsidy costs)
Tell the Mozambique story:
Only two mobile operators, one 100% government owned – UAS programme failed (gov-owned operator was forced to cover unviable places and had then no interest in any additional UAS bidding; private operator had hard time to compete against gov-owned operator and hard time to get fair treatment by ineffective regulator – no interest in UA bid)
Introducing third mobile operator and improving regulator likely to have bigger impact on UAS
Tell the Mozambique story:
Only two mobile operators, one 100% government owned – UAS programme failed (gov-owned operator was forced to cover unviable places and had then no interest in any additional UAS bidding; private operator had hard time to compete against gov-owned operator and hard time to get fair treatment by ineffective regulator – no interest in UA bid)
Introducing third mobile operator and improving regulator likely to have bigger impact on UAS
20. Regulatory /licensing impact on mobile growth Comparison for GSMA showed specific impacts of regulatory decisions & general policy
New competition entry
Decision on semi-fixed vs. mobile disputes
Weight of taxation
21. Licensing & UAS Countries that reform their licensing regime in response to convergence, with technology neutral or unified licences, have major opportunity to incorporate new UAS targets
UAS targets more easily accepted in return for greater flexibility of new licences
Even without reform, newly offered licences could also include useful territorial and UA obligations to Internet & broadband
Important that those conditions are public in advance
South Africa’s new entrant Neotel has to provide broadband connectivity to 5,000 public schools and rural medical clinics
Competition for new spectrum based licenses (e.g., 3G, WiMAX)
Mandatory roll-out targets & public and school access requirements
Matching attractive urban with les attractive regions - Anatel in Brazil used this approach for their 3G frequency auction (Sao Paulo paired with state in poor North-East etc.)
22. Enabling regulation for broadband�� Good competitive practice also applies to broadband – look first at regulation
Open access to dominant access networks
Access to international connectivity & capacity
Competition, joint volume purchase or both?
Liberalization of backbone:
Permission for wholesale
Enforcement or inducement to sharing & co-location
Tax/fiscal incentives to network build-out
Planning for converged services
What does IP transition & NGN need?
VOIP and multi-media
23. General recommendations ITU Sept 2008
24. Competing for subsidies & UAS Funds Competitive subsidy allocation mechanism & smart subsidy (OBA):
One-time partial subsidy that leverages additional commercial investment
Subsidy minimized through competitive procedure
Amount of money required by service provider to bring loss-making services to an acceptable rate of return over long term
only shortfall between revenue & costs is paid
exact amount determined by bidders through competitive tender
projects are selected that are commercially viable in the long-run after initial subsidy – no ongoing subsidies
25. “Smart subsidy” OBA amount “The amount of money required by an operator to bring loss-making services to an acceptable rate of return over the long term”
Specific services in a target area – e.g. payphones, Internet & � private service in specified target areas
Once-only agreement
Business sustainable in the medium/ long term
26. How UASF OBA competition is administered UASF Fund Manager initially estimates the 5 or 10 year revenues & costs, and estimates the “financial gap” (Max. allowable subsidy)
Bidders (operator-investors) make their own estimate - at or below the maximum allowable subsidy
The total agreed subsidy will be distributed to the lowest bidder over a limited period (e.g. the first 2-3 years) and will not need to be repeated. The operator accepts a 5-10 year (or permanent) licensed obligation to provide the minimum level of service, but is also expected to expand and serve private demand in the target areas
Internet & Broadband less certain finances than voice – tend to allow subsidies > 100% of Capex costs
27. Use of UAS Funds Funds have been used for
Meeting regional and rural service targets for telephony and Internet services
Broadband and backbone development
Supporting key users - rural schools and health clinics, to access the Internet
Supporting national and local content, services and applications development that stimulate Internet take-up and usage
ICT capacity building
Supporting various activities related to regionally balanced network and service development, such as the creation of Internet Exchange Points (IXPs) and regional Internet points of presence (POPs)
Around 50 countries have UASFs.
28. UAS Funds – best practice advantages Key principles & elements of best practice UASFs:
Transparent and fair means of allocating subsidy – all operators pay proportionally equal amount and technology-neutral tenders give all equal chance to win (vs. mandating USO)
Provides incentives for innovation and cost-minimization (vs. re-imbursing USO providers their costs)
“Pay or play” in practice – operators can choose if they want to particpate
UASF programs developed with industry & stakeholder consultation
Focus on ongoing sustainability
Independent of Government, audited & publicly reported
29. Examples of UASF successes Overall too few evaluation/ impact studies on UASFs
Peru, Colombia and Chile – 1st generation
Uganda - 1st in Africa – leveraged mobile
(practice note)
Mongolia – Highly successful in achieving operator collaboration – voice & broadband
(practice note)
India – Cumbersome but transforming – tower sharing
Pakistan – Professional & successful in mobile and broadband projects
30. UASF total experience to date – Hmmm! Some funds have not been allocated in a technology-neutral manner (e.g. India, Russia)
Some funds have accumulated money and not disbursed or too little
E.g., Malaysia, Brazil & India
In some cases, UAS programme planning and implementation too slow – overtaken by market development
No fund has been capable of distributing more than 2% of sector revenue Make the point that India has now changed its policy (but earlier was subsidising BSNL gov owned operator with mobile operator money
UAS is also overtaken as it takes t(too much) ime to adopt UAS policy and regulationMake the point that India has now changed its policy (but earlier was subsidising BSNL gov owned operator with mobile operator money
UAS is also overtaken as it takes t(too much) ime to adopt UAS policy and regulation
31. Key lessons - future rural broadband development Strong focus on improving regulation
Technical Assistance should include assisting the UAS policy adoption process and the passing of necessary legislation and regulation – as this is an area of delay
Otherwise UAS projects need to be developed for implementation in 2-3 years – and require update shortly before implementation
Levies should be limited to 1-2% and allowed to reduce over time as UAS targets are achieved
UASFs need stronger capacity building element and efficiency – also explore “company” models – e.g., Pakistan
Competitive mechanism & collaborative approach with industry can work well
32. NGO & community initiatives (1) Bottom up approaches (vs. top-down policy driven initiatives)
Most successful example are micro-finance & entrepreneurial village phone initiatives
Community networks
fairly recent and few established examples – usually small scale (i.e., solving the problem in one community, not nation-wide) – depend on local leadership/champion
Too complex for effective national programs
Telecentres
wide range of models – mixed record but successful if there is a network of telecentres, & financing model that secures ongoing sustainability
good Internet connectivity essential – best to follow UAS infrastructure projects
33. NGO & community initiatives (2) Community radio or local radio
Local radios connected to the Internet are successful intermediaries in community to overcome issues of pre-literacy, lack of ICT training and language barriers
Co-operatives
Only thrive in handful of countries – require certain conditions
Regional or rural operators
Limited experience (e.g., Nigeria, South Africa) difficult -require special/strong regulation to be protected from bigger players
Temporary phenomenon – become national operators (through acquisition or own drive to grow)
Possible tool to introduce more competition – also for broadband – cover rural area first and then be allowed to provide national service
34. Backbone development & open access Important because
Limited ICT access if backbone does not reach all parts of country
Challenge with single backbone – access for all at reasonable cost-based prices
Increased demand for bandwidth capacity & investment costs for NGNs can potentially create bottlenecks
Increased attention on backbone development – some UASFs have financed backbone & transmission extensions� (e.g., Chile, Pakistan, Nigeria)
35. Backbone development & open access (2) Opening networks of dominant operators to wholesale service provision: non-discriminatory access & pricing
Through price regulation (least invasive) to functional, operational or structural separation (costly and complex)
Backbone extensions via competitive UASF bid
Many UASF projects already included backbone extensions and open access policies (Nigeria, Uganda, Mongolia)
Alternative network options
If not already liberalized, license alternative network operators (electricity, gas, railway) and allow existing operator to sell excess capacity
Building new wholesale backbone-only networks
Have been considered, few existing examples (Canada, EU) – best operated independent of existing operators, wholesale only and open access
36. Backbone development & open access (3) Infrastructure sharing – form of open access
India’s USOF identified locations for 11,000 rural mobile infrastructure towers, buildings & power supply (passive infrastructure) to be shared by multiple operators
Consulted with the industry and secured broad support
Competition for 5 year subsidy was successful and bids were below the “reserve” price – mostly bid by independent tower operation companies
Separate competition for 3 mobile operators to use each tower was overwhelmingly successful – “negative” bids (no net subsidy required)
37. Tower sharing – for broadband deployment Much of the voice telephony needs in rural areas met by mobile service
Digital Backbone links all sites
Fibre or microwave
Can be developed for broadband
Initial demand for Internet services mostly in vicinity of small towns & district centres,
Use GSM EDGE, CDMA, 3G, Wi-Fi, WiMAX type wireless from same towers
How far will broadband reach?
Smaller operating radius (<5Km)
Need more sites? (depends on Min Bandwidth specification)
‘Open Access’ to towers a key UAS policy tool
38. Voice & Internet situations – Saudi case
39. Financing UAS & broadband Government aid for ICT infrastructure has diminished
e.g., OECD: USD 1.2 billion in 1990 to ~200 million in 2002
However, some major broadband investments now underway – USA, UK, Finland
In developing countries, mainly private sector funded UAS achievement
through commercial drive
through UASFs
Through philanthropic/commercial/NGO initiatives (e.g., GSMA Development Fund, Grameen Phone)
Donor focus on policy & regulatory support, ICT service applications and capacity development
Will this be enough for broadband development?
40. Issues of cost versus speed / bandwidth��Factors emerging in Saudi UAS consultation Broadband “coverage” dependent on
Bandwidth required
Capacity & usage demand per cell
Frequency of wireless signal
Targeting 512 kbps could cost 3x 128 kbps due to
Technical Options - 2G (e.g., EDGE) versus 3G (HSPA)
Frequency Spectrum policy
Thus broadband UAS could depend on spectrum policy
900 MHz versus 1800/2100 MHz
GSM only versus technological neutrality
Whether WiMAX licensing opportunity is leveraged to achieve rural roll-out
41. Financing UAS & broadband (2) Compared to telecom, more money is also needed for
Providing public Internet/broadband centres throughout the country
Improving PC penetration through PC loan/ grant programs – to increase broadband subscriptions
ICT capacity building campaigns
Accelerating e-gov services for rural/ poor population (possibly initially through mobile SMS)
But remember – some e-applications (e.g., m-money) are not necessarily bandwidth hungry
42. Philippines – hindrance is demand & applications 6500 secondary schools; ~2,000 connected by private initiative (GILAS), remaining 4,500 will be connected by end 2009/ mid 2010
So what is needed to support Broadband:
Regulatory assistance to create enabling environment – fast
- UAS policy that addresses the computer problem and connectivity -e.g., loan programs for PCs, Internet cafes, connectivity for all schools, hospitals, etc – and reaching unviable places
Strong focus on helping government with e-services, own interconnectivity, ICT capacity 6500 secondary schools; ~2,000 connected by private initiative (GILAS), remaining 4,500 will be connected by end 2009/ mid 2010
So what is needed to support Broadband:
Regulatory assistance to create enabling environment – fast
- UAS policy that addresses the computer problem and connectivity -e.g., loan programs for PCs, Internet cafes, connectivity for all schools, hospitals, etc – and reaching unviable places
Strong focus on helping government with e-services, own interconnectivity, ICT capacity
43. Broadband & e-applications Broadband benefits
Review of broadband issues & challenges
Overview of broadband strategy options
Best practice responses
Country case examples
44. Broadband & e-applications What has changed with the advent of broadband?
“The need for speed” – new digital divide
In the future, UAS broadband minimum requirements will have to be established based on minimum services and applications which should be accessible for all – e.g., should people be able to watch TV over the Internet?
Background info for graph:
256 kbps is commonly accepted as the minimum acceptable.
The range of speeds show the advertised lowest & highest speed consumer broadband plan offered using DSL technology. Higher speed, mass market broadband plans using fiber optic connections are available in several high-income economies, with speeds from 100 Mbps to 1 Gbps. For Bangladesh, speeds refer to a cable modem plan.
In the future, UAS broadband minimum requirements will have to be established based on minimum services and applications which should be accessible for all – e.g., should people be able to watch TV over the Internet?
Background info for graph:
256 kbps is commonly accepted as the minimum acceptable.
The range of speeds show the advertised lowest & highest speed consumer broadband plan offered using DSL technology. Higher speed, mass market broadband plans using fiber optic connections are available in several high-income economies, with speeds from 100 Mbps to 1 Gbps. For Bangladesh, speeds refer to a cable modem plan.
45. Benchmarking Study in 2009 for S. Arabia Minimum download speed at the customer level in rural (UAS) programs
Consider the incremental costs of bandwidth in rural areas (bandwidth versus radius)
46. The benefits of broadband Measuring impact of broadband still in early phase; few quantifiable and internationally comparable data;
Currently restricted mostly to developed nations
However, findings so far support
ICT sector growth & macro-economic multiplier
Productivity gains, growth in employment, growth in businesses
Transformation of how individuals, companies & government work, communicate and interact
Reduction in pollution (due to reduced travel)
Potential socio-economic impact significant
Expected benefits especially in education & health delivery; improved governance & transparency Impact varies from country to country
vVriation is mainly dependent on three factors:
the size of country (the greater the number of subscribers, the greater the benefit)
the cost of transportation (the higher the cost of transportation, the higher the benefits of reducing travel through ICT)
the value of time (the more time is valued, the higher the benefits as ICT saves time).
There seems to be a lack of studies that focus more on social impact of broadband – and impact in developing countries
Impact varies from country to country
vVriation is mainly dependent on three factors:
the size of country (the greater the number of subscribers, the greater the benefit)
the cost of transportation (the higher the cost of transportation, the higher the benefits of reducing travel through ICT)
the value of time (the more time is valued, the higher the benefits as ICT saves time).
There seems to be a lack of studies that focus more on social impact of broadband – and impact in developing countries
47. The benefits of broadband (2) While specific “proof” of broadband benefits for developing countries and their impact on poverty, hunger and sickness still outstanding, countries cannot afford to wait as they lack already behind in their ICT development
Options include
Piloting of broadband ICT & e-applications projects
Strategic/tactical use of mobile SMS to introduce e-gov services which then can migrate to broadband for more complex service
Example Telehealth in Philippines – started with computers & Internet to district hospitals, but there was no need/ demand; Doctors who needed help were young doctors in really rural and marginalized areas, but there was no connectivity;
Telehealth program switched to mobile and SMS, even e-mail & photos using GPRS – highly successful Piloting projects is a good approach that allows for the testing of working hypotheses of required input, output, outcome, efficiencies and required additional components.
Piloting projects is a good approach that allows for the testing of working hypotheses of required input, output, outcome, efficiencies and required additional components.
48. Key challenges for broadband development Physical network infrastructure (or access) at the margins:
Rural & developing regions
High costs for establishment & service provision in non-urban markets
Operator interest and viability of subsidy
Lack of competition in service provision?
Weak demand + lack of affordability for Broadband service?
Computer literacy and training
IT skills, e-applications & Desktop PC/internet infrastructure needed
49. Four approaches to Broadband Policy
50. Challenges
Lack of network infrastructure at the margins - fixed-line copper, fiber & wireless
Poor competition & access to existing network infrastructure
High costs of infrastructure & operation are barriers to investment & user uptake in rural areas
Lower populations, distance and geographic constraints
Best Practice responses
Progressive regulation and open access policies
Public-Private-Partnerships for network establishment
Subsidies through competitive bidding
Government purchase and use of bandwidth
51. Issue (1) Infrastructure – Smart Subsidies�� Competitive Tendering & OBA Approach Smart Subsidy Approach
One-time subsidies, non-distortion of markets
Open to both infrastructure and service providers foreign and local
Stakeholder input into design
Bundling of Strategic Regions
Strategies to ensure subsidies are tied to both commercially promising and challenging regions
Competitive Bid Process
Formulation of bid design with stakeholders
Clearly outline eligibility criteria & requirements
Use of least subsidy or reverse auction approach
52. Issue (1) Infrastructure - Case Example �� Province of Alberta Supernet Challenge: Lack of infrastructure & affordability in rural areas; important resource-based economy
Approach
PPP between government & consortium of network builder (Bell) & network operator/reseller (Axia); build-operate (BO) type agreement
USD 157 million government; USD 102 million private sector with 10 year renewable contract for operation
Axia Open Access Model – standard bandwidth price for all users:
Government applications – health facilities, regional offices, & schools;
Rural ISP
Outcomes
Bandwidth prices same for all ISP & ASP company; similar to urban rates
Rural network publicly owned; operating contract renegotiable on term
Increase from 7 rural ISPs to 100 now
53. Issue (1) Infrastructure - Case Example��Chilean BackBone Network financed by smart subsidy �� Challenge: Lack of open access & physical infrastructure to reach rural areas; Alternative approaches required to reach rural areas
Approach
Arica to Puerto Montt – North –South Fibre Backbone
Competitive bidding conducted by Chilean Regulator Subtel
$4.7 million US with $2.6 million US subsidy from Telecom Development Fund
Outcomes
Awarded July 2007 to 3rd Operator Telefonica del Sur (Telsur); requirements for open access
Innovative agreement established with operators Telsur & Movistar November 2008
Favorable roaming arrangements; expansion of their combined mobile and wireless coverage
54. Issue (1) Infrastructure – Case Example��Sri Lanka National Communications Backbone Network �� Main Challenge: Lack of open access to existing networks due to incumbent operator positions
Approach
Regulator TRC and ICT Authority (ICTA) conducting competitive bids using Smart subsidy and Output-based Aid approach
Reformed regulatory framework in areas of interconnection, tariffs, infrastructure sharing, regulatory fees, and service reselling
Outcomes
Subsidy funds drawn from e-Government project funding: e-Sri Lanka Initiative
Support for conducting & evaluating bids provided via Public Private Infrastructure Advisory Facility
Network integrated with Lanka Government Network (LGN) e-Government project – 325 government offices connected including WAN access; IT capacity & skills training for staff
55. Issue (2) – Lack of Critical Demand �
Challenges
Low demand for Broadband considered due to lack of common and locally useful broadband applications
Large % of internet users dialup, lower demand in rural areas
Lack of broadband traffic constraining public exposure & market entry by service providers
Barriers: Price point & limited applications relevant to local circumstances
56. Issue (2) Stimulate Demand for Broadband�� Solutions
Establish & support development of broadband applications in government operations and public service provision which include:
e-Government applications and networked government information system
e-procurement systems for local businesses
Subsidize bandwidth and interconnection costs for broadband in high cost areas
Desired outcomes
Stimulate greater use and interaction of public with useful broadband e-Government applications
Local capacity building institutions, e.g. schools and IT-based business incubators, more active
Greater local appreciation and demand for broadband
57. � Malaysia’s National Broadband Plan, 2004 Strategy
Broadband Policy - Key pillar of 2006 National ICT & Knowledge Society Strategy MyICMs 886
“Critical Mass” Approach - Create ‘Tipping Point’ for Demand
Fund broadband applications to attain critical subscriber penetration rates (50% household) or 1.3 million subscribers by 2010
Fund public broadband applications to ‘critical’ subscriber level to initiate wide-spread private sector uptake
Government departments (EG*NET); hospitals & clinics; public schools (SchoolNet); universities and internet community centres
Implement a 11.3 billion Ringgit national broadband network funded (2.4 billion) by the Malaysian Government as a PPP
58. Regulatory measures
Mandate BB access nationwide, and fund designated remote rural areas under UAS program (USP)
Establish facilitative role of local authorities to speed up e-infrastructure projects
Incentives
Tax rebates for broadband equipment & PCs; soft loans for ISP rollout
Support shared use of private networks(MNCs);
Outcomes:
Achieved increase in household penetration rate to current 18%
Updated Broadband Plan due 2008/2009
Realized plan for the enhanced national broadband backbone network
Sept 2008 – the PPP agreement signed between Government & Telekom Malaysia
� Malaysia’s National Broadband Plan (Cont’d)
59. Issue (3) – Lack of Core IT & Capacities
Challenge
Low demand for Broadband considered problem of lack of IT skills & basic PC/internet infrastructure
Issues for developing regions and rural areas
Lack of access to useful applications & core IT hardware: Networked PCs
Limited IT skills and capacities
60. ��Building Core IT Capacities for Demand Solutions
Programs to provide needed IT infrastructure, capacity development and training to public and community institutions
Provision of internet-enabled PCs & broadband connection to public schools and community institutions
Establish e-Government services and applications for local needs
Basic computer and internet skills training and capacity development to targeted groups
Desired outcomes
Develop IT and internet skills to stimulate demand among high-impact users including local businesses and youth
Develop IT capacities and infrastructure at public access points & businesses e.g. schools, community centres & chambers of commerce
61. �Thailand – Building Core Capacities for Broadband Approaches
Thailand’s ICT Directions 2004 Policy - To improve ICT skills and access to ICTs for all Thais to benefit from information
Provision of necessary IT hardware & internet connectivity
Subsidized PCs & software for purchase; lowered long-distance rates for internet; establishment of public internet booths with dialup internet access
Encourage telecom operators to expand wired/wireless communication services in rural areas i.e. rural telephone project
Provide educational and local content - Tambon and Schoolnet projects to provide internet access to village groups and public schools
Outcomes:
Increased PC penetration from 5% in 2001 to 27% in 2005
62. Issue (4) – Regulatory impediments
Challenges
Restricted competition
poor access to incumbent network
lack of new service providers
License limitations
Cost barriers – network/spectrum access, interconnection fees;
Limited ability to utilize innovative and converging technologies �e.g., service bundling, VOIP, etc.
63. Best Practice solution – improve policy & regulatory frameworks
Deregulation - open up service provision to multiple operators
Open access – enforcement of RIO, interconnection, spectrum allocation
Progressive Licensing, e.g., unified licensing
Targeted subsidies for new entrants & challenging areas
Establish & utilize UAS/government programs
Issue (4) – Enabling Regulation
64. Issue (4) Enabling Regulation – Case Example�Pakistan Challenges: Broadband expansion needs & opportunities
Expanded network infrastructure; local internet content/applications & IT capacity development
Capitalize on dramatic expansion of mobile/wireless network
High tariffs considered main impediment
Approaches
Establishment of formal policies i.e., Broadband Policy 2004
Utilize UAS funds for targeted support and subsidy
Encourage entry and growth of new service providers
No restriction on number of broadband providers (must meet minimum QOS standards )
Backhaul facilitation
Subsidies for intl. bandwidth for startup period in project areas services in rural areas, i.e., rural telephone project
65. Issue (4) Enabling Regulation – Case Example� Pakistan (Cont.) Spectrum management promoting wireless services
Open auctions for wireless fixed access spectrum
Regulatory framework for free access to IEEE 802 bands
Interconnection strategies
Reduced primary rate interface charges (PRI) for dial-up connection to facilitate future switch to broadband
Promotion of national/regional peering points & “domestic” network to reduce use of costly international backbone
Licensing
New class license available for data providers enabling agreements for network & local loop access with any operators (LDI/LL Licensees)
66. Outcomes
Increased broadband connectivity - 132,000 current subscribers
Although still marginal (0.8%)
Marked improvement in enabling conditions for broadband penetration
Backhaul network access is now relatively inexpensive
Price of end-user broadband equipment is reducing
Regulatory frameworks for broadband and new wireless applications i.e. Branchless Banking are opening new markets
Recent examples include Wateen Telecom launch of WiFi service in December 2007 with 10,000 wireless broadband subscribers in 4 months
USF Broadband Pilot Project
72,500 private broadband penetration
320 community & educational access centers
Two opertors win subsidies (PTCL & Wateen)
67. Summary of issues Broadband & e-applications
Importance of e-applications for broadband uptake
What is different about broadband?
ICT skills
Existing versus needed applications
Awareness
Access devices for penetration
More co-ordination with other sectors like health, education, tax authorities, e-government
Discussion on future
What about PPPs (scarce examples?)
Can UASF funds be used for broadband?
Should UASF funds be used for ICT infrastructure capital only, or for applications and ICT capacity building, computers for all, etc.?
68. Philippines - Provinces without �fiber-backbone Mostly in central and southern regions
14 provinces outside Luzon w/o fiber have per capita income considerably below national average
8% of population
Most are lowest income province in their region
But some do/ may have digital microwave
Fiber not necessarily or absolutely required
Technical solutions feasible though e-applications and ICT diffusion measures required
69. Reviewing broadband pricing
70. Broadband costs as % of monthly family income (USD)
