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Unlocking Broadband for All: Policy implementation Experiences and Lessons in Selected Developing Countries SADC-CRASA Stakeholder Validation Workshop.

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Presentation on theme: "Unlocking Broadband for All: Policy implementation Experiences and Lessons in Selected Developing Countries SADC-CRASA Stakeholder Validation Workshop."— Presentation transcript:

1 Unlocking Broadband for All: Policy implementation Experiences and Lessons in Selected Developing Countries SADC-CRASA Stakeholder Validation Workshop May 20-21 2015 Capital 20 West, Sandton, Johannesburg, South Africa Association for Progressive Communications (APC)

2 All projects in PIDA’s energy and transport sector priority action plan (PAP) propose fibre-optic investments along power transmission lines, roads and railways PIDA’s Terrestrial Connectivity project estimates that in Africa at least 22 cross-border links are necessary PIDA aims to align many of these projects with transport sector projects An example of such an initiative is the terrestrial optic fibre cable that is being deployed with an oil pipeline connecting Algeria via Niger to Nigeria. There are also plans for a Trans-Saharan highway on the same route that will include ducts and fibre Cross Sector Infrastructure – the case of African Union - PIDA

3 Submarine Backbones ACE Landing Station Liberian example The Cable Consortium of Liberia (CCL) is a PPP based on an investment of $25 million dollars facilitated through a grant from the World Bank to the Government of Liberia CCL was set up as a Special Purpose Vehicle (SPV) owned by the existing operators (LibTelCo 20%, two mobile operators 10% each), while the Government holds the remaining 60% to be eventually divested to the existing and new entrants

4 Shared Government Fibre Networks Burundi Backbone System (BBS ) Example Source: APC/Deloitte Study 2015 The government created a PPP formed as a joint venture between four of the country’s telecom operators and one ISP with World Bank providing the government with a grant of US$11.5m to help finance the US$25m project Although the BBS has been relatively successful, some implementation issues have emerged The government commissioned a separate Metropolitan Area Network (MAN) in Bujambura to connect government institutions with fibre. This was seen as a sign of disengagement with the BBS which was also being constructed in Bujumbura. Also the government awarded an additional licence to Viettel who are rolling out their own national 3G network without using the national backbone which potentially jeopardises the return on the investment for the operators

5 South Africa – Govt and Private Sharing Source: APC/Deloitte Study 2015 Broadband InfraCo, a South African state-owned enterprise, was founded in 2007 to help drive down the costs of terrestrial fibre by consolidating the fibre networks of the electricity provider Eskom and national rail company Transtel. To facilitate the entry of a second national operator, initially Infraco leased its network only to Neotel, and then in 2010, Infraco opened services to other operators Launch was delayed due coordination issues between the shareholder - the Department of Public Enterprises, and the Department of Communications, which was responsible for the licensing. This delay was partly responsible for other operators deciding to develop their own fibre networks, which has impacted the effectiveness of the InfraCo business model Up to 2009 the competitors Neotel and MTN were both dependent on Telkom for leasing infrastructure, reportedly paying over ZAR1bn of transmission costs / yr To reduce costs and expand, Neotel and MTN agreed in 2009 for the joint construction of a national fibre optic network, joined by mobile operator Vodacom one month later

6 National Optical Backbone in Cote d’Ivoire Source: APC/Deloitte Study 2015 While Cote d’Ivoire has a high mobile penetration rate (91%), the country had only about 1m internet users by 2013. Currently, 85% of internet users reside in the capital Abidjan. In order to bring broadband access to the country’s more rural areas, the government began construction of a state- owned National Fibre Optical Backbone in 2012. The proje`ct is financed with the help of the National Telecommunications Fund, which is funded by taxes paid by operators. Upon completion, the network is expected to measure 6,700km and connect up to 30% of the country’s population to the internet. Phase I was completed in 2012 and Phase II started in 2013.

7 National Fibre Optic Backbone in India Source: APC/Deloitte Study 2015 In 2011, the Indian govt launched the National Optical Fibre Network (NOFN), which aims to connect all 250,000 gram panchayats (village-level administrations). This will be achieved by sharing existing fibre infrastructure of public telecom and utility operators such as BSNL, Railtel and Power Grid and by deploying additional fibre, where necessary To identify connectivity gaps, the National Informatics Centre carried out GIS mapping of the existing optical fibre networks to determine needs for deployment of new fibre. The project is estimated to cost USD$4 billion and is funded by the Universal Service Obligation Fund (USOF) The NOFN was supposed to be completed within two years; however, due to delays caused by factors such as tendering processes, the deadline has been extended to June 2016

8 The Indonesian Palapa Ring project to connect the islands through a fibre network (PPP) Shared govt networks in Kenya, Rwanda and Uganda Phase3 in Nigeria operates a fibre company that sells wholesale capacity (including wavelengths and dark fibre) to MNOs and ISPs, based on using the local power grid to overlash cables or using the OPGW fibre cables The Doba-Kribi oil pipeline between Cameroon and Chad involved fibre network deployment Other National Fibre Projects

9 Nigeria has adopted infrastructure sharing requirements as part of its Interconnection and Colocation requlations Any operator may request another operator to share its basic infrastructure. The requested operator must respond in a reasonable time and provide technical justification if sharing is refused A dispute arose between operator Multi-Links and operator TNSL. Multi-Links refused to grant TNSL access to one of its ducts where TNSL wanted to lay its own cable. NCC intervened and ruled that the two parties should commence negotiations on infrastructure sharing Colocation Regulations

10 Africa’s rising tower business and the case of Eaton Towers in Kenya, Uganda and Ghana Source: APC/Deloitte Study 2015 In 2013 17% of Africa’s 150,000 towers were owned or operated by towercos, this is expected to reach 50% by the end of 2015 Eaton Towers, a pan-African tower company has sale and lease back agreements with Orange and Warid in Uganda; outsourcing of operations agreements with Orange and Telkom in Kenya; and with Vodafone in Ghana. Besides the maintenance of existing sites the deals also involve the construction of new towers to expanding operator coverage while reducing cost With about 2,400 towers, Eaton Tower’s is currently the fourth largest tower company in Africa

11 Malaysia Communications and Multimedia Commission (MCMC) identified infrastructure sharing as one of the criteria for issuing licences for 3G mobile spectrum. Applicants must show that they can and will share infrastructure, including physical facilities and network capacity. The aim was to maximize use of existing network resources, including capacity, base stations and backbone facilities The Indian Universal Service Obligation Fund launched a scheme in 2008 to provide subsidies for setting up towers in rural areas with no wireless coverage. Subsidies are only given for infrastructure that is shared by at least three operators. Similar policy in Papua New Guinea Malaysia & India Mobile Strategies

12 India pioneered the market for tower sharing, with over 360,000 towers owned by towercos. In Nigeria, an estimated 4,500 are owned by Towercos and MTN and Bharti Airtel are in the process of selling a large stake of their tower portfolio to an independent towerco In South Africa, MTN and Telkom Mobile were discussing an active network sharing deal In Madagascar, a tower sharing regulatory framework promotes coverage in rural areas by incentivising operators to form sharing consortia Other Tower Sharing Examples

13 In Rwanda, it is mandatory for every new housing estate built in Kigali to cater to broadband access In Botswana planning permission requires inclusion of ducts in buildings In-Building Duct Requirements

14 Multi-sectoral infrastructure databases and GIS In Germany, the Federal Network Agency has a database called “The Infrastructure Atlas", which includes all existing infrastructure that can be used for fibre networks Data comes from operators in telecom, energy and transport sectors. The Atlas includes information from 650 infrastructure owners on availability of fibre optic cables, ducts, masts and base stations. Initially, provision of data was voluntary, but after a change in legislation, it has become mandatory for all owners to disclose the location of their infrastructure. Access to the database is granted exclusively to telecom operators and government agencies Planning and Co-ordination Policies

15 Multi-sectoral infrastructure databases and GIS In Turkey, a database called EHAB Systems is being managed by the Ministry of Transport and will keep track of all existing and planned infrastructure nationwide Operators and analysts in Turkey have noted that the EHAB system is currently incomplete and it may take a significant amount of time for operators to obtain information In India and Namibia, the telecom regulators require all licensees to maintain a database of their infrastructure available for sharing on their websites Planning and Co-ordination Policies

16 In-building planning requirements e.g Botswana, Rwanda Active infrastructure sharing – wholesale & retail e.g Mobile Roaming, and Wholesale networks (govt and private); Rwanda ORN, Tanzania NICTBB, or SA Broadband Infraco, Liquid Duct sharing policies & dig-once land-use planning rules e.g France Standards for Infrastructure deployment over Rights of Way E.g Zambia Key Policy Issues for Infrastructure Sharing

17 Limiting cost and procedures for rights of way E.g. Brazil Pole rental price caps, SA Rapid Deployment Guidelines, Tshwane Issue Simple cross-border digging procedures E.g. EAC one stop shop, Zimbabwe? Fair/open access to fibre backbones and submarine landing stations E.g. ACE Landing stations & national wholesale operators Multi-sectoral infrastructure databases and GIS E.g., Germany and Turkey, Seychelles Key Policy Issues for Infrastructure Sharing

18 Guidelines and template regulations for Infrastructure Sharing – duct sharing and dig-once policies National Standards for infrastructure deployment Funding Strategies for Duct Inclusion in Utility Infrastructure Multi sector Infrastructure Co-ordination Databases Regulatory mechanisms for data acquisition Role of government in national broadband wholesale network deployment In-building planning requirements Rights of Way policies and tariff caps Cross-border deployment procedures Environmental Impact Assessments Identification of Policy Development Needs

19 Thank you! Association for Progressive Communications http://www.apc.or g


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