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The Broadband Coverage in Europe study is designed to monitor the progress of EU Member States toward their specific broadband coverage objectives – namely: ‘Universal Broadband Coverage by 2013’ and ‘Universal Broadband Coverage with speeds at least 30 Mbps’. This report covers thirty-one countries across Europe – the EU 28, plus Norway, Iceland and Switzerland, and analyses the availability of nine broadband technologies (DSL, VDSL, cable modem, DOCSIS 3, FTTP, WiMAX, HSPA, LTE and satellite) across each market, at national and rural levels. In addition, various combination categories indicating the availability of one or more forms of broadband connection are also published. These cover overall fixed and wireless broadband availability, fixed broadband availability and next-generation access (NGA) availability. Europe-wide overview, country comparisons and year-on-year trends are provided in this report. Additionally, broadband coverage developments in study countries are discussed in individual country chapters.
- The Broadband Coverage in Europe study is designed to monitor the progress of EU Member States towards the specific broadband coverage objectives set out in the Digital Agenda for Europe - namely: 'Universal Broadband Coverage with speeds at least 30 Mbps by 2020' and 'Broadband Coverage of 50% of households with speeds at least 100 Mbps by 2020'. - In 2016, DG CONNECT selected IHS Markit in partnership with Point Topic to run the three-year project. The research team surveyed NRAs and telecommunications groups across each participating state to compile the requisite information. Both IHS Markit as well as Point Topic have previously conducted the broadband coverage research. Point Topic was the incumbent provider introducing the original research methodology in the period 2010-2012. IHS Markit (in cooperation with VVA) delivered the study from 2013-2015 and adopted similar data collection and analysis methods to those implemented by Point Topic in order to ensure comparability of datasets for the purposes of time-series assessment. - The collected data reflects the situation at the end of June 2018 compared to the situation at the end of June 2017. In editions of the study prior to 2015, the collected data reflected the situation at the end-of-year (i.e. end of December). The timeline of the data collection for the 2015 edition of the BCE study was moved forward in order to align reporting of the broadband coverage data with the publications of the Digital Economy and Society Index and the European Semester related country assessments. - This report covers 31 countries across Europe - the EU28, plus Norway, Iceland and Switzerland, and analyses the availability of nine broadband access technologies (DSL, VDSL, cable modem, DOCSIS 3.0, FTTP, WiMAX, HSPA, LTE and satellite) across each market, at national and rural levels. In addition, three combination categories indicating the availability of one or more forms of broadband coverage are also published. These cover overall fixed and mobile broadband availability, fixed broadband availability and next generation access (NGA) availability. Since the 2017 iteration of the study, DG CONNECT also requested a fourth combination coverage category to be estimated on a national level, establishing overall coverage of FTTP and DOCSIS 3.0 technologies. A rural estimation for overall FTTP and DOCSIS 3.0 coverage has been added in this year's edition of the study.
The Broadband Coverage in Europe study is designed to monitor the progress of EU Member States toward their specific broadband coverage objectives - namely: 'Universal Broadband Coverage with speeds at least 30 Mbps by 2020' and 'Broadband Coverage of 50% of households with speeds at least 100 Mbps by 2020'. This report covers thirty-one countries across Europe - the EU 28, plus Norway, Iceland and Switzerland, and analyses the availability of nine broadband technologies (DSL, VDSL, cable modem, DOCSIS 3, FTTP, WiMAX, HSPA, LTE and satellite) across each market, at national and rural levels. In addition, various combination categories indicating the availability of one or more forms of broadband connection are also published. These cover overall fixed & wireless broadband availability, fixed broadband availability and next-generation access (NGA) availability. Europe-wide overview, country comparisons and year-on-year trends are provided in this report. Additionally, broadband coverage developments in study countries are discussed in individual country chapters.
The Broadband Coverage in Europe study is designed to monitor the progress of EU Member States toward their specific broadband coverage objectives - namely: 'Universal Broadband Coverage with speeds at least 30Mbps by 2020' and '50% of households should have broadband subscriptions of 100Mbps or more by 2020'. This report covers thirty-one countries across Europe - the EU 27, plus Norway, Iceland, Switzerland and the UK, and analyses the availability of ten broadband technologies (DSL, VDSL, VDSL2 Vectoring, cable modem DOCSIS 3.0, DOCSIS 3.1, FTTP, FWA, LTE, 5G and satellite) across each market, at national and rural levels. In addition, various combination categories indicating the availability of one or more forms of broadband connection are also published. These cover overall fixed broadband availability, next-generation access (NGA) availability and overall FTTP & DOCSIS 3.1 availability. Europe-wide overview, country comparisons and year-on-year trends are provided in this report. Additionally, broadband coverage developments in study countries are discussed in individual country chapters. The Broadband Coverage in Europe study is designed to monitor the progress of EU Member States toward their specific broadband coverage objectives - namely: 'Universal Broadband Coverage with speeds at least 30Mbps by 2020' and '50% of households should have broadband subscriptions of 100Mbps or more by 2020'. This report covers thirty-one countries across Europe - the EU 27, plus Norway, Iceland, Switzerland and the UK, and analyses the availability of ten broadband technologies (DSL, VDSL, VDSL2 Vectoring, cable modem DOCSIS 3.0, DOCSIS 3.1, FTTP, FWA, LTE, 5G and satellite) across each market, at national and rural levels. In addition, various combination categories indicating the availability of one or more forms of broadband connection are also published. These cover overall fixed broadband availability, next-generation access (NGA) availability and overall FTTP & DOCSIS 3.1 availability. Europe-wide overview, country comparisons and year-on-year trends are provided in this report. Additionally, broadband coverage developments in study countries are discussed in individual country chapters.
The Broadband Coverage in Europe study is designed to monitor the progress of EU Member States toward their specific broadband coverage objectives - namely: 'Universal Broadband Coverage with speeds at least 30 Mbps by 2020' and 'Broadband Coverage of 50% of households with speeds at least 100 Mbps by 2020'. This report covers thirty-one countries across Europe - the EU 28, plus Norway, Iceland and Switzerland, and analyses the availability of nine broadband technologies (DSL, VDSL, cable modem, DOCSIS 3, FTTP, WiMAX, HSPA, LTE and satellite) across each market, at national and rural levels. In addition, various combination categories indicating the availability of one or more forms of broadband connection are also published. These cover overall fixed & wireless broadband availability, fixed broadband availability and next-generation access (NGA) availability. Europe-wide overview, country comparisons and year-on-year trends are provided in this report. Additionally, broadband coverage developments in study countries are discussed in individual country chapters.
The Broadband Coverage in Europe study is designed to monitor the progress of EU Member States toward their specific broadband coverage objectives – namely: ‘Universal Broadband Coverage with speeds at least 30 Mbps by 2020’ and ‘Broadband Coverage of 50% of households with speeds at least 100 Mbps by 2020’.
The Broadband Coverage in Europe study is designed to monitor the progress of EU Member States toward their specific broadband coverage objectives – namely: ‘Universal Broadband Coverage with speeds at least 30 Mbps by 2020’ and ‘Broadband Coverage of 50% of households with speeds at least 100 Mbps by 2020’.
The Brussels Round Table, a forum of leading EU telecommunications operators and equipment manufacturers, commissioned these articles. They examine the deployment of broadband in European countries and make policy recommendations related to telecommunications regulation. Specific topics include pricing flexibility, competition, growth potential, likely future dynamics, competition, investment opportunities, eliminating excess regulation, facilitating longer-term points of view, and suggestions for transparent and competition-neutral subsidies.
This study investigates whether the existing regulatory framework governing the telecommunications sector in countries in Sub-Saharan Africa effectively deals with emerging competition-related concerns in the liberalised sector. Using Uganda as a case study, it analyses the relevant provisions of the law governing competition in the telecommunications sector, and presents three key findings: Firstly, while there is comprehensive legislation on interconnection and spectrum management, inefficient enforcement of the legislation has perpetuated concerns surrounding spectrum scarcity and interconnection. Secondly, the legislative framework governing anti-competitive behaviour, though in line with the established principles of competition law, is not sufficient. Specifically, the framework is not equipped to govern the conduct of multinational telecommunications groups that have a strong presence in the telecommunications sector. Major factors hampering efficient competition regulation include Uganda’s sole reliance on sector-specific competition rules, restricted available remedies, and a regulator with limited experience of enforcing competition legislation. The weaknesses in the framework strongly suggest the need to adopt an economy-wide competition law. Lastly, wireless technology is the main means through which the population in Uganda accesses telecommunications services. Greater emphasis should be placed on regulating conduct in the wireless communications markets.