This document provides an overview of the Indian telecom sector, including:
1. A brief history of telecom in India from the 1850s to present.
2. Details on the rapid growth and increasing subscribers in India's telecom market, which has the highest growth rate in the world.
3. Descriptions of the key players and technologies in both the fixed line and growing mobile segments, including 3G and upcoming 4G technologies.
This document is a project report submitted for a Master's degree in business administration. It discusses planning and implementing sales analysis and distribution channels for Reliance Communications in Nagpur, India. The report includes an introduction, literature review on the Indian telecommunications sector, profile of Reliance Communications, and initial chapters outlining the industry and company.
The document discusses conducting a SWOT analysis of the telecommunications industry. A SWOT analysis examines the strengths, weaknesses, opportunities, and threats of an organization. For the telecom industry, strengths may include assets owned and customer satisfaction. Weaknesses could be unprofitable areas or lack of resources. Opportunities may arise from new customers or government subsidies. Threats include new competitors, a failing economy, or free alternative communication options that could reduce sales. The analysis would help the industry understand its current problems to improve business performance.
The telecom sector in India has undergone significant reforms and liberalization since the 1990s. Prior to 1991, the sector was operated as a public sector monopoly by BSNL, MTNL and VSNL. The National Telecom Policy of 1994 opened up the sector to private players. The sector is now regulated by TRAI, which was established in 1997 as an independent regulator. Reforms have led to rapid growth, with India now having the third largest telecom network globally. However, further reforms are still needed to address issues around spectrum management and rural connectivity.
This document summarizes a study comparing customer satisfaction and loyalty between public and private mobile telecommunication providers in India. The study surveyed 360 customers from public and private providers to understand differences in customer perceptions. The findings showed some differences in customer satisfaction and loyalty between the public and private providers. However, the study was limited and many other factors beyond what was studied could also influence customer loyalty. Further research is needed to identify additional drivers of customer loyalty in the mobile telecommunication industry.
The document discusses the opportunities and challenges facing the development of Myanmar's telecommunications sector. Key points include:
- Myanmar has one of the lowest mobile and fixed line penetration rates in the world, at around 3-4%, presenting major growth opportunities. However, significant infrastructure investment is required.
- The government aims to increase penetration rates to 50% by 2015 but must balance quick growth with learning from other countries' experiences.
- Separating the regulatory body from the state-owned operator MPT and liberalizing the market are seen as important steps, but challenges around regulations, infrastructure financing and spectrum allocation remain.
- International operators are interested in the market but risks around an uncertain regulatory environment and
This document provides a summary of a master's thesis that proposes a business model for mobile operators to reach emerging market middle classes with affordable mobile internet. The thesis conducted an end user analysis of needs and demands in emerging markets and a marketing analysis. It identified two middle class segments - a lower segment earning $2-12/day living rurally, and a higher segment earning $12-50/day living urbally. The thesis calculated average monthly ICT service prices of $10.83 and $46.85 for these segments respectively. The business model proposal suggests tailored local services and IT learning for the lower segment, and international services like Facebook for the higher English-speaking segment.
The document provides a SWOT analysis of Egypt's telecom industry. It notes strengths like Egypt's large population and young demographics, as well as opportunities like potential revenue from triple play licenses and mobile banking opportunities from expat workers. Weaknesses include the prepaid-focused mobile market and low internet usage. Threats include the potential for political unrest disrupting the industry.
This document provides an overview of the Indian telecom sector, including:
1. A brief history of telecom in India from the 1850s to present.
2. Details on the rapid growth and increasing subscribers in India's telecom market, which has the highest growth rate in the world.
3. Descriptions of the key players and technologies in both the fixed line and growing mobile segments, including 3G and upcoming 4G technologies.
This document is a project report submitted for a Master's degree in business administration. It discusses planning and implementing sales analysis and distribution channels for Reliance Communications in Nagpur, India. The report includes an introduction, literature review on the Indian telecommunications sector, profile of Reliance Communications, and initial chapters outlining the industry and company.
The document discusses conducting a SWOT analysis of the telecommunications industry. A SWOT analysis examines the strengths, weaknesses, opportunities, and threats of an organization. For the telecom industry, strengths may include assets owned and customer satisfaction. Weaknesses could be unprofitable areas or lack of resources. Opportunities may arise from new customers or government subsidies. Threats include new competitors, a failing economy, or free alternative communication options that could reduce sales. The analysis would help the industry understand its current problems to improve business performance.
The telecom sector in India has undergone significant reforms and liberalization since the 1990s. Prior to 1991, the sector was operated as a public sector monopoly by BSNL, MTNL and VSNL. The National Telecom Policy of 1994 opened up the sector to private players. The sector is now regulated by TRAI, which was established in 1997 as an independent regulator. Reforms have led to rapid growth, with India now having the third largest telecom network globally. However, further reforms are still needed to address issues around spectrum management and rural connectivity.
This document summarizes a study comparing customer satisfaction and loyalty between public and private mobile telecommunication providers in India. The study surveyed 360 customers from public and private providers to understand differences in customer perceptions. The findings showed some differences in customer satisfaction and loyalty between the public and private providers. However, the study was limited and many other factors beyond what was studied could also influence customer loyalty. Further research is needed to identify additional drivers of customer loyalty in the mobile telecommunication industry.
The document discusses the opportunities and challenges facing the development of Myanmar's telecommunications sector. Key points include:
- Myanmar has one of the lowest mobile and fixed line penetration rates in the world, at around 3-4%, presenting major growth opportunities. However, significant infrastructure investment is required.
- The government aims to increase penetration rates to 50% by 2015 but must balance quick growth with learning from other countries' experiences.
- Separating the regulatory body from the state-owned operator MPT and liberalizing the market are seen as important steps, but challenges around regulations, infrastructure financing and spectrum allocation remain.
- International operators are interested in the market but risks around an uncertain regulatory environment and
This document provides a summary of a master's thesis that proposes a business model for mobile operators to reach emerging market middle classes with affordable mobile internet. The thesis conducted an end user analysis of needs and demands in emerging markets and a marketing analysis. It identified two middle class segments - a lower segment earning $2-12/day living rurally, and a higher segment earning $12-50/day living urbally. The thesis calculated average monthly ICT service prices of $10.83 and $46.85 for these segments respectively. The business model proposal suggests tailored local services and IT learning for the lower segment, and international services like Facebook for the higher English-speaking segment.
The document provides a SWOT analysis of Egypt's telecom industry. It notes strengths like Egypt's large population and young demographics, as well as opportunities like potential revenue from triple play licenses and mobile banking opportunities from expat workers. Weaknesses include the prepaid-focused mobile market and low internet usage. Threats include the potential for political unrest disrupting the industry.
Influence of brand management on rivalry for consumers in the mobile telecomm...Alexander Decker
1) The document discusses brand management in the mobile telecommunications industry in Kenya. It focuses on how mobile operators invest in brand management to differentiate themselves, gain market share, and benefit consumers through competition.
2) It provides background on the telecommunications industry and major mobile operators in Kenya, including Safaricom, Airtel, Telkom Kenya, and Essar Telecom Kenya.
3) The purpose of the study was to examine how brand management influences rivalry between mobile operators and how consumers benefit from this competition.
Ufone operates in the highly competitive Pakistani telecommunications industry. It faces high competitive rivalry from major competitors like Mobilink, Zong, Telenor, and Warid. While Ufone has over 24 million subscribers, its market share has declined as competitors have captured a larger portion of new subscribers in recent years. Ufone works to enhance its network coverage and offer innovative products and services to attract new customers and retain existing ones. Substitute products like fixed line and wireless broadband also pose a threat to Ufone's mobile business. Potential for new entrants into the saturated Pakistani market is now low, providing some relief from new competition for Ufone.
The Indian telecom market has experienced sustained high growth rates due to overall economic growth and rising incomes. India is the fourth largest telecom market in Asia after China, Japan and South Korea. The Indian telecom network is the eighth largest in the world and second largest among emerging economies. The telecom industry in India is expected to grow threefold by 2012, fueled by massive growth in mobile users which reached 10 million in 2002 and cellular penetration is still low at 1% compared to the world average of 16%.
This document provides an overview of the mobile telecommunication industry in Bangladesh. It begins with an executive summary and then covers the following topics:
- A literature review of the major mobile operators in Bangladesh, including their profiles, market shares, and technologies used.
- A description of the research methodology used in the report, including the population studied, sampling methods, and research framework.
- A presentation of data on the mobile operators' subscribers over the past four years, mobile value-added services, and the economic impact of mobile phones.
- Results from a questionnaire survey assessing customers' satisfaction with various aspects of service from the major operators such as network coverage, call rates, special offers, and service center
This document analyzes the opportunity for green power in Myanmar's telecommunications sector. It provides background on Myanmar's emerging economy and telecom market. Myanmar has experienced steady GDP growth in recent years. The entry of new mobile network operators is expected to dramatically increase mobile connections from the current 5.44 million to 22 million by 2017. However, significant infrastructure challenges exist including unreliable electricity supply. Most new telecom sites will be off-grid, relying on diesel generators. The document estimates green power alternatives could provide electricity to around 10,000 sites by 2017, saving mobile operators $137 million annually in fuel costs. Energy service companies could also help deploy green solutions and realize further operational savings.
Comparing the impact of decline in leased line prices in india and indonesia ...ACORN-REDECOM
This document analyzes the impact of declining leased line prices in India and Indonesia and provides lessons for Latin America. It finds that while leased line prices declined significantly in both countries, the impact was more substantial in India due to earlier and more comprehensive pro-competitive reforms. In Indonesia, the telecommunications sector remains dominated by the incumbent operator despite reforms, limiting competition and the potential economic benefits. The document compares the experiences of both countries and regulatory frameworks to understand what drove different outcomes and lessons that can be learned.
The document provides information about the telecom industry of Pakistan. It discusses the history and evolution of the telecom sector in Pakistan from the Pakistan Post and Telegraph (P&T) department established at independence to the modern regulatory authorities and private operators. It summarizes the key milestones like the establishment of Pakistan Telecommunication Company Limited (PTCL) and Pakistan Telecommunication Authority (PTA). It also provides overviews of the major mobile network operators Jazz, Ufone, Telenor and their market shares, services, and corporate social responsibility initiatives.
The telecom network in India is the fifth largest in the world and meets global standards. Currently, the Indian telecom industry contributes nearly 1% to India's GDP. The document provides a history of telecom in India beginning in 1851 and outlines key milestones such as the introduction of private sector involvement in the 1980s. It discusses government policies like the National Telecom Policy of 1999 which aimed to improve connectivity and quality of services. The rapid growth of the telecom sector post liberalization in 1991 is also summarized.
An alarming signal in mobile telecommunication industry a study in malaysiaijmnct
The use of products and services of the mobile telecommunication industry becomes a part and parcel of
each human being around the globe irrespective of the age. It is hardly visible to see people without the use
of telecommunication technology in today’s world. The present research article examines the alarming
signal of market saturation of telecommunication companies in Malaysia as internal competitors is
increasing in number and age restriction of 18 years and above for legally registered owners of mobiles.
The saturation in the mobile telecommunication market is due to the relative low birth rate in Malaysia, the
eligible population to register a mobile phone is not proportional to telecommunication service providers.
In addition, there is also new Mobile Virtual Network Operators (MVNO) which magnifies the problem
further. Otherwise the local service providers have efficient and effective networking with other countries;
the sustainability of the telecommunication company's performance is at stake.
The document is India's National Telecom Policy from 2012. It aims to transform India into an empowered and inclusive knowledge-based society using telecommunications. Key goals include increasing rural teledensity, providing affordable broadband nationwide, and leveraging mobile devices and broadband to enable citizens to participate in e-governance and development initiatives in sectors like health, education, and agriculture. The policy also aims to make India a global hub for telecom manufacturing and establish standards and policies to promote innovation and R&D in the industry.
Problems and prospects of telecommunication sector of bangladesh a critical ...Alexander Decker
This document provides an overview of the telecommunication sector in Bangladesh, including mobile phone services. It discusses the problems, challenges and prospects facing the sector. Specifically, it notes that while the sector plays a vital economic role, recent years have seen decreasing government revenue and subscriber growth rates due to issues like SIM taxes and competition. However, with proper privatization and regulatory steps, the sector could grow and benefit both private operators and government income. It also provides market share details for the major mobile phone operators in Bangladesh as of March 2011.
Telecommunication plays a key role in Pakistan's economy and development. Pakistan's telecom industry has grown rapidly in recent decades and is now one of the fastest growing in Asia. It has transitioned from a state-run monopoly to include numerous private cellular providers. The major players are Mobilink, Telenor, Ufone, Zong and Warid, with Mobilink having the largest market share. New technologies like WiMAX and 3G are also being adopted to provide high-speed internet access across Pakistan. However, challenges remain to increase coverage, penetration rates, and develop domestic R&D capabilities to strengthen Pakistan's telecom sector.
The major players in the global GSM network industry include Nokia, Samsung, Ericsson, Huawei and ZTE. Nokia was one of the early leaders in GSM technology and equipment, helping drive the worldwide adoption of 2G networks. Samsung, Ericsson and Huawei have also become top equipment suppliers. On the network operator side, major GSM service providers globally include Vodafone, China Mobile, AT&T and Verizon, among others. These companies have built out extensive GSM networks over decades to serve billions of mobile subscribers worldwide.
The telecommunication sector in Moldova has seen strong growth over the last decade. Mobile telephony has been the main driver of growth, while fixed telephony remains dominated by the incumbent provider Moldtelecom. Internet access services have also grown rapidly, with broadband penetration increasing significantly. Looking ahead, mobile and broadband services are expected to continue their expansion, while new technologies like 3G and 4G may see limited adoption. Competition in fixed broadband access outside of cities remains a challenge due to infrastructure costs. Overall the market remains promising but further reforms are needed to encourage more competition across all segments.
The document discusses the telecom industry in Pakistan and Mobilink's position as the market leader. It provides background on the deregulation and growth of the mobile industry. Mobilink was the first cellular provider and currently has a 36% market share. It has expanded its network coverage to over 66% of the population. The mobile industry has seen strong growth over the years, though growth rates have declined recently. Mobilink has maintained its leadership through understanding customers, continuous investment, and innovation.
this is the analysis done by me on telecom sector. in this there is the objective of survey, its introduction and to make it more clear i have taken the example of airtel company and with this example i have explained everything.
paper_Measuring the Efficiency and Technology Gap of APEC Mobile Telecommunic...Nicky Chao
This study measures the efficiency and technology gap of 28 mobile operators in APEC countries from 2003 to 2008 using data envelopment analysis and meta-frontier approaches. It finds that operators in countries with high mobile penetration rates had higher technical efficiencies and smaller technology gaps than those in low penetration countries. Specifically, Rogers Wireless and Bell Wireless in low penetration countries had the largest technology gaps of all APEC mobile operators.
Influence of brand management on rivalry for consumers in the mobile telecomm...Alexander Decker
1) The document discusses brand management in the mobile telecommunications industry in Kenya. It focuses on how mobile operators invest in brand management to differentiate themselves, gain market share, and benefit consumers through competition.
2) It provides background on the telecommunications industry and major mobile operators in Kenya, including Safaricom, Airtel, Telkom Kenya, and Essar Telecom Kenya.
3) The purpose of the study was to examine how brand management influences rivalry between mobile operators and how consumers benefit from this competition.
Ufone operates in the highly competitive Pakistani telecommunications industry. It faces high competitive rivalry from major competitors like Mobilink, Zong, Telenor, and Warid. While Ufone has over 24 million subscribers, its market share has declined as competitors have captured a larger portion of new subscribers in recent years. Ufone works to enhance its network coverage and offer innovative products and services to attract new customers and retain existing ones. Substitute products like fixed line and wireless broadband also pose a threat to Ufone's mobile business. Potential for new entrants into the saturated Pakistani market is now low, providing some relief from new competition for Ufone.
The Indian telecom market has experienced sustained high growth rates due to overall economic growth and rising incomes. India is the fourth largest telecom market in Asia after China, Japan and South Korea. The Indian telecom network is the eighth largest in the world and second largest among emerging economies. The telecom industry in India is expected to grow threefold by 2012, fueled by massive growth in mobile users which reached 10 million in 2002 and cellular penetration is still low at 1% compared to the world average of 16%.
This document provides an overview of the mobile telecommunication industry in Bangladesh. It begins with an executive summary and then covers the following topics:
- A literature review of the major mobile operators in Bangladesh, including their profiles, market shares, and technologies used.
- A description of the research methodology used in the report, including the population studied, sampling methods, and research framework.
- A presentation of data on the mobile operators' subscribers over the past four years, mobile value-added services, and the economic impact of mobile phones.
- Results from a questionnaire survey assessing customers' satisfaction with various aspects of service from the major operators such as network coverage, call rates, special offers, and service center
This document analyzes the opportunity for green power in Myanmar's telecommunications sector. It provides background on Myanmar's emerging economy and telecom market. Myanmar has experienced steady GDP growth in recent years. The entry of new mobile network operators is expected to dramatically increase mobile connections from the current 5.44 million to 22 million by 2017. However, significant infrastructure challenges exist including unreliable electricity supply. Most new telecom sites will be off-grid, relying on diesel generators. The document estimates green power alternatives could provide electricity to around 10,000 sites by 2017, saving mobile operators $137 million annually in fuel costs. Energy service companies could also help deploy green solutions and realize further operational savings.
Comparing the impact of decline in leased line prices in india and indonesia ...ACORN-REDECOM
This document analyzes the impact of declining leased line prices in India and Indonesia and provides lessons for Latin America. It finds that while leased line prices declined significantly in both countries, the impact was more substantial in India due to earlier and more comprehensive pro-competitive reforms. In Indonesia, the telecommunications sector remains dominated by the incumbent operator despite reforms, limiting competition and the potential economic benefits. The document compares the experiences of both countries and regulatory frameworks to understand what drove different outcomes and lessons that can be learned.
The document provides information about the telecom industry of Pakistan. It discusses the history and evolution of the telecom sector in Pakistan from the Pakistan Post and Telegraph (P&T) department established at independence to the modern regulatory authorities and private operators. It summarizes the key milestones like the establishment of Pakistan Telecommunication Company Limited (PTCL) and Pakistan Telecommunication Authority (PTA). It also provides overviews of the major mobile network operators Jazz, Ufone, Telenor and their market shares, services, and corporate social responsibility initiatives.
The telecom network in India is the fifth largest in the world and meets global standards. Currently, the Indian telecom industry contributes nearly 1% to India's GDP. The document provides a history of telecom in India beginning in 1851 and outlines key milestones such as the introduction of private sector involvement in the 1980s. It discusses government policies like the National Telecom Policy of 1999 which aimed to improve connectivity and quality of services. The rapid growth of the telecom sector post liberalization in 1991 is also summarized.
An alarming signal in mobile telecommunication industry a study in malaysiaijmnct
The use of products and services of the mobile telecommunication industry becomes a part and parcel of
each human being around the globe irrespective of the age. It is hardly visible to see people without the use
of telecommunication technology in today’s world. The present research article examines the alarming
signal of market saturation of telecommunication companies in Malaysia as internal competitors is
increasing in number and age restriction of 18 years and above for legally registered owners of mobiles.
The saturation in the mobile telecommunication market is due to the relative low birth rate in Malaysia, the
eligible population to register a mobile phone is not proportional to telecommunication service providers.
In addition, there is also new Mobile Virtual Network Operators (MVNO) which magnifies the problem
further. Otherwise the local service providers have efficient and effective networking with other countries;
the sustainability of the telecommunication company's performance is at stake.
The document is India's National Telecom Policy from 2012. It aims to transform India into an empowered and inclusive knowledge-based society using telecommunications. Key goals include increasing rural teledensity, providing affordable broadband nationwide, and leveraging mobile devices and broadband to enable citizens to participate in e-governance and development initiatives in sectors like health, education, and agriculture. The policy also aims to make India a global hub for telecom manufacturing and establish standards and policies to promote innovation and R&D in the industry.
Problems and prospects of telecommunication sector of bangladesh a critical ...Alexander Decker
This document provides an overview of the telecommunication sector in Bangladesh, including mobile phone services. It discusses the problems, challenges and prospects facing the sector. Specifically, it notes that while the sector plays a vital economic role, recent years have seen decreasing government revenue and subscriber growth rates due to issues like SIM taxes and competition. However, with proper privatization and regulatory steps, the sector could grow and benefit both private operators and government income. It also provides market share details for the major mobile phone operators in Bangladesh as of March 2011.
Telecommunication plays a key role in Pakistan's economy and development. Pakistan's telecom industry has grown rapidly in recent decades and is now one of the fastest growing in Asia. It has transitioned from a state-run monopoly to include numerous private cellular providers. The major players are Mobilink, Telenor, Ufone, Zong and Warid, with Mobilink having the largest market share. New technologies like WiMAX and 3G are also being adopted to provide high-speed internet access across Pakistan. However, challenges remain to increase coverage, penetration rates, and develop domestic R&D capabilities to strengthen Pakistan's telecom sector.
The major players in the global GSM network industry include Nokia, Samsung, Ericsson, Huawei and ZTE. Nokia was one of the early leaders in GSM technology and equipment, helping drive the worldwide adoption of 2G networks. Samsung, Ericsson and Huawei have also become top equipment suppliers. On the network operator side, major GSM service providers globally include Vodafone, China Mobile, AT&T and Verizon, among others. These companies have built out extensive GSM networks over decades to serve billions of mobile subscribers worldwide.
The telecommunication sector in Moldova has seen strong growth over the last decade. Mobile telephony has been the main driver of growth, while fixed telephony remains dominated by the incumbent provider Moldtelecom. Internet access services have also grown rapidly, with broadband penetration increasing significantly. Looking ahead, mobile and broadband services are expected to continue their expansion, while new technologies like 3G and 4G may see limited adoption. Competition in fixed broadband access outside of cities remains a challenge due to infrastructure costs. Overall the market remains promising but further reforms are needed to encourage more competition across all segments.
The document discusses the telecom industry in Pakistan and Mobilink's position as the market leader. It provides background on the deregulation and growth of the mobile industry. Mobilink was the first cellular provider and currently has a 36% market share. It has expanded its network coverage to over 66% of the population. The mobile industry has seen strong growth over the years, though growth rates have declined recently. Mobilink has maintained its leadership through understanding customers, continuous investment, and innovation.
this is the analysis done by me on telecom sector. in this there is the objective of survey, its introduction and to make it more clear i have taken the example of airtel company and with this example i have explained everything.
paper_Measuring the Efficiency and Technology Gap of APEC Mobile Telecommunic...Nicky Chao
This study measures the efficiency and technology gap of 28 mobile operators in APEC countries from 2003 to 2008 using data envelopment analysis and meta-frontier approaches. It finds that operators in countries with high mobile penetration rates had higher technical efficiencies and smaller technology gaps than those in low penetration countries. Specifically, Rogers Wireless and Bell Wireless in low penetration countries had the largest technology gaps of all APEC mobile operators.
1) Back pain is a common complaint in primary care. Differential diagnoses include pyelonephritis, lumbar strain, herniated disk, vertebral compression fracture, sciatica, and abdominal aortic aneurysm.
2) Subjective findings for these conditions include descriptions of pain location, aggravating/relieving factors, and effect on daily activities. Objective exam focuses on vital signs, back exam including range of motion and neurological exam.
3) Diagnostics may include urinalysis, imaging like x-ray or MRI, and labs depending on suspected diagnosis. Potential complications of untreated back pain are increased fall risk, neurological deficits, and decreased productivity.
The document provides information about a case study of a 13-year-old boy admitted to the hospital diagnosed with dengue fever. It includes sections on the objectives of the study, theoretical frameworks, nursing health history, Gordon's pattern of functioning, physical assessment, and more. Global warming may be contributing to a 43% rise in dengue cases in the Philippines, with the largest increase in Metro Manila at almost 200%. There is no known cure or vaccine for dengue fever, which is transmitted by mosquitoes and symptoms include fever, headache, joint pain, and rash.
This document provides an overview of library management systems (LMSs) from 2001-2005. It notes that a small number of large companies dominated the LMS market during this period. LMSs began integrating multiple information sources and providing federated search capabilities. They also started linking with course management systems and addressing management of electronic resources. Major initiatives like the People's Network in the UK and JISC funding influenced LMS development and library services.
This document is a Supreme Court case from 1942 regarding civil liability for damages caused by an employee's negligence. The key details are:
- Pedro Fontanilla, a taxi driver employed by Fausto Barredo, caused a car accident through negligence that killed 16-year-old Faustino Garcia.
- Fontanilla was criminally convicted but the family reserved the right to a separate civil case. They sued Barredo under Article 1903 of the Civil Code for negligence in hiring Fontanilla.
- Barredo argued his liability was only subsidiary under the Penal Code since Fontanilla wasn't sued civilly first. However, the Court found quasi-delicts under the Civil Code are
The document provides information on traditional herbal medicines used to treat various illnesses, including parts used, preparation methods, and dosages. It also discusses the bag technique used by public health nurses, including principles, contents of the public health bag, and procedures. Finally, it briefly outlines the principles and immunizable diseases covered by the Expanded Program on Immunization (EPI) in the Philippines.
Grameen Telecom Stakeholder: My Thesis SummaryDjadja Sardjana
The process and reasons for the emergence of this thesis subject matter is the constituent; Why Grameen Telecom Stakeholders was instrumental in Strategy Management Effectiveness?
Meanwhile, opportunities, expectations and challenges in this thesis is: What opportunities are available for Stakeholder Grameen Telecom was instrumental in Strategy Management Effectiveness?, What is expected by all stakeholders in the implementation of Grameen Telecom Management Strategy?, What challenges faced by the Grameen Telecom as a very important role Stakeholders in Strategy Management Effectiveness?
Malaysia’s importance came into existence due to its central location in the ASEAN countries. The international trade has made great jumps in using ICT as a driving factor to reduce cost in global trade. The enhancement of Information and Communication Technology made an impressive transformation of economic environment. Malaysia is considered one of the key points for import and export in the region; thus the government has made large investments in building advanced and high tech infrastructure to meet the increasingly demand for higher speeds and advanced communication facilities.
Thailand has a robust mobile market with over 68 million subscribers and a penetration rate of over 100%. The top three mobile operators are AIS, DTAC, and True Move, who collectively control over 67% of the market. While mobile phone ownership is widespread, adoption of 3G services remains low at only 1.3% of subscribers due to poor infrastructure. The government recognizes the need to improve connectivity and has awarded 3G licenses and allocated funding to expand high-speed networks.
A STUDY ON CUSTOMER SATISFACTION REGARDING CELL PHONES SERVICESPrashant Kumar
This document is a project report submitted by Prashant Kumar to his faculty guide Dr. Devendra Kumar Pandey on a study of customer satisfaction with cell phone services. The report includes an introduction on India's growing telecom sector, objectives to study customer satisfaction levels and awareness of new phones. It also reviews literature and describes the methodology used, including hypotheses. Key findings and suggestions will be analyzed, with the goal of understanding customer satisfaction.
The document provides an overview of the telecom industry and mobile number portability (MNP) in India. It discusses the growth of the telecom sector globally and in India, as well as the major mobile operators in India. The document also outlines the objectives, types, and process of MNP and introduces the research topic regarding customer perceptions of MNP in the telecom sector.
This document provides an overview of the telecom sector in India. It discusses the history and growth of the telecom industry in India. Some key points discussed include:
- The rapid growth of the Indian telecom industry, with over 60 million new mobile connections added in 2008.
- The various technologies used like GSM, CDMA, 3G, and upcoming technologies like 4G.
- Major players in the industry like Airtel, Vodafone, Idea, Reliance, and government players like BSNL and MTNL.
- Initiatives by companies to invest billions to expand networks and subscriber bases.
- The telecom industry contributing around 1% to India
The document discusses the impact of privatization on the telecommunications sector. It begins by providing background on market reforms in telecommunications since the 1980s, including privatizing state-owned telecom operators. It then examines factors that influence private investor decisions to enter telecom markets in different regions. The document performs an empirical analysis comparing the effects of privatization on network growth, tariffs, and efficiency in OECD countries, Latin America, and various African country groups. It also provides an overview of telecom restructuring and privatization that occurred in Mauritius and key milestones in the development of India's telecom industry.
Comparative analysis of various companies of telecom industryisha
This document is a research report submitted to Kurukshetra University by Versha for their MBA program. It provides an introduction and overview of the telecom industry in India. Key points include:
- The rapid growth of the Indian telecom sector following liberalization policies in the 1990s and 2000s.
- Important milestones in the evolution of the industry including the establishment of regulatory authorities DOT and TRAI.
- Targets set by the government to expand telecom infrastructure and connectivity across India.
- Statistics on the growth in tele-density, rural connectivity programs, and market shares of different providers in recent years.
This document discusses the impact of privatization on telecommunications sectors globally since the 1980s. It notes that privatization generally involves opening telecom sectors to competition and privatizing state-owned incumbent operators. The success of privatization depends on private investors' perceptions of local conditions. Factors like wealth, population distribution, geography, politics, and existing telecom infrastructure influence investors' priorities between regions. The analysis finds that privatization has varying effects on network growth, tariffs, and efficiency depending on whether a country is an OECD, Latin American, African resource-rich coastal, African resource-rich landlocked, or African resource-scarce country.
The Role of Technology Acceptance Model in Explaining Effect on E-Commerce Ap...IJMIT JOURNAL
Today e-commerce has become crucial element to transform some of the world countries into an information society. Business to consumer (B2C) in the developing countries is not yet a normalcy as compared to the developed countries. Consumer behaviour research has shown disappointing results regarding the overall use of the Web for online shopping, despite its considerable promise as a channel for commerce. As the use of the Internet continues to grow in all aspects of daily life, there is an increasing need to better understand what trends of internet usage and to study the barriers and problem of ecommerce adoption. Hence, the purpose of this research is to define how far Technology Acceptance Model (TAM) contributed in e-commerce adoption. Data for this study was collected by the means of a survey conducted in Malaysia in 2010. A total of 611 questionnaire forms were delivered to respondents. The location of respondents was within Penang state. By studying this sample, conclusions would be drawn to generalize the interests of the population.
A new report published today by The Economist Intelligence Unit finds that progress in providing faster broadband access varies significantly across South-East Asia, despite the economic opportunities being well acknowledged.
There are great differences in the level of broadband planning and implementation, where even leaders, such as Singapore and Malaysia, face challenges in achieving greater coverage and uptake. In Singapore, 95% of households have access to fiber to the home (FTTH) network speed and 46% of them have subscribed to it. In Myanmar, by contrast, there is not even a national broadband plan. Among those with a plan for development, implementation is uneven.
This is among the key findings of The future of broadband in South-East Asia, an Economist Intelligence Unit report commissioned by Huawei. Although the Association of Southeast Asian Nations’ ICT Masterplan 2015 maps out a strategy to achieve greater integration across six areas, including infrastructure development and bridging the digital divide, implementation remains a domestic issue. In Malaysia, for instance, broadband targets are based on speeds of 256Kbps with the aim to provide 10Mbps or greater to high economic impact areas. The government has set a target to increase the broadband penetration rate to 75% of households by 2015.
Mobile-broadband has been touted as a quick way to provide broader access, but experts are now concluding that it is not a silver bullet. Conversion of spectrum allocation, the necessary technical development to provide faster mobile speeds, has been slow across much of the region. Even where successful policies are in place, such as in Singapore, limited bandwidth for data poses an emerging challenge. This highlights the continued importance of fixed broadband networks to supplement increasingly crowded mobile networks.
The report also finds that, in order not to fall behind, regulators are now taking a more holistic perspective and working with industry to resolve such issues and promote strong infrastructure environments.
As the information society grows in importance, digital inclusiveness becomes more urgent. Yet reaching rural and vulnerable populations remains difficult even for leading countries such as Singapore and Malaysia. Cyber security has also emerged as an issue which can affect uptake.
Despite the financial and practical challenges of broadband implementation, it remains the easier part of the supply and demand equation. More difficult are the challenges of improving affordability and raising awareness of the benefits of broadband adoption. Countries are only now beginning to tackle these issues.
1. This chapter introduces mobile phones and mobile banking services in India. It discusses the history and growth of mobile phones in India from the early 1980s to recent times, as well as definitions and concepts of mobile banking.
2. Mobile banking is defined as conducting financial and banking transactions using mobile devices and includes services like account access, funds transfer, bill payment, and checking account balances. It allows banking access anywhere at any time.
3. The growth of mobile phone subscribers in India is discussed from 2007 to 2015, showing a large increase in wireless subscribers and a decline in fixed line subscribers. Tables show subscriber growth and technology changes over this period.
Its the explanation about the joint venture of NTT Docomo and Tata teleservice ltd and their achievements and future strategy to be implemented for its growth in highly technological driven market of Telecom industry. and regarding the Mergers and Acquisition in telecom industry.
Role of Independent Regulator for keeping Internet Open and SecureInternet Society
The document discusses the importance of establishing an independent regulator for the telecommunications sector in Tajikistan. An independent regulator is critical to developing the ICT industry, attracting foreign investment, and achieving Tajikistan's strategic goals of overcoming communication isolation and transforming into a regional telecom transit hub. Specifically, an independent regulator would implement policies without undue political interference, acquire specialized skills, and manage the sector impartially. This is in line with Tajikistan's WTO commitments and would help transition the country from being landlocked and isolated to becoming a cyberdeveloped, connected nation.
REGULATION, COMTHE IMPACT OF PSYCHOLOGICAL BARRIERS IN INFLUENCING CUSTOMERS’...ijmpict
This document analyzes productivity changes in the African telecommunications industry from 2000 to 2009. It finds that the industry has improved productivity levels during this period, though most productivity growth resulted from technological advancement rather than gains in technical efficiency. Market competition and increasing subscriptions also positively impacted productivity. The study concludes that African countries can further boost productivity in their telecommunications sectors by improving technical efficiencies, increasing outputs like mobile phone penetration, and allowing more competition through international network operators.
DEVELOPMENT OF MOBILE FINANCIAL SERVICES IN THAILANDIAEME Publication
Thailand is seeing a rapid technology transformation to mobile broadband networks and the increased adoption of smart mobile devices. The increasing use of mobile broadband-enabled smartphones has changed consumer experiences and behaviors in many aspects of daily life, as well as creating new business opportunities and services. With spectrum licensing in mobile service and supportive telecommunications regulatory framework, the mobile industry will continue to grow and drive positive impacts on national economy. In Thailand, mobile banking enrollment rose steadily between 2010 and 2013. To accelerate adoption of mobile financial services and to ensure that they fulfil their promise, it is important to put in place supportive policies and regulations. Furthermore, the supportive policies will require collaboration between regulators and policy-makers in both financial and mobile communications industries. The objective of this paper is to study mobile financial services in Thailand.
RESEARCH REPORT A National Telecom Wholesale NetworkYOZZO
Exploring the potential of National Telecom Public Company Limited (NT) partnering with a MVNA/MVNE to launch a National Wholesale Network for Mobile Virtual Network Operators (MVNO)
The merger between True Corporation (TRUE) and Total Access Communication (DTAC) on March 1st, 2023 in Thailand has significantly reduced competition in the Thai telecommunications market, and raised concerns about price increases, service quality decline, and lack of consumer choice.
This report explores the benefits of strengthening the role of National Telecom Public Company Limited (NT), as a neutral player by allowing it to retain its spectrum and partner with a Mobile Virtual Network Aggregator (MVNA) and enabler (MVNE), to establish a National Wholesale Network (NWN), as a solution to enable competition into the market via Mobile Virtual Network Operators (MVNO).
This approach can foster competition, drive innovation, utilize existing infrastructure and ultimately benefit consumers and enterprises by providing them with more choices and innovative mobile services.
This document is a thesis submitted by Adedamola A. Layade to the University of Ibadan in partial fulfillment of a Masters of Business Administration degree. It examines how mobile commerce (m-commerce) can drive future business growth in Nigeria. The thesis provides background on m-commerce and the mobile technology sector in Nigeria. It aims to understand characteristics of potential m-commerce users and factors influencing m-commerce usage. The thesis will also analyze how m-commerce can aid economic growth in Nigeria through improved marketing, advertising and sales on mobile devices.
REGULATION, COMPETITION AND PRODUCTIVITY GROWTH IN THE AFRICAN TELECOMMUNICAT...ijmpict
The telecommunications industry in Africa has exhibited tremendous development since the turn of the century. This study analyzes production efficiency changes in the African telecommunications industry in the period 2000 to 2009. Furthermore, an attempt is made to assess the determinants for such efficiency changes. The results show that the industry has improved its productivity levels. However, most of the productivity growth is resulted from technological advancement and less from technical efficiency. Additionally, market competition and increasing subscriptions have also positively affected the sector’s productivity. Hence, this study implies that African countries can further improve productivity in their telecommunications sector by improving on technical efficiencies, increase outputs especially the penetration of mobile telephony, and allow competition in the market with participation from international network operators
ISO/IEC 27001, ISO/IEC 42001, and GDPR: Best Practices for Implementation and...PECB
Denis is a dynamic and results-driven Chief Information Officer (CIO) with a distinguished career spanning information systems analysis and technical project management. With a proven track record of spearheading the design and delivery of cutting-edge Information Management solutions, he has consistently elevated business operations, streamlined reporting functions, and maximized process efficiency.
Certified as an ISO/IEC 27001: Information Security Management Systems (ISMS) Lead Implementer, Data Protection Officer, and Cyber Risks Analyst, Denis brings a heightened focus on data security, privacy, and cyber resilience to every endeavor.
His expertise extends across a diverse spectrum of reporting, database, and web development applications, underpinned by an exceptional grasp of data storage and virtualization technologies. His proficiency in application testing, database administration, and data cleansing ensures seamless execution of complex projects.
What sets Denis apart is his comprehensive understanding of Business and Systems Analysis technologies, honed through involvement in all phases of the Software Development Lifecycle (SDLC). From meticulous requirements gathering to precise analysis, innovative design, rigorous development, thorough testing, and successful implementation, he has consistently delivered exceptional results.
Throughout his career, he has taken on multifaceted roles, from leading technical project management teams to owning solutions that drive operational excellence. His conscientious and proactive approach is unwavering, whether he is working independently or collaboratively within a team. His ability to connect with colleagues on a personal level underscores his commitment to fostering a harmonious and productive workplace environment.
Date: May 29, 2024
Tags: Information Security, ISO/IEC 27001, ISO/IEC 42001, Artificial Intelligence, GDPR
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Chapter wise All Notes of First year Basic Civil Engineering.pptxDenish Jangid
Chapter wise All Notes of First year Basic Civil Engineering
Syllabus
Chapter-1
Introduction to objective, scope and outcome the subject
Chapter 2
Introduction: Scope and Specialization of Civil Engineering, Role of civil Engineer in Society, Impact of infrastructural development on economy of country.
Chapter 3
Surveying: Object Principles & Types of Surveying; Site Plans, Plans & Maps; Scales & Unit of different Measurements.
Linear Measurements: Instruments used. Linear Measurement by Tape, Ranging out Survey Lines and overcoming Obstructions; Measurements on sloping ground; Tape corrections, conventional symbols. Angular Measurements: Instruments used; Introduction to Compass Surveying, Bearings and Longitude & Latitude of a Line, Introduction to total station.
Levelling: Instrument used Object of levelling, Methods of levelling in brief, and Contour maps.
Chapter 4
Buildings: Selection of site for Buildings, Layout of Building Plan, Types of buildings, Plinth area, carpet area, floor space index, Introduction to building byelaws, concept of sun light & ventilation. Components of Buildings & their functions, Basic concept of R.C.C., Introduction to types of foundation
Chapter 5
Transportation: Introduction to Transportation Engineering; Traffic and Road Safety: Types and Characteristics of Various Modes of Transportation; Various Road Traffic Signs, Causes of Accidents and Road Safety Measures.
Chapter 6
Environmental Engineering: Environmental Pollution, Environmental Acts and Regulations, Functional Concepts of Ecology, Basics of Species, Biodiversity, Ecosystem, Hydrological Cycle; Chemical Cycles: Carbon, Nitrogen & Phosphorus; Energy Flow in Ecosystems.
Water Pollution: Water Quality standards, Introduction to Treatment & Disposal of Waste Water. Reuse and Saving of Water, Rain Water Harvesting. Solid Waste Management: Classification of Solid Waste, Collection, Transportation and Disposal of Solid. Recycling of Solid Waste: Energy Recovery, Sanitary Landfill, On-Site Sanitation. Air & Noise Pollution: Primary and Secondary air pollutants, Harmful effects of Air Pollution, Control of Air Pollution. . Noise Pollution Harmful Effects of noise pollution, control of noise pollution, Global warming & Climate Change, Ozone depletion, Greenhouse effect
Text Books:
1. Palancharmy, Basic Civil Engineering, McGraw Hill publishers.
2. Satheesh Gopi, Basic Civil Engineering, Pearson Publishers.
3. Ketki Rangwala Dalal, Essentials of Civil Engineering, Charotar Publishing House.
4. BCP, Surveying volume 1
Leveraging Generative AI to Drive Nonprofit InnovationTechSoup
In this webinar, participants learned how to utilize Generative AI to streamline operations and elevate member engagement. Amazon Web Service experts provided a customer specific use cases and dived into low/no-code tools that are quick and easy to deploy through Amazon Web Service (AWS.)
Temple of Asclepius in Thrace. Excavation resultsKrassimira Luka
The temple and the sanctuary around were dedicated to Asklepios Zmidrenus. This name has been known since 1875 when an inscription dedicated to him was discovered in Rome. The inscription is dated in 227 AD and was left by soldiers originating from the city of Philippopolis (modern Plovdiv).
Communicating effectively and consistently with students can help them feel at ease during their learning experience and provide the instructor with a communication trail to track the course's progress. This workshop will take you through constructing an engaging course container to facilitate effective communication.
LAND USE LAND COVER AND NDVI OF MIRZAPUR DISTRICT, UPRAHUL
This Dissertation explores the particular circumstances of Mirzapur, a region located in the
core of India. Mirzapur, with its varied terrains and abundant biodiversity, offers an optimal
environment for investigating the changes in vegetation cover dynamics. Our study utilizes
advanced technologies such as GIS (Geographic Information Systems) and Remote sensing to
analyze the transformations that have taken place over the course of a decade.
The complex relationship between human activities and the environment has been the focus
of extensive research and worry. As the global community grapples with swift urbanization,
population expansion, and economic progress, the effects on natural ecosystems are becoming
more evident. A crucial element of this impact is the alteration of vegetation cover, which plays a
significant role in maintaining the ecological equilibrium of our planet.Land serves as the foundation for all human activities and provides the necessary materials for
these activities. As the most crucial natural resource, its utilization by humans results in different
'Land uses,' which are determined by both human activities and the physical characteristics of the
land.
The utilization of land is impacted by human needs and environmental factors. In countries
like India, rapid population growth and the emphasis on extensive resource exploitation can lead
to significant land degradation, adversely affecting the region's land cover.
Therefore, human intervention has significantly influenced land use patterns over many
centuries, evolving its structure over time and space. In the present era, these changes have
accelerated due to factors such as agriculture and urbanization. Information regarding land use and
cover is essential for various planning and management tasks related to the Earth's surface,
providing crucial environmental data for scientific, resource management, policy purposes, and
diverse human activities.
Accurate understanding of land use and cover is imperative for the development planning
of any area. Consequently, a wide range of professionals, including earth system scientists, land
and water managers, and urban planners, are interested in obtaining data on land use and cover
changes, conversion trends, and other related patterns. The spatial dimensions of land use and
cover support policymakers and scientists in making well-informed decisions, as alterations in
these patterns indicate shifts in economic and social conditions. Monitoring such changes with the
help of Advanced technologies like Remote Sensing and Geographic Information Systems is
crucial for coordinated efforts across different administrative levels. Advanced technologies like
Remote Sensing and Geographic Information Systems
9
Changes in vegetation cover refer to variations in the distribution, composition, and overall
structure of plant communities across different temporal and spatial scales. These changes can
occur natural.
Main Java[All of the Base Concepts}.docxadhitya5119
This is part 1 of my Java Learning Journey. This Contains Custom methods, classes, constructors, packages, multithreading , try- catch block, finally block and more.
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Interconnection of Mobile to Fixed:
The Case of Malaysia
John Ure
Director of the Telecommunications Research Project
Centre of Asian Studies, University of Hong Kong
www.trp.hku.hk
3. CONTENTS
Part 1: Introduction 2
1.1 Development and Telecommunications Reform 2
1.2 Mobile Telephony and Competitive Markets 3
1.3 Obstacles to Development 4
1.4 Malaysia’s New Path towards Competitive Markets 4
Part 2: The Mobile Market and the Need to Interconnect 6
2.1 Teledensity 6
2.2 Interconnection as a Public Good 7
2.3 The First Interconnection Agreement, 1990 8
2.4 The Second Interconnection Agreement, 1995 9
2.5 Comparative Study: the Case of India 11
Part 3: General Framework for Interconnection and Access (GFIA) 13
3.1 Objectives 13
3.2 Technical and Commercial Guidelines 14
Part 4: Mobile Interconnection 18
4.1 Cost-Based Interconnection Charges 18
4.2 Benchmarking Interconnection Charges 20
4.3 Comparative Study: The Cases of China and Hong Kong, SAR 21
4.4 Universal Service Obligation 22
Part 5: Discussion 24
5.1 Context 24
5.2 Build a Consensus out of Conflict 24
5.3 Interconnection Agreements 25
5.4 Broadband 26
Part 6: References and Useful Websites 27
Appendix A: Telecommunications Map of Malaysia 28
Appendix B: General Agreemenarinet for Interconnection and Access (GFIA)
29
3
4. Malaysia – Mobile Interconnection Case Study
Part 1: Introduction
Malaysia is a middle-income developing country (GDP per capita of US$4,360) with a
population of 21 million people distributed across the eleven states of Peninsular
Malaysia and the two states (Sabah and Sarawak) of Eastern Malaysia on the island of
Borneo, including the off-shore financial centre of Labuan island. Malaysia is also a
multi-ethnic, multi-cultural society of majority Malays, and substantial minorities of
Chinese and Indians. Population density is naturally greatest in the urban areas, and
especially along the western side of Peninsular Malaysia, from Johor Bahru in the south
to Penang in the north.
The highest concentrations of people, and those with the highest average per capita
incomes, live in and around the capital city Kuala Lumpur, and its satellite city of
Petaling Jaya, or along the Klang Valley leading to KL’s port city of Klang. This has
implications for advanced telecommunications and media services because most of
Malaysia’s Internet users are also concentrated in these districts and Malaysia’s only
cable television network offers service to these areas.
In recent years the Multimedia Super Corridor had become central to Malaysia’s strategic
national development plan, Vision 2020. The Multimedia Super Corridor (MSC) is being
promoted as a high technology research and development, design and production zone to
attract international investment, particularly in the area of information technologies.
Special laws have been enacted which grant companies investing in the MSC exemption
from certain duties and taxes and from restrictions on the importation of goods, services
and skilled workers, and on the repatriation of earnings. The MSC, which has been
sculptured largely out of extensive palm oil plantations, begins with the gleaming twin
towers of the Petronas building in the city centre of KL, and stretches south alongside the
KL-Johor-Singapore motorway towards KL’s new international airport at Sepang.
Cyberjaya is the administrative centre of the MSC, and nearby is Malaysia’s new
administrative capital city of Putrajaya where the Prime Minister’s residence and
ministries are now located.
1.1 Development and Telecommunications Reform
These developments embody the hopes and aspirations of Malaysia’s drive to become a
developed economy by the year 2020. The point is not just rhetoric. Whatever difficulties
of economic or social development Malaysia faces, the country has clearly charted a
course of development, and this becomes an important explanatory factor in looking at a
sector like telecommunications. Even by the early 1980s Malaysia recognized the
strategic importance of information technologies to the economic and social growth
process.1
Originally this focused upon the assembly and later the design of information
technology parts and components, and then on the embodiment of these into technology
products and applications. Alongside this industrial planning in the 1980s went the
1
See V.Lowe (1994) ‘Malaysia and Indonesia: telecommunications restructuring’. In Noam, E. and
S.Komatsuzaki, D.A.Conn (eds.) Telecommunications in the Pacific Basin: An Evolutionary Approach.
Oxford: Oxford University Press.
4
5. beginnings of telecommunications reform and liberalization. Prior to 1984 responsibility
for operating national telecommunications was passed from the Jabatan Telekom
Malaysia or JTM (Department of Telecommunications) of the Ministry of Energy,
Telecommunications and Posts (METP) to the newly incorporated Syarikat Telekom
Malaysia (STM). In 1987 STM was privatized and floated on the stock market in
November 1990 as Telekom Malaysia Berhad (TMB) with the Ministry of Financial
owning 76 per cent of shares.
The creation of STM and its subsequent partial privatization as TMB placed the Jabitan
Telekom Malaysia (JTM) in the role of regulator. A regulator’s task is to supervise the
conduction of the industry. This includes, for example, spectrum management to
minimize interference between users, the prevention of illegal or non-authorized use of
equipment, the enforcement of compliance with licence conditions, and cracking down
on anti-competitive behaviour that is damaging to the public interest. But making a shift
towards a more competitive and liberal market structure is not always a straightforward
process. One problem that can arise is the blurring of lines of authority, especially when
the policy making and regulatory processes are not sufficiently clearly defined in law and
lack transparency in practice. In Malaysia’s case these problems manifest themselves in
the way licences were issued. There was no clearly laid out policy on how many licences
should be issued, for example for mobile phone operators, or on the scope and conditions
attached to the licences, for example whether they would or would not include the right to
operate an international gateway in competition with TMB. The terms and conditions of
the licences were not made available for public scrutiny. There was even some confusion
as to who should issue licences, only the JTM or also the Ministry.
The result by the mid-1990s was, in the view of the current Minister, Datuk Leo Moggie,
that there may be too many licences for the size of Malaysia’s market.
1.2 Mobile Telephony and Competitive Markets
By the mid-1990s the shift towards more open and competitive telecommunications
markets had become a world phenomenon, not least because of the very rapid spread of
mobile telephony and also of the Internet. In many economies cellular mobile services
were the first significant sectors of the telecommunications market to open to new
entrants. Cellular telephony was seen as having relatively low capital-intensity compared
with fixed public network telecommunications services (PSTN) and therefore ideally
suited to new players entering the market. It was also seen as more of a luxury than a
necessity for most people, and therefore was not subject to a universal service obligation.
It was also seen in part as a substitute for a fixed line telephone where a chronic shortage
existed, which would be particularly useful in the central business districts (CBDs) of
cities and large towns serving commercial communities. Perhaps most important of all,
cellular mobile telephony was seen as immensely profitable. Profit provided incentives to
build out the networks, and also sources of taxation and licensing revenues for the State.
Naturally, the incumbent operators, such as TMB, want to dominate the cellular market if
possible, but for two reasons this was not possible. First, large corporate organizations are
not necessarily as agile on their feet in marketing or in service innovation as new entrants
5
6. who are dedicated to the task. Second, state-owned enterprises, even after they have been
partially privatized, remain subject to a variety of pressures which does not help them to
make independent decisions based upon practical commercial considerations. This point
needs to be clarified. The incumbent operator has certain obligations, such as universal
service, which need to be funded somehow. Typically, in a non-competitive environment,
the source of funding is cross-subsidy from profit-making activities. This cannot survive
a shift to a totally open and competitive market. Another source of pressure is the need of
the national treasury for funds. In a developing country where funds, especially foreign
currency, are in short supply the taxation and share dividends paid by a state-owned
telecommunications company are important, and no financial ministry is enthusiastic
about losing that source of revenue. In Malaysia, as elsewhere, where this problem has
had to be faced and worked through, the understanding is that the best way to grow the
industry in its modern stage of development is through open and competitive markets.
These will stimulate demand for new services and lay the foundations for new businesses,
and national revenues will benefit as a result.
1.3 Obstacles to Development
There are other issues that arise during periods of transition towards open and free or
open and well-regulated markets. Equipment suppliers are very anxious to secure
customers in both fixed and mobile markets, and they are able to offer attractive financial
arrangements, such as soft loans, to win their business. They also have the expertise and
training facilities to provide backup, and they also have to make decisions as to where
they locate their own manufacturing facilities, or where to source components. Industrial
policy and planning issues are involved at this level which are far wider than the purely
service considerations of the national telecommunications company. The governments of
all developing countries are forced to balance, on the one hand, the short-term advantages
that may arise from giving contracts to particular equipment suppliers, and on the other
hand, with the objective of developing a commercially self-sustaining and competitive
telecommunications sector. Being the largest user of equipment, the state-owned
incumbent operator therefore may be forced to compromise on the equipment type they
buy, but this can then lead them into two problems. First, they have too many different
types of equipment, each requiring its own spare parts, each requiring different specialist
knowledge on the part of the maintenance workers, each possibly presenting protocol
problems making inter-operability a nightmare. For example, according the Malaysian
Communications and Multimedia Commission (MCMC), there are five different types of
switches used in the PSTN. Second, in an area such as cellular mobile the incumbent may
end up with not the best system to compete with the new entrants.
1.4 Malaysia’s New Path Towards Competitive Markets
Malaysia is no different from other developing economies in having experienced most of
these problems to some extent. But now Malaysia has done something about it. Since
1996 Malaysia has embarked on a radically new path towards an open and competitive
market in telecommunications and multimedia services in an effort to bring about a more
rational structure to the industry and a more rational way to regulate it.
6
7. Following a growing pattern worldwide, but also reflecting local conditions, and in
particular the strategic role of a commitment to multimedia development in Malaysia,
legislation has been passed creating a new regulatory body, the Malaysian
Communications and Multimedia Commission (MCMC) under the policy direction of the
renamed Ministry of Energy, Communications and Multimedia (MECM). The new body
brings telecommunications, information technology and broadcasting policy under one
roof. And the Communications and Multimedia Act 1998 completely overhauled the
licensing regime. Most value-added service providers will merely need to register
themselves, and a class licensing system will deregulate many other service areas. And,
in echo of the Australian model, a private industry body is being established which will
run a number of forums to make recommendations to the regulator and the Ministry.
Malaysia’s step forward in this area is part of an overall adjustment to revitalize the
policy aims and objectives of Vision 2020, and it represents a restatement of the
importance telecommunications is to play in economic and social development.
7
8. Part 2: The Mobile Market and the Need to Interconnect
2.1 Teledensity
By early 2000 there were around 4.5 million direct exchange lines in Malaysia, since
1998 all of them digital, and a penetration rate of fixed wireline telephones of 22 per cent.
In addition there were 2.5 million cellular telephone subscribers, a cellular penetration
rate of 10.2 per cent, or nearly half the fixed rate. From 1990-98 fixed lines grew at a
compound annual rate of 14.8 per cent, whereas from 1996-1999 cellular has grown
much faster, at 63 per cent per year. (Ministry of Energy, Communications and
Multimedia Malaysia, at www.ktkm.gov.my.)
The first cellular systems were analogue. In the 1980s TMB was using the Nordic system
NMT450 for wide area coverage. In 1989 Celcom became the second operator, using
ETACS 900 to provide service in urban areas. Celcom’s entry into the market was the
first of several private sector companies, so when an interconnection arrangement became
necessary to provide access between cellular customers and TMB, naturally it was with
Celcom (see below). Table 1 lists the current cellular licence holders and their systems.
Table 1
Cellular Company and dial code Technology Transmission Mode
Telekom Malaysia (TMB) – 011 NMT 450 Analogue
TM Touch (TMB) – 013 1800 PCN Digital
Mobikom (TMB) – 018 AMPS 800 Analogue
Mobikom (TMB) – 018 AMPS 800 Digital
Celcom – 010 ETACS 900 Analogue
Celcom – 019 GSM 900 Digital
Maxis – 012 GSM 900 Digital
Digi.com – 016 PCN 1800 Digital
Time.com – 017 PCN 1800 Digital
Towards the end of 2000 estimates of cellular subscribers had risen to around 4 million,
which means the teledensity of cellular mobile phones is close to 19 per 100 population,
or nearly that of fixed line teledensity. Market shares estimated very approximately as
follows: Celcom at 32 per cent, Maxis at 24 per cent, Digi and TM Touch at 17 per cent
each, Time.com and Mobikom around 5 per cent each.
The Asian economic recession of the late 1990s impacted upon Malaysia’s cellphone
industry as it did everywhere. Bad debts went up, average revenues per user (APRU)
went down, while capital expenditure on network improvements and rollout went on
hold, and only in 2000 has the industry begun to recover. The bad debt problem was
partly resolved by cutting off non-paying customers, but also by the growing use of pre-
paid cards which one estimate from within the industry placed at between 55 and 65 per
cent of total cellular traffic. The surcharge on pre-paid calls is around 50 per cent so these
represents a very profitable side of the business, but it does not build customer loyalty. It
is pure “churn” unless customers can be persuaded to reload their cards.
8
9. The growth in mobile customers and traffic over recent years is reflected in traffic
patterns. In the early 1990s most mobile calls were made to fixed telephone lines, but the
proportions have been changing. One of the smaller operators estimated that - in very
round numbers - now 40 per cent of traffic carried on their network was from mobile-to-
fixed, 20 per cent was fixed-to-mobile, and 30 per cent mobile-to-mobile. A larger
operator estimated that perhaps 60 per cent of traffic was between mobile and fixed, and
forty per cent between mobile and mobile. It should be stressed these proportions are
estimates, not calibrated against actual traffic, and it seems that no central statistics
covering all operators are kept at this point in time.
2.2 Interconnection as a Public Good
The message however is clear. The use of mobile phones has gone well beyond luxury.
They are almost as common as fixed line phones, and while they are more expensive they
represent added value in terms of the function of mobility, including the potential for
roaming, and convenience. It follows that interconnection with the PSTN takes on a
public good aspect as well as increasing the value of the network itself. A public good is
one that is not depleted through its use. The ability of any two people to interconnect
does not diminish the ability or value for any other two people to interconnect, so the
provisioning of a network with points of interconnection (POIs) enhances public welfare,
allowing any-to-any communications.
It also has the benefit of externality. Externality arises when the activities of one person
or set of persons impacts upon the welfare of others who are not directly involved.
Interconnection obviously raises the value of the smaller network by widening the
number of possible connections its subscribers can make, but it simultaneously widens
the number of connections subscribers to the interconnected network can make. The
incumbent network operator may take some convincing of this because it makes a rival
network look more attractive than before the interconnection agreement, but if the total
market grows as a result of interconnection then both networks gain. How convincing is
this argument? Will the market grow? And is there an option of not interconnecting?
1. Even on static assumptions that demand at current levels of income and commerce
remains constant, it is reasonable to assume that one call generates others. For
example, someone calls and leaves a message. A return call is likely. A caller makes a
suggestion to a called party, and the called party may then wish to consult or inform
or check with others, and so on. It therefore follows that the more persons (called
parties) the subscriber (calling party) has available, more calls will be generated.
2. But above all else in the future, as broadband and Internet communications by
telephone begin to take off, a network operator or service provider who does not offer
interconnection will simply lose customers to those who do. The market will lead the
process, and this is a very different world from the one in which incumbent operators
began their life. Interconnection, instead of being something to be resisted by the
incumbent as a zero-sum-game, becomes a benefit and a commercial requirement for
every operator.
9
10. 2.3 The First Interconnection Agreement
The earliest mobile networks were TMB’s NMT 450 and, in late 1989, Celcom’s ETAC
900 system followed in 1994 by Mobikom using D-AMPS 800 technology. In 1995 five
more licences were issued, two for the operation of GSM networks and three for the
operation of PCN or GSM 1800 networks. In the early days there were no formal
agreements governing interconnection, but from 1990 onwards interim agreements were
reached between the parties focusing solely upon the commercial arrangements.
Commercial Arrangement between Telekom Malaysia and Celcom, 1990
1. For all calls destined for TMB’s network, Celcom paid TBM the full PSTN rate.
(Note: untimed local calls, which retailed at 10¢, made up 70 per cent of traffic)
2. For all calls destined for Celcom’s network, TMB paid Celcom 5¢ for every 20-
second block.
3. The nett account paid by Celcom = (2.3.1 – 2.3.2)/2
4. Celcom to establish a point of interconnection (POI) in every area code.
5. Celcom to bear the cost of both incoming and outgoing circuits, and the associated
POI hardware and software costs.
Note: Celcom also operated an international gateway, so only a small percentage of its
international traffic passed through TMB’s gateway
In 1994 an interim agreement for 6 months was reached with Mobikom, pending a more
substantial agreement for mobile operators.
Commercial Arrangement between Telekom Malaysia and Mobikom, 1994
1. For all calls destined for TMB’s network, Mobikom paid TMB 13¢ plus 5¢ per
minute (this payment in respect of the USO)
2. For all calls destined to Mobikom’s network, TMB paid Mobikom 13¢ per minute.
3. For international calls, Mobikom paid TMB a discounted retail rate (less 10%) for
carrying such calls.
Note: Mobikom receives a lower payment than Celcom and has a smaller network.
Unlike Celcom, Mobikom also has no international gateway.
10
11. 2.4 The Second Interconnection Agreement
As traffic built up, and with new licences being issued, the need for more detailed
technical and commercial arrangements became obvious. The first step in this direction
came in May 1995 with an agreement with Celcom that would be the basis of agreements
with other mobile operators.
Commercial Arrangement between Telekom Malaysia and Celcom, 1995 – basis for
general agreement with all mobile operators
Scope
• Interconnecting TM’s network to the network facilities of the other party
• Supplying requested telecommunications services to the other party
• Making available to the other party the services, facilities and information as required
by law or as specified in the licences.
• Includes
a) Point of Interconnection (the cost of establishment bundled into the interconnection
fee)
b) Delivery of calls depending upon whether they involve near-end or far-end
handover.
c) Interconnection capacity in terms of circuits made available measured in 2 Mbps
units.
d) Access by TMB to the premises of mobile operator to establish the connection.
Commercial
• Revenue sharing
• Near-end and Far-end handover of calls (mobile operator keeps 35 per cent of
revenue for near-end handover of long-distance calls; the terminating party keeps 30
per cent of revenues for far-end handover of calls; the long-distance carrier receivers
35 per cent of revenue.)
• Special discounted rate for interconnection capacity
Billing and Settlement
• Billing period is on a monthly calendar basis
• Due date is 30 days after relevant invoice
• Dispute notification period expires 30 days after date of invoice
• Invoice date is the date on which the invoice is dispatched
• Payment to be by electronic transfer or exceptionally by cheque is agreed by the
invoicing carrier
• Billing disputes procedure (these could arise from glitches in software, and mostly
involved customer disputes over international calls and call charges).
Other
• Interconnection terms and conditions, which are commercially agreed bilaterally,
should be on a non-discriminatory basis.
11
12. • Interconnection agreements with mobile operators would remain confidential, but
available to the regulator. (This allows the regulator to ensure the terms and
conditions are non-discriminatory).
• Disputes resolution provides for a committee representing TMB and the Other
Licensed Network Operators (OLNOs) to resolve issues, backed up by the Arbitration
Act No.93 (Revised 1972) of Malaysia. (Most disputes arise over billing issues, and
none has ever required the use of the Arbitration Act, nor reference to the regulator.)
• Interconnect Steering Group (ISG) established to coordinate the activities of the
Carriers, the operation of the agreement, and matters referred to it. Representation not
below General Manager level agreed, around five representatives per Carrier.
This was an agreement to revenue-share on long-distance calls where Celcom either
originated or terminated the call and TMB provided the long distance trunk transmission
network. The revenue split was in three parts, the near-end or originating segment, the
middle or trunk segment and the far-end or terminating segment, which respectively
accounted for 35 per cent, 35 per cent and 30 per cent of the revenue split as illustrated
below.
Originating Network Long Distance Carrier Terminating Network
35% 35% 30%
Near End Far End
Handover Handover
Far End Handover for Termination by TMB
70% 30%
Near - End Handover For Termination By TMB
35% 65%
If Celcom originated the traffic but handed over to TMB at the near-end, Celcom would
retain 35 per cent of the retail price of the call. If TMB then handed over to Celcom again
at the far end for call termination, Celcom would share a further 30 per cent of the retail
price. If Celcom did not originate the call but terminated the call after far-end handover
from TMB, then Celcom would also get the 30 per cent.
12
13. So why and how did this agreement come about and how effective was it? It came about
through commercial negotiation between Celcom and TMB because Celcom at that time
did not have a national backbone for routing traffic. Revenue sharing was a quick and
convenient method to adopt as a means of compensating TMB for the use of its facilities,
including the cost of provisioning its tandem exchanges with points of interconnection.
But why not a cost-based interconnection charges at that time? Cost-based prices are
good for simulating the effects of a competitive market, but this was not the case in
Malaysia in 1996. TMB faced no effective competition in the fixed line market, and
although Time Telecom and the national electricity grid were both developing a trunk
network capability, there was no alternative carrier for Celcom.
Even if a cost-based pricing approach had been preferred, simply knowing what the costs
were would have been a problem. Incumbent operators do not spend accounting
resources on costing every element within their networks unless there is good reason to
do so. It is a costly exercise in terms of labour-time and bureaucracy. There was no
reason till the mid-1990s why TMB needed that level of detailed breakdown of its costs.
Its own accounting requirements only went as far as needing to know total costs and
ways of fully allocating them across the different service elements. Under these
circumstances, a cost-based approach to interconnection could be problematic insofar as
the interconnecting party would be suspicious that the cost allocation method was unjust
or arbitrary. This would result in a demand for regulatory intervention. In 1995 the JTM
did not have the resources at its disposal to carry out such an interventionist exercise, so
it would need to rely upon outside expertise from consultants. In itself that is not a
problem because it is a widespread practice for most regulators, but it is consuming of
both time and money. Thereafter it also requires the regulator to formulate a process for
bringing the parties together and agreeing the cost allocation principles, and, if necessary,
the regulator has to be in a position to make a determination, assuming the legal authority
of the regulator gives the power to do so.
It also needs to be remembered that Celcom’s network was still in the process of build-
out, and the market for cellular services was no where near maturity. What Celcom
needed was a timely interconnection arrangement, and this would also serve the public
interest. Under these circumstances, the revenue-sharing arrangement was simple, timely
and acceptable to all parties. It was therefore a highly practicable arrangement and it
seems to have worked well. It was followed by a second agreement, between TMB and
Mutiara, now renamed Digi.
2.5 Comparative Study: the Case of India
The ITU has several case studies of interconnection agreements; two are which are for
Asia, covering China and Hong Kong, and India. The Indian experience is quite close to
Malaysia's in the sense that India also used revenue sharing as a basis for interconnection
charges as a means to facilitate the process.
13
14. However, unlike Malaysia where the process was generally accepted by all parties, in
India is was highly contested, not just by the incumbent domestic fixed line operator,
Mahanagar Telephone Nigam Ltd (MTNL) which is part owned by the Government of
India and the Department of Telecommunications (DOT), but the DOT itself also
opposed the proposals of the Telecommunications Regulatory Authority of India (TRAI)
to bring about (a) calling party pays (CPP) and (b) multiple points of interconnection so
mobile operators could avoid unnecessary long-distance interconnection charges.
Eventually, after various options were considered, a revenue-sharing agreement for fixed
to mobile calls was established of Rs.1.60 (US$0.034) for the first minute and Rs.0.80 for
each subsequent minute. "This represented 33.67 per cent share between fixed and
mobile operators. The TRAI reiterated that this arrangement was temporary and would be
replaced the following year by a cost-based access charge." See Fixed-Mobile
Interconnection: The Case of India, ITU, 2000 (www.itu.int/interconnect)
14
15. Part 3: General Framework for Interconnection and Access (GFIA)
Malaysia launched upon a radical reform of the telecommunications sector from 1996
onwards, beginning with the issuing of the General Framework for Interconnection and
Access (GFIA) by the Director General of Telecommunications, the head of the JTM.
The General Framework “sets out the operational guidelines and principles to govern the
interconnection and access between telecommunications networks in Malaysia. “ (para 1)
It covers both fixed and mobile operators, and covers local, long-distance and
international traffic.
3.1 Objectives
The following objectives have been established to “to govern the implementation of
efficient and equitable interconnection agreements:
a) All network operators should contribute towards the achievement of the national
objective of extending the availability and usage of telecommunications services and
the provision of quality services which meet the diverse needs of all Malaysians;
b) All network operators should be encouraged to deploy high quality and advanced
telecommunications infrastructure to serve the diverse needs of different customer
groups in an environment of strong growth and demand for advanced
telecommunications products and services within a high growth economy;
c) The deployment and optimum usage of the sector’s infrastructure and resources
should be directed towards the development of an economically efficient
telecommunications industry, and should not only minimize the uneconomic
duplication of infrastructure facilities but encourage the shared usage of common
infrastructure facilities;
d) All network operators should fulfill the national and public service obligations as
stipulated in their Licences; and
e) Clarity, stability, and transparency in the interconnection relationship between
network operators must be established in order to ensure that users enjoy the full
benefits of competition, including choice, convenience, and a variety of high quality
services at the lowest possible prices.”
Paraphrasing the above, all service providers are to be judged according to their
contributions to rolling out basic voice services to as wide a community as possible, to
making advanced services available (mobile Internet access would be a good example for
the future) where there is an effective demand for them, and providing these services in
the most efficient manner possible, which means keeping prices as low as possible. This
last point is perhaps the most thorny of issues. In developing economies, achieving
efficiency and an efficient use of resources, is a major challenge, and yet given the
relative scarcity of resources there is a compelling case to be made. One way to achieve
efficiency is by sharing facilities (c) such as duct space, hill stations, and inbuilding block
wiring. But another is by introducing greater transparency (e) into the business. Without
transparency inefficiencies remain hidden are therefore less easily addressed.
Transparency is also important to interconnection agreements because without
15
16. transparency it will be difficult to establish trust between the interconnecting parties. And
without trust, no commercial agreements can be very successful.
The emphasis of the GFIA is upon private commercial negotiation and agreement before
any regulatory intervention takes place. An interview for this case study with a former
senior JTM official confirmed that the Australian approach to regulation had been an
influence in designing the new policy. Where regulatory intervention on interconnection
issues does become necessary, the GFIA stipulates the following considerations will be
taken into account:
• The Government’s national policy objectives for telecommunications
• The rights and obligations of operators in terms of their Licences
• The promotion of economic and technical efficiency
• The interests of consumers and the community
• The need to provide competitive safeguards against abuse of market power
• The overall reasonableness and stated requirements of each party
Consultation with the parties concerned to facilitate private agreements and reference to
international best practice will form the basis of the regulator’s interventions and
determinations. This will include, for example, the level of unbundling of network
elements for interconnection purposes, according to “the general practice in industry” and
“appropriate within the Malaysian context.” (para. 52).
The GFIA acknowledges that as the industry develops the commercial and technical
issues of interconnection will inevitably change, so agreements “should therefore:
a) be based, initially, on the premise that newly licensed network operators are in a start-
up phase; and
b) be revisited annually, or, in accordance with the review provisions in each
interconnection agreement, to ensure that the interests of the customer, the licencees,
and the country at large continue to be optimized.”
3.2 Technical and Commercial Guidelines
The GFIA then goes on to specify the principal technical and commercial considerations
governing interconnection agreements.
a) Technical: these include, on the technical side:
• compliance, wherever feasible, with international standards and recommendations
• offering technical and operational interconnection facilities on the basis of suitably
unbundled system components, in accordance with general practice In the industry
• ensuring that all network operators’ switching and transmission facilities have the
capacity to interconnect with other networks
• preserving network integrity and security
• reasonable lead times in network provisioning for interconnection
16
17. • provisions and requirements for the national numbering plan
• allowances for differences in the interconnecting networks
• the application of good engineering principles and practices
• timely and efficient deployment of sufficient numbers and capacity links to support
the required grades of service for customers
b) Commercial: and on the commercial side:
• The fundamental principle is that all licensees should be fairly compensated for the
cost incurred in the provision of interconnection.
• The structure and level of charges should be related to the direct costs incurred by
each network operator. Charges should generally be in proportion to the extent and
nature of the interconnection service or facility being supplied, within the total
economics of the delivery of an end-to-end service.
• Where charges are determined in relation to direct cost components, these cost
elements must be capable of being objectively identified and allocated against
specific activities. The costs must be consistent with, and capable of reconciliation
against, an overall Chart of Accounts for the licensee based on standardized cost
allocation rules.
• Cost based charges should be based on the directly attributable costs of the
interconnection service or facility in question.
c) General Principles: the GFIA then sets out the general principles governing
interconnection:
• The purpose of this General Framework is to ensure that any customer of a
telecommunications network can communicate with any customer in another
telecommunications network efficiently and without unnecessary impediments.
• Interconnection arrangements should be based on the fundamental principle of
symmetrical arrangements and reciprocity as between operators.
• Interconnection and access between network operators shall be on an equitable and
non-discriminatory basis.
• A dominant network operator in any particular market segment shall not abuse its
market power to limit access to essential or bottleneck facilities for interconnection.
• Charges for interconnection facilities or services should be fair and equitable, having
regard to each network operator's relative contribution to the provision of customer
services.
• The technical quality of interconnect facilities and services provided by a network
operator shall be of no less quality and no less favourable type than that provided
within the operator's own network.
• The network operator which provides the customer’s access connection should bill
the customer except as provided for in paragraph 78 (which refers to a second carrier
chosen by the customer under the equal access rules - ed.)
17
18. • The charging structure should be clear and unbundled. In general, the charging
regime should be consistent with practice world-wide that distinguishes between:
• appropriate fixed charges for the provision and operation of the points of
interconnection;
• variable traffic based usage charges;
• charges for supplementary and support activities such as billing, directories,
enquiries, or emergency services;
• separate pricing and provisioning arrangements for leased transmission links on the
basis of cost of provision plus a reasonable return on investment; and
• interconnect and related charges should comprise of the cost of provision, plus a
reasonable rate of return on the assets deployed.
•Interconnection charges will be set so as to:
• promote efficient and sustainable competition for the benefit of customers; and
• encourage the use of an existing network when to do so is economically efficient,
rather than encourage the wasteful duplication of resources.
• There should be no cross-subsidization between carriers through a carrier charging
less than the costs incurred. To ensure that no cross-subsidization occurs, no one
carrier should be asked to carry an inequitable share of the universal service
obligations out of proportion to its market share.
• Interconnection and access shall be established on the basis of the timely provision of
relevant information between interconnecting network operators.
d) Scope of the Interconnection Agreement (ICA): finally, the GFIA outlines that ICAs
shall at least cover the following:
a) scope and definition of services;
b) interconnection and POI requirements and principles;
c) provision of information;
d) interconnection provisioning procedures;
e) network and transmission capacity requirements;
f) technical service level commitments;
9) technical specifications and standards;
h) transmission and performance standards;
i) fault reporting and resolution procedures;
j) network management, maintenance and measurement;
k) network safety, protection and related matters;
1) call handling and operations procedures;
m) access to interconnection facilities and sharing of infrastructure;
n) charging mechanisms, billing and settlement procedures;
o) transmission of calling line identification (CLI information;
p) operator assisted services, directory information and assistance;
q) commercial terms and conditions;
r) the universal service contribution of operators;
s) provision for contribution to the cost of local access;
t) network numbering;
18
19. u) confidentiality of information;
v) liability and indemnities;
w) force majeure;
x) intellectual property rights;
y) provision for an ICA liaison and co-ordination Management Committee;
and
z) review periods and terms for review.
19
20. Part 4: Mobile Interconnection
4.1 Cost-Based Interconnection Charges
The GFIA covers all Licenced Network Operators, fixed and wireless, as appropriate. It
was accompanied by a policy of Equal Access among fixed line operators allowing
customers of one fixed network to select another fixed operator to make long distance
and international calls. Selection was on a call-by-call basis from the beginning of 1999,
and additionally on a pre-selection basis from the beginning of 2000 with full
implementation from the beginning of 2001. The two policies together constitute a major
reform of the regulation of telecommunications in Malaysia and a decisive shift towards
competitive service markets.
In preparation for the implementation of the GFIA, the JTM commissioned a study by the
consultancy company Analysys to examine costs. The costs of the consultancy were
borne by all the operators in a move to ensure absolute independence. In a Statement on
the Implementation Plan of Equal Access and Cost-Based Interconnection Pricing In
Malaysia, (10 April 1998) the Minister, Datuk Leo Moggie, announced that fixed line
interconnection charges would be set “closer to fully allocated cost” for an the interim
period. On the other hand, interconnection charges for mobile networks (mobile-to-
mobile and mobile-to-fixed) “will be set closer to long run incremental cost.”
Analysys used TMB’s costs to estimate average fixed line costs, and Celcom’s costs to
estimate incremental costs for mobile operators. The final determination was made by the
JTM in document TRD 006/98 Determination of Cost-Based Interconnect Prices and the
Cost of Universal Service Obligation, 15 July 1998. The following principles were
established:
• All Licensed Network Operators (LNO’s) have the right to purchase interconnection
services from each other. Other organizations, such as Public Access Mobile Radio
(PAMR) operators, service providers, will be treated as follows:
• PAMR operators will be allowed to connect to LNO’s for breakout into a public
network. However they will not be able to interconnect under the same terms and
conditions as LNOs. Instead, interconnection will be treated as a matter of
commercial negotiation between an LNO and a PAMR operator. The Director
General has the power to intervene if the PAMR operator and the LNO’s are
unable to arrive at a commercial agreement. Under these conditions, the Director
General will determine a reasonable price.
• Service providers do not have the right to purchase interconnect services at cost-
based prices. If in the future service providers are allowed in the market, the terms
will be a matter of commercial negotiation, and, as with the PAMR operators,
there will be the possibility of recourse to a regulatory ruling.
The reference in the last bullet point to service providers is a reference to the new
licensing categories and procedures introduced by the Communications and Multimedia
20
21. Act, 1998. Under the Act an industrial Access Forum is to be established which, in the
case of unanimous decisions, can make recommendations as to which network elements
should be included in network unbundling. The JTM’s TRD 006/98 document establishes
the criteria for those network elements which will be subject to cost-based
interconnection as “well-established” and “essential or bottleneck” facilities, and if “the
facilities required for interconnection are not a bottleneck, then the interconnection is not
subject to cost-based pricing for any service.” Furthermore, if the facilities are bottleneck
but not well established they are not subject to cost-based pricing.
A bottleneck is defined “as the control by a single or limited number of operators over an
essential facility required for interconnection” and a service is well-established if “it has a
well-established demand characteristic, and the investment required to provide it is
therefore legitimately regarded as not being an unusually high-risk investment.” Among
mobile operators the Mobile Switching Centre (MSC) is considered as bottleneck
facilities. In fixed line networks the local and tandem exchanges and the local loop
portions of private circuits are considered bottlenecks and private circuits as well
established.
The Determination also defined the origination and termination of services for fixed-to-
fixed and fixed-to-mobile. The latter were defined as follows:
• Single tandem termination: This applies when the B (called) party is within the same
Closed Number Area (PSTN) or Automatic Telephone Using Radio (Mobile)
Exchange area as the POI at which the call is presented for termination, unless the
local call termination charge applies. This payment category will be used for
terminating all calls (fixed to fixed, mobile to fixed, incoming international) - in the
case of cellular this includes MSC to Base Station Controller (BSC) and/or Base
Transceiver System (BTS)
• Double tandem termination: This applies when the B (called) party is in a different
Closed Number Area (PSTN) or Automatic Telephone Using Radio (Mobile)
Exchange area as the POI at which the call is presented for termination, unless the
local call termination charge applies. This payment category will be used for
terminating all calls (fixed to fixed, mobile to fixed, incoming international) - two
MSCs in the case of a cellular system.
The exceptions to these rules are CNA 09 which covers three states (Pahang, Terengganu
and Kelantan) is considered double tandem, the use of submarine cable links between
Peninsular Malaysia and Eastern Malaysia (Sabah and Sarawak) to which an extra charge
will be added to the double tandem charge, and special CNAs specified in the National
Numbering Plan, such as 03, 04, 081, 082, etc. Refer to Map in Appendix A.
All interconnection agreements negotiated prior to Determination TRD 006/98 were
reviewed by the end of 1998 towards compliance with the Determination for cost-based
charges to be introduced from January 1999.
21
22. 4.2 Benchmark Interconnection Charges
JTM established benchmark interconnection charges between fixed and mobile, mobile
and fixed, and mobile and mobile, which distinguish between just two types of call
termination: when call termination from the POI is in the called-party’s home area, and
when it is outside the called party’s home area.
Calling party pays (CPP) applies in all cases, and the direction of the interconnection
payment is therefore from the network of call origination to the network of call
termination. The home areas are termed the Automatic Telephone Using Radio (ATUR)
exchange areas. Table 2 provides the details (with a US$ conversion ratio of RM3.8)
Table 2
Interconnection charges per minute for fixed – mobile,
mobile – fixed, and mobile – mobile
Peak Off-Peak
Call attempt from a POI within the same Automatic
Telephone Using Radio (ATUR) exchange area
13¢ ≈
(3.42¢ US)
6¢ ≈
(1.58¢ US)
Call attempt from a POI outside the same Automatic
Telephone Using Radio (ATUR) exchange area
18¢ ≈
(4.74¢ US)
8¢ ≈
(2.11¢ US)
The interconnection charges of 3.42¢ US for local calls and 4.74¢ US for long distance
calls compares with a country average for calling party pays (CPP) administrations of
13.8¢ US (see ITU Fixed-Mobile Interconnection Workshop Briefing Paper, 22-22
September, 2000, Geneva, www.itu.int/interconnect). The 1999 average for OECD
countries for mobile-to-fixed is 2.32¢ US and for fixed-to-mobile 25.97¢ US, with these
prices averaged over distances of 5km, 20km, 50km and 200km. The price of
interconnection for fixed to mobile varied within the OECD from 15¢ US to 36¢ US. See
OECD (2000) Cellular Mobile Pricing Structures and Trends
(http://www.oecd.org/dsti/sti/it/index.htm)
For comparison purposes, table 3 provides mobile retail prices, which apply equally to
fixed-to-mobile, mobile-to-fixed and mobile-to-mobile. (This contrasts with data from
the OECD where "it is, on average, more expensive to call from a fixed network to a
mobile network than in the opposite direction." (pp.45-46). The average difference being
a ratio of 1.28:1.) However mobile prices in Malaysia were deregulated from 1 August
2000 and since then new competitive tariffs have been introduced. Details are available
from the websites of the operators.
Table 3
Mobile – mobile retail
tariffs @ 10¢ per unit
Peak (7am – 7pm) Off-Peak (7pm – 7am)
Seconds per
unit
Price per
minute
Seconds per
unit
Price per
minute
Same area 20 30¢ 40 15¢
Adjacent area 7.5 80¢ 15 40¢
Non-adjacent area 4 RM 1.50 8 75¢
Note: Pre-paid calls account for more than 50 per cent of the total, and are charged a premium of 50 per
cent or more.
22
23. At peak hours mobile operators have been making a margin of 17¢ per minute for local
calls and up to RM1.32 for long-distance calls. Off-peak margins range from 11¢ per
minute to 67¢ per minute. As charges fall through the deregulation of retail prices, these
margins will fall also, and revenue for voice services will come to depend upon price and
income elasticities of market demand.
Again, for the sake of comparison, the following two tables give details of the benchmark
interconnection rates for fixed line and retail prices.
Table 4
Interconnection charges per minute for fixed – fixed Peak Off-Peak
Local termination 2¢ 2¢
Long-distance using transmitting through a single tandem 1
8.5¢ 3¢
Long-distance using transmitting through a double tandem 18¢ 8¢
Long-distance using transmitting through a double tandem
and submarine cable
26¢ 11¢
Note 1: exceptions are the large- area states of Pahang, Terrangganu and Kelantan where double-tandem
rates will apply.
Table 5
Bands of fixed retail tariffs Peak – 13¢
unit
Price per
minute
Off Peak –
13¢ unit
Price per
minute
Local: same/adjacent charge areas 60 seconds 13¢ 90 seconds 8.7¢
Band A: 50k ≤ 150k
20 seconds 39¢ 40 seconds 19.5¢
Band B: 150k ≤ 550k
7.5 seconds RM1.04 15 seconds 52¢
Band C: > 550k 4 seconds RM1.95 8 seconds 97.5¢
Band D: Sabah/Sarawak 3 seconds RM2.60 6 seconds RM1.30
The contrast with mobile is that while interconnection charges are lower for local calls
and similar for long-distance (18¢ for double tandem) retail charges are significantly
lower until Band C. For mobile operators transmitting calls between Eastern Malaysia
and Peninsular Malaysia there are significant charges from TMB for the use of submarine
cable capacity, so most operators prefer to lease satellite transponder capacity. By
contrast, leasing capacity on fibre within Peninsular Malaysia is now much more
competitive.
4.3 Comparative Study: The Cases of China and Hong Kong, SAR
In China, the incumbent operator, China Telecom, was directly under the old Ministry of
Posts and Telecommunications (MPT) while the new entrant, China Unicom was the
primary responsibility of the old Ministry of Electronic Industries (MEI). Since the
merger of the two ministries in 1998 into the Ministry of Information Industries (MII),
the operations of China Telecom have been separated from direct Ministry control and
23
24. China Unicom has been given greater scope to build mobile and fixed networks.
Interconnection, however, has always been a problem for China Unicom, as the ITU
study Fixed-Mobile Interconnection: The Case of China and Hong Kong, SAR
(www.itu.int/interconnect) explains.
Since the formation of the MII, interconnection has been mandated. China Unicom must
pay China Telecom 0.08 Yuan (US$0.0096) for every three-minute call originating from
its mobile subscribers to China Telecom's local fixed telephone customers. China
Telecom pays China Unicom 0.01 Yuan (US$0.0012) for every three-minute call
originating on its fixed network to China Unicom's mobile subscribers. Mobile-to-mobile
calls between the two networks are on a sender-keeps-all basis. For long-distance calls,
92 per cent of the revenue should go to the network providing the long-distance
transmission.
These charges are far lower than those in Malaysia, but they are derived from China
Telecom's retail charges which have remained unchanged for years and are very low to
start with. Over the past year or two, China has begun to reduce significantly its
international call charges, and local tariff rebalancing will effect these interconnection
charges. So will the shift to calling party pays. Currently in China, as in Hong Kong, both
calling and receiving party pays.
In Hong Kong interconnection charges are cost-based. Mobile operators pay fixed line
operators HK$79 per month line charges (US$10) and, since October 2000, HK 5.1¢ per
minute usage charges, know locally as PNETS charges or public non-exclusive
telecommunications service charges. There are no fixed line local call charges in Hong
Kong, so the PSTN is compensated according to relative usage through the PNETS
charge. Internet Service Providers (ISPs) are charged HK 2.3¢ per minute usage. The
difference is due to the longer average duration of Internet calls, which therefore spreads
the initial call setup costs. Mobile-to-mobile interconnected in Hong Kong on a sender-
keeps-all basis, but the introduction of mobile number portability (MNP) now also
requires operators who do not maintain their own ported numbers databases to pay a
"dipping fee" to the incumbent operator, Hongkong Telecom, for use of the database.
(For Hong Kong data see www.ofta.gov.hk. See also the ITU's Centre of Excellence
(CoE) module on Interconnection, a case study on Hong Kong.)
4.4 Universal Service Obligation
Each fixed and mobile carrier contributes to the USO according to their proportion of the
industry’s total revenue as determined by the formula:
A x local revenues
B x Long distance and international revenues
C x mobile revenues
D x other revenues
Where: A = 0, B = 1, C = 0.5, and D = 1.
24
25. So the contribution of mobile revenues is weighted by 50 per cent of the carrier’s total
relevant revenues and these are then estimated as a proportion of the industry’s total
relevant revenue. Local revenues are obviously excluded to ensure TMB is fully
compensated for the burden of aiming to provide universal local service. The Ministry
estimated the Universal service obligation at RM 300 million for 1999, but the figures are
to be reviewed for subsequent years.
25
26. Part 5: Discussion
5.1 Context
The decision to embark on the General Framework for Interconnection and Access
(GFIA) came as part of a wider objective to shift the emphasis from regulation dominated
by state intervention to one of industry self-regulation. This could only take place if (a)
market liberalization had already created new entry opportunities, and (b) if the new
entrants were effectively competitive. To be effectively competitive there must be (c) no
industry collusion, and (d) competitors must be economically viable. Malaysia began the
process of liberalization from the late 1980s, licensing new operators for both mobile and
fixed line services, including long distance and international gateways. TMB operated
one of the mobile networks and is a stakeholder in another (Mobikom) but neither has
dominated the market, which is led by Celcom and Maxis.
Rather than collusion there has been competition between these companies. This matches
the finding of the report from the OECD (2000) Cellular Mobile Pricing Structures and
Trends (http://www.oecd.org/dsti/sti/it/index.htm) that the level of competition becomes
significantly greater in economies where there are four or more cellular operators.
Like all incumbents TMB was at first resistant to interconnection. In the first agreement
in 1990, Celcom had to pay TMB the full PSTN rate, while in the second agreement in
1995 the commercial arrangement was confined to revenue sharing. The shift to cost-
based interconnection charges was brought about when the JTM (the forerunner of the
CMC) called the industry players together to jointly fund inquiries into the costs of equal
access (PSTN) and interconnection (fixed and mobile). At the same time the cost of
TMB's universal service obligation was estimated and the formula introduced to pay for
it. The cost of introducing Equal Access was estimated at RM 26 million by a technical
committee chaired by Time Telecom, and this represented the first attempt to move to
cost-based charges in Malaysia. Celcom provided the chair for the interconnection
inquiry, which lasted several months and involved 4 workshops. The costing model was
presented in spreadsheet form, but it is understood the level of detail was not great which
reflects the fact that collecting accurate data on costs is a difficult and lengthy process.
5.2 Building a Consensus out of Conflict
By bringing the industry players together in this way, the JTM set about building the
basis of consensus within the telecoms sector. This was important because competition
tends to produce an antagonistic environment as commercially so much is at stake. In
Malaysia there are no industry associations and no telecommunications user groups who
can act as informed or disinterested parties and provide neutral forums for debate and
discussion of issues. For this reason, the Communications and Multimedia Act, 1998
proposed the establishment of an industry forum to strengthen industry consultation and
the involvement of the private sector.
One important issue is the right of the interconnecting service provider to have access to
a POI which is commercially optimal, that is near-end when required, or far-end when the
mobile operator also has its own trunk backbone network. This was determined in the
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27. case of Malaysia by TRD 006/98. This also permits equitable equal access arrangements
by allowing trunk-side interconnection, so customers of the incumbent can access the
long-distance carrier of their choice. See, World Bank (2000) Telecommunications
Regulation Handbook: Module 3 – Interconnection.
The means by which the network elements open to interconnection, that are considered
bottleneck facilities and well-established, are determined is an important part of
regulation. The authority of the regulator needs to be clearly established in law, and the
good intentions of the law understood and respected within the industry. The Malaysia
Communications and Multimedia Commission Act of 1998 and the Communications and
Multimedia Act, 1998 are important steps in this direction. Chapter 3 of the Act specifies
Access to Services, which are to be made available to interconnecting licensed network
operators. They are to be specified in an Access List and will be mandatory. Network
facilities and the Access Forum may add services to the Access List.
The Commission shall determine that the recommended network facilities or class
of network facilities or network service or class of network services be included
in the access list, if it is satisfied that the access forum has consulted with persons
who have an interest in the recommendation, and that the access forum was
unanimous in supporting the recommendation. (Communications and Multimedia
Act, 1998, Section 147.2)
In reality, bringing about good working relations between competitors is not a simple
task, and the industry forum has spent its early months bogged down in procedural
wrangles over voting rights (should they be proportional or equal?) and working
procedures (how are items added to or taken off the agenda of meeting?)
5.3 Interconnection Agreements
The benchmark interconnection prices determined under 006/98 were designed to be
ceiling prices, although all the operators have accepted them. Any privately negotiated
agreements can undercut them, and will remain commercially confidential, but must be
registered with the CMC, which can compare agreements to ensure no anti-competitive
practices are in place.
These prices are provisional. Later, when costs are better established, prices may be
adjusted closer to long run incremental cost, and separate charges for call setup and call
duration my be introduced. De-averaging of prices is so far confined to Eastern and
Peninsular Malaysia.
How will the CMC tackle the issue of costs in the future? The consultant, Analysys,
carried out a benchmarking exercise across companies as one method of determining
what is a reasonable cost. Only TMB has the detailed data for a bottom-up estimate of the
cost of providing universal service fixed line, and in the recent past Celcom's costs have
been used to benchmark cellular charges. Given the big differences between fixed line
and mobile network costs, and the substantial historical cost involved in TMB's network,
different costing principles have been applied to fixed and mobile services, the former
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28. adopting fully allocating cost and the latter "closer" to long run average incremental cost.
Will commercial agreement be sufficient to bring down interconnection charges in the
future, or will the CMC need to devote resources and expertise to this area? This is one of
the challenging issues yet to be faced.
5.4 Broadband
Inevitably there are issues not included in the interconnection agreement that some
operators would like to see included. For example, there is no direct link to TMB's
director inquiries (DQ) service. Nor are there direct routes for others services, for
example a customer cannot report a fixed line fault to TMB using a mobile phone.
Intelligent Network (IN) services are not interconnected, and among operators there is no
interconnection for Short Messaging Services (SMS).
These services which are not interconnected may be thought of as mostly value-added
rather than basic, but as narrowband telecommunications gives way to broadband these,
or comparable services, may come to dominate network traffic. The issue of broadband
interconnection has been the subject of an ITU study on behalf of the CMC, and is now
under review. The issues will include possible interconnection of cable TV, which
currently only serves the Klang Valley area, satellite delivery of fast Internet and inter-
active TV, and digital subscriber line access. Third generation mobile telephony will also
be a candidate for debate, and a public consultation on policy towards the issuing of 3G
licences, Concepts and Proposed Principles on the Implementation of IMT-2000 Mobile
Cellular Service in Malaysia, dated 10 November 2000, was posted on the
Communications and Multimedia Commission website (see www.cmc.gov.my).
Cellular systems also cover between 60 and 70 per cent of Malaysia, including coverage
in East Malaysia where only one company, Maxis, had not started building a network by
late 2000.
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29. 6.1 References:
Concepts and Proposed Principles on the Implementation of IMT-2000 Mobile Cellular
Service in Malaysia, dated 10 November 2000, MCMC (see www.cmc.gov.my).
Communications and Multimedia Act, 1998
General Agreement for Interconnection and Access (GFIA) – Director General of
Telecommunications, Malaysia, 17 May 1996
OECD (2000) Cellular Mobile Pricing Structures and Trends,
http://www.oecd.org/dsti/sti/it/index.htm
ITU Fixed-Mobile Interconnection Workshop Briefing Paper, 22-22 September, 2000,
Geneva, www.itu.int/interconnect)
ITU: Fixed-Mobile Interconnection: The Case of India, ITU, 2000
(www.itu.int/interconnect)
ITU: Fixed-Mobile Interconnection: The Case of China and Hong Kong SAR, ITU, 2000
(www.itu.int/interconnect)
The Malaysia Communications and Multimedia Commission Act of 1998
Minister of Posts, Energy and Telecommunications (MEPT) Minister's Statement on the
Implementation Plan of Equal Access and Cost-Based Interconnection Pricing in
Malaysia, (10 April 1998)
World Bank, 2000, Telecommunications Regulation Handbook: Module 3 –
Interconnection (forthcoming)
6.2 Useful sites:
Malaysia
Ministry of Energy, Communications and Multimedia Malaysia - www.ktkm.gov.my
Malaysia Communications and Multimedia Commission - www.cmc.gov.my
Celcom - www.celcom.com.my
Digi Telecom - www.digi.com.my
Maxis - www.maxis.com.my
Telekom Malaysia - www.telekom.com.my
Time Telecom - www.time.com.my
China
Ministry of Information Industries: www.mii.goc.cn
Hong Kong, SAR
Office of the Telecommunications Authority (OFTA) Hong Kong, SAR:
www.ofta.gov.hk
India
Telecommunications Regulatory Authority of India: www.trai.gov.in
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