Future Trend of Telecommunication Industry in IndiaFuture Trend of Telecommunication Industry in IndiaMotivationThe telecommunications industry is one of the fastest growing industries in India. It more than characterized the boom in the Indian economy. The teledensity in India grew at a rate from just about three for every 100 people in 2000 to reach 10.66 per 100 as of October 2005. This phenomenal growth in the telecommunication scenario can be attributed to the exponential growth of the wireless phones in the country. The Government has targeted to have subscriber base of 250 million phones by 2007, which would translate to a teledensity of 23 per 100 people. The major beneficiary of these policy initiatives has been the wireless market, which has spearheaded the telecom revolution in India and has continued to attract large investments.
Mumbai-based telecom giant Teleserv has said that the next major innovation to be taken from mobile is “mobile signal amplification,” (MDMA). MDMA refers to a technology that provides a continuous signal to all parts of the telecom network to send and receive information, including the location, time and frequency, along with location data. MDMA has been identified as the key element of smartphones in India due to being designed to be fast. Such devices in some countries can be used to receive and transmit text messages, so why should it need a mobile signal amplifier? MDMA could give access to the Internet far faster. In fact, some states of India are now doing the same with their mobile signal amplifiers. One other new MDMA technology is “Smart Phone Signal Amplifiers,” or QASPs. The technology is a step forward in the growth of the smartphone industry in India. QASPs in QIMP range as low as 10 and have a high cost of $50 or more. Their purpose is to take advantage of the available high quality audio. QASPs can be utilized more in areas as diverse as music and movies. Here are some of the things that QASPs can do. In particular, QASPs are available in both traditional handset- and non-mobile handset phones. QASPs can be used in two ways. First, using the QASP frequency of 100-400MHz will work on mobile phones, which require very deep connections to each other, allowing the device to be turned off and on without interruption. Second, using the QASP frequency of 1200 MHz or higher works on phones, which require very strong connections on other types of devices. The QASP frequency of 615 MHz or higher works on phones, which need strong connection on other types of devices. Finally, using the QASP frequency of 2000-2000MHz or higher works on phones, which have much richer connections than the device in the original design. QASPs could be applied in the area of Internet connectivity to other devices. Thus, QASPs can be used more in areas like mobile phone communication, music production, and sports. They are also possible for a select number of cities. The first two of these innovations have been developed within the same time frame, although their combined potential has raised several questions. What percentage of data is available to the user and where can be used? How much data can be saved with QASPs? These questions are not only relevant for smartphone use. Data transfer is part of the smartphone paradigm. However, since it involves much more storage in the data center than it does in the mobile or tablet experience, it is not possible to optimize it (a significant part of demand in India). A new type of MDMA technology developed by telecom carrier SBIJ as part of the new Advanced Mobile Internet Interface could provide a much faster way to communicate the data to users. Such a technology could replace the cost of telephone lines. The current MDMA technology has been developed by two companies known as ABB Telecom and SBIJ Telecom. This two companies currently work on the MDMA technology. ABB Telecom has a 20% stake in the MDMA technology. SBIJ Telecom has 15% in the MDMA technology. The MDMA technology is expected to be ready by the end of 2013. A large number of projects are already under way to develop MDMA technologies, which would allow for the building
Mumbai-based telecom giant Teleserv has said that the next major innovation to be taken from mobile is “mobile signal amplification,” (MDMA). MDMA refers to a technology that provides a continuous signal to all parts of the telecom network to send and receive information, including the location, time and frequency, along with location data. MDMA has been identified as the key element of smartphones in India due to being designed to be fast. Such devices in some countries can be used to receive and transmit text messages, so why should it need a mobile signal amplifier? MDMA could give access to the Internet far faster. In fact, some states of India are now doing the same with their mobile signal amplifiers. One other new MDMA technology is “Smart Phone Signal Amplifiers,” or QASPs. The technology is a step forward in the growth of the smartphone industry in India. QASPs in QIMP range as low as 10 and have a high cost of $50 or more. Their purpose is to take advantage of the available high quality audio. QASPs can be utilized more in areas as diverse as music and movies. Here are some of the things that QASPs can do. In particular, QASPs are available in both traditional handset- and non-mobile handset phones. QASPs can be used in two ways. First, using the QASP frequency of 100-400MHz will work on mobile phones, which require very deep connections to each other, allowing the device to be turned off and on without interruption. Second, using the QASP frequency of 1200 MHz or higher works on phones, which require very strong connections on other types of devices. The QASP frequency of 615 MHz or higher works on phones, which need strong connection on other types of devices. Finally, using the QASP frequency of 2000-2000MHz or higher works on phones, which have much richer connections than the device in the original design. QASPs could be applied in the area of Internet connectivity to other devices. Thus, QASPs can be used more in areas like mobile phone communication, music production, and sports. They are also possible for a select number of cities. The first two of these innovations have been developed within the same time frame, although their combined potential has raised several questions. What percentage of data is available to the user and where can be used? How much data can be saved with QASPs? These questions are not only relevant for smartphone use. Data transfer is part of the smartphone paradigm. However, since it involves much more storage in the data center than it does in the mobile or tablet experience, it is not possible to optimize it (a significant part of demand in India). A new type of MDMA technology developed by telecom carrier SBIJ as part of the new Advanced Mobile Internet Interface could provide a much faster way to communicate the data to users. Such a technology could replace the cost of telephone lines. The current MDMA technology has been developed by two companies known as ABB Telecom and SBIJ Telecom. This two companies currently work on the MDMA technology. ABB Telecom has a 20% stake in the MDMA technology. SBIJ Telecom has 15% in the MDMA technology. The MDMA technology is expected to be ready by the end of 2013. A large number of projects are already under way to develop MDMA technologies, which would allow for the building
There is a lot made out for the 3G services. Should 3G services be introduced in India? Would that serve the purpose? The initial buzz is that 3 G services would give the always-on connectivity to the mobile owners. But ongoing war between 3G, 4G and WiMax will not make it easy for India to decide its future course.
Objective of the PaperThis paper will comprehensively cover the past, present and future of telecommunication industry in India. I will then follow up with in-depth operator analysis and their future anticipation and will attempt to gauge industry players’ interest in 3G, 4G and WiMAX and understand their views, plans and concerns. We will compare these results and analyze the changes in market perception of