So you might have seen 3G being advertised everywhere these days, billboards, television advertisements, you name it. But what is 3G? How is it different from what we used previously? What were the previous standards?
Cell phone networks
First of all, these standards are set by the International Telecommunication Union or ITU for short. It is a specialized agency of the United Nations, founded in 1865, which is responsible for information and communication technologies. The ITU co-ordinates the shared global use of the radio spectrum, works to improve telecommunication infrastructure and establishes related worldwide telecommunication standards.
It all started with 1G, the first generation of wireless telephone technology and mobile telecommunications. Introduced sometime in the 1980′s, 1G networks used analog signals, as opposed to digital signals used by all the successive generations of mobile technologies. In 1G network, voice calls were simply modulated to a higher frequency, typically to 150MHz and up. The first commercially available cellular network using 1G standard was introduced by NTT (Nippon Telegraph and Telephone) in 1979 in Japan. NTT is also a shareholder and technology provider for TATA DoCoMo in India.
The second generation, 2G, was commercially launched for the GSM standard in 1991 by Radiolinja, currently known as Elisa Oyj, in Finland. 2G allowed for enhanced data services and also introduced short messaging service (SMS). Since the introduction of 2G, voice communications were digitally encrypted. This allowed for greater privacy, efficient data transfer and also less expensive equipment. Two revisions or additions to this generation are sometimes referred to 2.5G and 2.75G. The combined introduction of GPRS (General Packet Radio Services) and the usage of CDMAone networks collectively came to be known as 2.5G. GPRS provided data transfer rates from 56-115kbit/s. So, services like WAP (Wireless Application Protocol) and MMS (Multimedia Messaging) were introduced, along with Internet services. 2.75G was the name given to the evolution of EDGE (Enhanced Data rates for GSM Evolution) or Enhanced GPRS (EGPRS). This was due to the introduction of 8PSK encoding, which facilitated higher data transfer rates of up to 236.8kbits/s, almost triple of the previous rates. This is the most widely used generation of mobile telecommunication networks, and is what most mobile phones in India are now using.
Evolution of networks into 3G
The third generation, 3G, was introduced by NTT DoCoMo in Japan, in 2001. Although initially limited in scope, it was a leap forward. 3G used completely different radio frequencies from 2G, so it required different equipment to achieve the new high data transfer rates. Also, the enormous costs of additional spectrum licensing fees delayed the introduction of 3G in many countries. 3G data transfer rates are 384kbits/s to 2Mbits/s, so it allows for previously unavailable services like video calls, video conferencing, mobile TV, online gaming etc. These speeds are broadband equivalent, so the applications and capabilities are enhanced greatly. Along with these services, 3G provides greater security and privacy. As with 2G, minor evolution of the standards resulted in 3.5G and 3.75G. Again, these standards allowed for higher data transfer rates, exceeding 2Mbits/s, reaching about 14Mbits/s.
The next generation, 4G is all set to provide data transfer rates of 100Mbit/s to 1Gbit/s, which is mind boggling, to say the least. Such speeds are not even present in wired networks commercially.
3G has just been launched in India and is available on select mobile operators for select cities. But to access these services, a 3G compatible mobile phone is required.
Cell phone networks
First of all, these standards are set by the International Telecommunication Union or ITU for short. It is a specialized agency of the United Nations, founded in 1865, which is responsible for information and communication technologies. The ITU co-ordinates the shared global use of the radio spectrum, works to improve telecommunication infrastructure and establishes related worldwide telecommunication standards.
It all started with 1G, the first generation of wireless telephone technology and mobile telecommunications. Introduced sometime in the 1980′s, 1G networks used analog signals, as opposed to digital signals used by all the successive generations of mobile technologies. In 1G network, voice calls were simply modulated to a higher frequency, typically to 150MHz and up. The first commercially available cellular network using 1G standard was introduced by NTT (Nippon Telegraph and Telephone) in 1979 in Japan. NTT is also a shareholder and technology provider for TATA DoCoMo in India.
The second generation, 2G, was commercially launched for the GSM standard in 1991 by Radiolinja, currently known as Elisa Oyj, in Finland. 2G allowed for enhanced data services and also introduced short messaging service (SMS). Since the introduction of 2G, voice communications were digitally encrypted. This allowed for greater privacy, efficient data transfer and also less expensive equipment. Two revisions or additions to this generation are sometimes referred to 2.5G and 2.75G. The combined introduction of GPRS (General Packet Radio Services) and the usage of CDMAone networks collectively came to be known as 2.5G. GPRS provided data transfer rates from 56-115kbit/s. So, services like WAP (Wireless Application Protocol) and MMS (Multimedia Messaging) were introduced, along with Internet services. 2.75G was the name given to the evolution of EDGE (Enhanced Data rates for GSM Evolution) or Enhanced GPRS (EGPRS). This was due to the introduction of 8PSK encoding, which facilitated higher data transfer rates of up to 236.8kbits/s, almost triple of the previous rates. This is the most widely used generation of mobile telecommunication networks, and is what most mobile phones in India are now using.
Evolution of networks into 3G
The third generation, 3G, was introduced by NTT DoCoMo in Japan, in 2001. Although initially limited in scope, it was a leap forward. 3G used completely different radio frequencies from 2G, so it required different equipment to achieve the new high data transfer rates. Also, the enormous costs of additional spectrum licensing fees delayed the introduction of 3G in many countries. 3G data transfer rates are 384kbits/s to 2Mbits/s, so it allows for previously unavailable services like video calls, video conferencing, mobile TV, online gaming etc. These speeds are broadband equivalent, so the applications and capabilities are enhanced greatly. Along with these services, 3G provides greater security and privacy. As with 2G, minor evolution of the standards resulted in 3.5G and 3.75G. Again, these standards allowed for higher data transfer rates, exceeding 2Mbits/s, reaching about 14Mbits/s.
The next generation, 4G is all set to provide data transfer rates of 100Mbit/s to 1Gbit/s, which is mind boggling, to say the least. Such speeds are not even present in wired networks commercially.
3G has just been launched in India and is available on select mobile operators for select cities. But to access these services, a 3G compatible mobile phone is required.
Look at the way my friend Wesley Virgin's tale starts in this SHOCKING AND CONTROVERSIAL video.
ReplyDeleteAs a matter of fact, Wesley was in the military-and shortly after leaving-he discovered hidden, "self mind control" tactics that the government and others used to get anything they want.
THESE are the exact same tactics many celebrities (especially those who "became famous out of nowhere") and elite business people used to become rich and successful.
You probably know that you only use 10% of your brain.
Really, that's because the majority of your BRAINPOWER is UNCONSCIOUS.
Maybe this expression has even taken place IN YOUR very own head... as it did in my good friend Wesley Virgin's head around seven years ago, while riding an unregistered, trash bucket of a car with a suspended license and with $3 in his bank account.
"I'm so fed up with living paycheck to paycheck! Why can't I become successful?"
You've taken part in those questions, right?
Your success story is waiting to start. Go and take a leap of faith in YOURSELF.
CLICK HERE TO LEARN WESLEY'S SECRETS