03-05-2012, 01:11 PM
5G Wireless Technology
533.doc (Size: 1.68 MB / Downloads: 85)
Introduction
We are living in a world of science .Science makes our life more beautiful than the most. Modern world is shrinking due to the development of science and its technology. Technology has detached the word “impossible” form real world. Over the years, wireless telecommunications market has long been recognized as one of the most dynamic and fastest growing segments of the global telecommunications industry. This Sub-SectionThe global telecom market is expected to grow at CAGR close to 4.2% to reach EUR 3.1 trillion by the end of 2011
4G Architecture:
In parallel with the LTE radio access, packet Core networks are also evolving to the flat SAE architecture. This new architecture is designed to optimize network performance, improve cost efficiency and facilitate the uptake of mass market IP-based services. The Evolved Packet Switched System (EPS) provides IP connectivity between a UE and an external packet data network using the Evolved Universal Terrestrial Radio Access Network (E-UTRAN).Consists of an Evolved Packet Core (EPC) and Evolved UTRAN (E-UTRAN).
Flat IP network:
Certainly Flat IP network is the key concept to make 5G acceptable for all kind of technologies. To meet customer demand for real-time data applications delivered over mobile broadband networks, wireless operators are turning to flat IP network architectures. Flat IP architecture provides a way to identify devices using symbolic names, unlike the hierarchical architecture such as that used in "normal" IP addresses. This is of more interest to mobile broadband network operators. With the shift to flat IP architectures, mobile operators can:
Reduce the number of network elements in the data path to lower operations costs and capital expenditure
Partially decouple the cost of delivering service from the volume of data transmitted to align infrastructure capabilities with emerging application requirements
Minimize system latency and enable applications with a lower tolerance for delay; upcoming latency enhancements on the radio link can also be fully realized
Nanotechnology:
Nanotechnology is the application of nanoscience to control process on nanometer scale. i.e between 0.1 and 100nm.The field is also known as molecular nanotechnology(MNT).MNTdeals with control of the structure of matter based on atom-by-atom and molecule by molecule engineering. The term nanotechnology was introduced by Nori Taniguchi in 1974 at the Tokyo international conference on production engineering.
Nanotechnology is the next industrial revolution, and the telecommunications industry will be radically transformed by it in a few years. Nanotechnology has shown its impact on both mobile as well as the core network. Apart from this it has its own impact on sensor as well as security. This is considered as a most significant in telecommunication. We will be discussing the same in our further slides.
NanoEquipment (NE):
Mobile phone has become more than a communication device in modern world it has turned into an identity of an individual. In 5G Nanocore these mobile are referred as NanoEquipment as they are geared up with nanotechnology. One of the central visions of the wireless industry aims at ambient intelligence: computation and communication always available and ready to serve the user in an intelligent way. This requires that the devices are mobile. Mobile devices together with the intelligence that will be embedded in human environments – home, office, public places – will create a new platform that enables ubiquitous sensing, computing, and communication.
533.doc (Size: 1.68 MB / Downloads: 85)
Introduction
We are living in a world of science .Science makes our life more beautiful than the most. Modern world is shrinking due to the development of science and its technology. Technology has detached the word “impossible” form real world. Over the years, wireless telecommunications market has long been recognized as one of the most dynamic and fastest growing segments of the global telecommunications industry. This Sub-SectionThe global telecom market is expected to grow at CAGR close to 4.2% to reach EUR 3.1 trillion by the end of 2011
4G Architecture:
In parallel with the LTE radio access, packet Core networks are also evolving to the flat SAE architecture. This new architecture is designed to optimize network performance, improve cost efficiency and facilitate the uptake of mass market IP-based services. The Evolved Packet Switched System (EPS) provides IP connectivity between a UE and an external packet data network using the Evolved Universal Terrestrial Radio Access Network (E-UTRAN).Consists of an Evolved Packet Core (EPC) and Evolved UTRAN (E-UTRAN).
Flat IP network:
Certainly Flat IP network is the key concept to make 5G acceptable for all kind of technologies. To meet customer demand for real-time data applications delivered over mobile broadband networks, wireless operators are turning to flat IP network architectures. Flat IP architecture provides a way to identify devices using symbolic names, unlike the hierarchical architecture such as that used in "normal" IP addresses. This is of more interest to mobile broadband network operators. With the shift to flat IP architectures, mobile operators can:
Reduce the number of network elements in the data path to lower operations costs and capital expenditure
Partially decouple the cost of delivering service from the volume of data transmitted to align infrastructure capabilities with emerging application requirements
Minimize system latency and enable applications with a lower tolerance for delay; upcoming latency enhancements on the radio link can also be fully realized
Nanotechnology:
Nanotechnology is the application of nanoscience to control process on nanometer scale. i.e between 0.1 and 100nm.The field is also known as molecular nanotechnology(MNT).MNTdeals with control of the structure of matter based on atom-by-atom and molecule by molecule engineering. The term nanotechnology was introduced by Nori Taniguchi in 1974 at the Tokyo international conference on production engineering.
Nanotechnology is the next industrial revolution, and the telecommunications industry will be radically transformed by it in a few years. Nanotechnology has shown its impact on both mobile as well as the core network. Apart from this it has its own impact on sensor as well as security. This is considered as a most significant in telecommunication. We will be discussing the same in our further slides.
NanoEquipment (NE):
Mobile phone has become more than a communication device in modern world it has turned into an identity of an individual. In 5G Nanocore these mobile are referred as NanoEquipment as they are geared up with nanotechnology. One of the central visions of the wireless industry aims at ambient intelligence: computation and communication always available and ready to serve the user in an intelligent way. This requires that the devices are mobile. Mobile devices together with the intelligence that will be embedded in human environments – home, office, public places – will create a new platform that enables ubiquitous sensing, computing, and communication.