5G Moblie Computing
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The document provides an overview of 5G technology, including its expected capabilities, advantages, and evolving architecture compared to previous generations (1G to 4G). 5G is anticipated to enable significantly faster data speeds and enhanced connectivity, set for commercial rollout between 2020 and 2025. Key technologies underpinning 5G include nanotechnology, cloud computing, and an all-IP network approach aimed at meeting increasing demand for real-time data applications.
5G Moblie Computing
- 2. C O N T E N T S Introduction to 5G. 5G Experience be like. Brief Idea about 5G. Evolution from 1G to 5G. Comparison table of features of 1G to 5G. Architecture of 5G. Functional Architecture of 5G. Hardware and Software of 5G. Advantages. Disadvantages. Applications.
- 3. INTRODUCTION 5G is the short for fifth generation, a mobile broadband technology that is in the early stages of works and likely to be in place six to seven years from now. A 5G network will be able to handle 10,000 times more call and data traffic than the current 3G or 4G network. Data download speeds on 5G networks are likely to be several hundred times more than 4G. 5G mobile technology will change the means to use cell phones within very high bandwidth.
- 4. BRIEF IDEA ABOUT 5G CURRENT STATUS OF 5G? The European Telecommunications Standards Institute is formulating 5G global technology standards, which are likely to be formalized by 2019. Telecom companies such as Nokia, Ericsson, NTT DoCoMo, Samsung, Huawei and Fujitsu are driving bulk of the 5G-related innovations. PEOPLE WILL BE ABLE TO EXPERIENCE WITH 5G. 5G networks are likely to be rolled out commercially between 2020 and 2025. If the global standards are finalized by 2019, the earliest commercial deployments could happen by 2020. 3G AND 4G HANDSETS DOESN’T RUN ON 5G NETWORKS. No. 5G will require new chipsets and devices capable of supporting speeds upwards of 10 gigabits per second. 4G and 3G run at a fraction of that speed.
- 5. Evolution from 1G to 5G 1G (1980/1990) 2G/2.5G ( Late 90’S) 3G (2001) 4G (2010) 5G (Expected by 2019
- 6. 1G:- 1’st Generation • 1G refers to 1st generation of mobile telecommunication • It is developed in 1980s and completed in early 1990s. • It provides a speed up to 2.4kbps. • It is based on analog system. • It allows user to make call in one country. • It has low capacity, unreliable handoff, poor voice links and no security at all since voice calls were played back in radio towers, making these calls susceptible to unwanted eavesdropping by third parties. low capacity, unreliable handoff, poor voice links, and no security a • t all since voice calls were played back in radio towers, making these calls susceptible to unwanted eavesdropping by third parties. has low capacity, unreliable handoff, poor voice links, and no security at all since voice calls were played back in radio towers, making these calls susceptible to unwanted eavesdropping by third parties.
- 7. 2G :- 2’nd Generation • 2G refers to 2nd generation of mobile telecommunication. • It was developed in late 1980s and completed in late 1990s. • It is based on digital system. • It provides a speed of up to 64 kbps. • It provides services like voice and sms with more clarity. Major prominent technologies were GSM, CDMA, and IS95
- 8. 3G :- Third Generation NTT DoCoMo launched the first commercial 3G network on 1 October 2001, using the WCDMA technology bandwidth of 3G network is 128 Kbps for mobile stations, and 2 Mbps for fixed applications The current trend in mobile systems is to support the high bit rate data services at the downlink via High Speed Downlink Packet Access (HSDPA)
- 9. 4G:- 4’th Generation • It was developed in the year 2010. • It is faster and more reliable. • It provides speed up to 100mbps. • It provides high performance like uploading and downloading speed. • It provides easy roaming as compaired to 3G. • Use of a higher Layer Protocol (IP) as transport medium affords intelligence at every stage within the network relative to a service
- 10. 5G :- 5’th Generation • It is the next major phase of mobile telecommunication & wireless system. • It is 10 times more faster than 4G. • It has a expected speed of 1gbps. • Lower cost than the previous version. • It is expected to come around the year 2017.
- 11. Comparison of 5G with other :-
- 13. RAN A radio access network (RAN) is part of a mobile telecommunicatio n system. It implements a Radio Access Technology. Conceptually, it resides between a device such as a mobile phone, a computer, or any remotely controlled machine and provides connection with its core network. 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. 5G NANOCORE The 5G Nanocore is a convergence of below mention technologies. These technologies have their own impact on exiting wireless network which makes them in to 5G.
- 14. Nano Technology :- Nanotechnology is the application of nano science to control process on manometer scale. i.e. between 0.1 and100nm.The field is also known as molecular nanotechnology(MNT). It deals 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. Cloud computing :- Cloud computing is a technology that uses the internet and central remote server to maintain data and applications. In 5G network this central remote server will be our content provide. Cloud computing allows consumers and business to use applications without installation and access their personal files at any computer with internet access. The same concept is going to be used in Nanocore where the user tries to access his private account form a global content provider through Nanocore in form of cloud. The All-IP Network(AIPN) :- The All-IP Network(AIPN) is an evolution of the 3GPPsystem to meet the increasing demands of the mobile telecommunications market. To meets customer demand for real-time data applications delivered over mobile broadband networks, wireless operators are turning to flat IP network architectures.
- 15. FUNCTIONAL ARCHITECTURE OF 5G
- 16. • It is used to transmit data at 60kb/sec. • It consume less battery during sending & receiving mail or browsing internet. GPRS (General Packet Radio Service) • It is an advance version of GPRS . • It provide a data speed of 473kb/sec. EDGE (Exchanged Data Rate for GSM Evolution) • 3G makes it possible to do video call on mobile network. • It also provide efficient way to browse internet on mobile networking. 3G • Wireless LAN provides short range, high speed wireless data connection between mobile data device using radio or signal. WLAN( Wireless LAN) • LTE is standard for mobile communication for high speed data transmission for mobile network. Its Speed is up to 100mb/sec. LTE(Long Term Evolution)
- 17. In 5G mobile IP, each cell phone is expected to have a permanent "home" IP address, along with a "care-of" address that represents its actual location. IPv6 is needed for many addresses and the multiple layers of sub netting. 128 bits (4 times more than current 32 bit IPv4 address) may be divided into four parts (I thru IV) for supporting different functions. The first 32-bit part (I) may be defined as the home address of a device while the second part (II) may be declared as the care-of address allowing communication between cell phones and personal computers. Principle Of Data Transmission :-
- 18. Hardware Used in 5G : HARDWARE USED :-
- 19. Software Used in 5G :- SOFTWARE USED •
- 20. Advantages and disadvantages Advantages Data Bandwidth of 1Gbps or higher. Dynamic information access. Available at low cost. Finest Quality Of Service(QOS). Pages will upload almost instantly. Support interactive multimedia, voice, streaming video, Internet, and other broadband services. Disadvantages Since 5G services are likely to run on ultra-high spectrum bands, which travel shorter distances compared with lower bands, they may be more suited to enhanced indoor coverage. Higher frequencies could be blocked by buildings and they lose intensity over longer distances. That means, offering wider coverage would be a challenge.
- 21. Wire able devices with AI(Artificial Intelligence)capabilities. 5G iPhones. With 6th Sense technology. Global Networks. VoIP(Voice Over IP) enabled devices. Radio resource management. Media independent handover. Applications
- 22. CONCLUSION 5G technology is going to be a new revolution in wireless systems market. 5G will be User Centric. 5G is the next frontier of innovation for entire mobile industry. 5G - a promising Generation of wireless communication that will change people’s lives.