Date post: | 14-Apr-2017 |
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Department of Electronics and Communication Engineering
Swami Keshvanand Institute of Technology, Management &
Gramothan
SUBMITTED BY: URVI SHARMA ECE-B(1st SHIFT)
13ESKEC086
A 2 MONTH INDUSTRIAL TRAINING REPORTON
LTE & VOLTEAT
RELIANCE JIO INFOCOMM LIMITED
• Reliance Jio Infocomm Limited, is an LTE based mobile network operator in India.
• It is a wholly owned subsidiary of Reliance Industries headquartered in Mumbai, that provides wireless 4G LTE service network (without 2G/3G based services)
• It is the only 100% VOLTE operator in the country, with coverage across all 22 telecom circles in India.
Introduction
• RJIL holds spectrum in 1800 MHz (across 14 circles) and 2300 MHz (across 22 circles) capable of offering fourth generation (4G) wireless services.
• RJIL aims to provide anytime, anywhere access to innovative and empowering digital content, applications and services, thereby propelling India into global leadership in digital economy.
• India's first all IP network• Data-strong network built for 4G Internet• Mobile video network• True 4G covering 18,000 cities, 2 lakh
villages• Voice over LTE (VoLTE) technology• Future Proof - 5G, 6G ready
Features Of JIO
• Best 4G network with the lowest data rates globally
• LYF devices starting Rs. 2,999/-• Complimentary Jio Apps worth Rs. 15,000/-• Instant Aadhaar card based activations• Free voice calls• No complex telecom charges• Jio simple 4G Tariff Plans• Special discounts for students• Enterprise-friendly solutions and plans• India's first ever platinum 4G service
Jio Digital Life
• Currently we have following mobile and internet communication technologies adopted by different mobile companies in different parts of the world.
• GSM• CDMA• EDGE• GPRS• VoIP
Mobile Internet Communication Technologies
• 2nd Generation Internet is the most prevalent in India in the Past Decade. Wireless ISPs in India use both CDMA and Edge technologies for 2G.
• India's wireless Internet frequencies are• 2G: GSM 900 MHz, GSM 1800 MHz• 3G: UMTS 2100 MHz• 4G: TDLTE 2300 MHz, FDLTE 1800 MHz
Wireless Internet
Evolution Of Mobile Communication
• High Bandwidth Requirement• Expensive fees for 3G Licenses Services• It was challenge to build the infrastructure
for 3G• Expensive 3G Phones.• Large Cell Phones
WHY 4G ?
• LTE stands for Long Term Evolution • It is a 4G wireless broadband technology
developed by the Third Generation Partnership Project (3GPP), an industry trade group.
• It isn’t as much a technology as it is the path followed to achieve 4G speeds
4G Technology LTE
LTE Architecture
• The high-level network architecture of LTE is comprised of following three main components:
• The User Equipment (UE).• The Evolved UMTS Terrestrial Radio
Access Network (E-UTRAN).• The Evolved Packet Core (EPC).
Components Of LTE Architecture
• The internal architecture of the user equipment for LTE is identical to the one used by UMTS and GSM which is actually a Mobile Equipment (ME).
The User Equipment (UE)
• It is the hardware that is connected to the mobile phone network that communicates directly wirelessly with mobile handsets (UEs), like a Base Tranceiver Station (BTS) in GSM networks.
E- Node B
• The MME (for Mobility Management Entity) deals with the control plane.
• It handles the signalling related to mobility and security for E-UTRAN access.
• The MME is responsible for the tracking and the paging of UE in idle-mode.
• Controls the high-level operation of the mobile by means of signalling messages and Home Subscriber Server (HSS).
MME (Mobile Management Entity)
• Serving gateway terminates the interface towards EUTRAN.
• It acts a mobility anchor for inter 3GPP mobility.
• SGW is responsible for • packet routing and forwarding,• buffering the downlink packets• downlink packet marking.
Serving Gateway (SGW):
• PGW terminates SGi interface towards the PDN.
• PGW is responsible for all the IP packet based operations such as
• deep packet inspection, • UE IP address allocation, • Transport level packet marking in
uplink and downlink, • accounting etc.
PDN Gateway (PGW):
• The HSS is a central database that contains user-related and subscription-related information.
• The functions of the HSS include functionalities such as mobility management, call and session establishment support, user authentication and access authorization.
• It also holds information about the PDNs to which the user can connect.
• In addition the HSS holds dynamic information such as the identity of the MME to which the user is currently attached or registered.
Home Subscriber Server (HSS):
Advantages Of LTE
• Voice over LTE (VoLTE) which is based on the IP Multimedia Subsystem (IMS) network
• This approach results in the voice service (control and media planes) being delivered as data flows within the LTE data bearer.
• This means that there is no dependency on the circuit switched voice network to be maintained.
• VoLTE has up to three times more voice and data capacity than 3G UMTS and up to six times more than 2G GSM.
• Furthermore, it frees up bandwidth because VoLTE’s packets headers are smaller than those of un-optimized VoIP/LTE
VOLTE