LTE Protocol Testing Courses Designed by Industry Experts :

Prime bit solution is a leading institute that offers protocol testing courses online and offline for Freshers, OSS and BSS Engineers, Optimization Engineers, Technical support engineers, and RF engineers. We offer industry standards telecom protocol testing courses online with the collaboration of partners to recognize the value to the telecom domain.

Prime bit Solutions believe in empowering youth by providing high-quality LTE protocol testing training courses with hands-on experience and addressing the real issues in industrial projects. By considering the importance of the telecom tester role, Prime bit maintains a high standard of integrity in contributing to the best interests of students and Telecom professionals. We thoroughly understand the need to have a solid foundation of telecom testing and telecom development concepts.

At Primebit Solutions, we offer LTE protocol testing courses online as well as offline from real-time industry experts who have a minimum of seven years of industrial experience. Our telecom testing training course is affordable and is guaranteed to benefit all the students, current and prospective telecom engineers, and professionals.

 

Why Primebit is Best For Telecom Testing Online Courses :

We offer internationally recognized certification courses in protocol testing. We offer protocol testing training with comprehensive study material and real-time simulations. We are committed to offering best-in-class telecom testing training at a reasonable fees structure. We offer 100% placement assistance, and our students are working in renowned multinational companies like NXP, Larsen and Toubro, Intel, Broadcom, Qualcomm, etc
There are huge openings for LTE protocol testing in the market. Hurry up! primebit solution offers LTE training packages for freshers and experienced graduates. Protocol testing, protocol testing training, LTE protocol testing course online, and VOLTE testing training are practical courses for freshers and experienced who have a gap in their careers and are willing to restart their jobs in semiconductor companies.

The goal of the Online Telecom Protocol Testing Course :

  • Exposure to technologies like HSDPA, HSUPA, Advanced LTE, LTE, VOIP, Bluetooth, and SIP.
  • Stratum models expertise access and non-access for 2G/3G /4G Protocol modules.
  • Archive expertise in RRC, RLC/MAC, MM, SPV, SNDCP, Layer2, RRM, etc.
  • An in-depth overview of relevant modules. I am decoding the 3GPP with an excellent understanding.
  • Learn call processing concepts in one or more of the following interface standards. LTE or HSDPA/HSUPA/HSPA+GSM/ Rel99/ Rel8/ Rel5
  • Expertise in troubleshooting issues and analyzing logs from the field or lab for PS calls, LTE data calls, eMBMS, VoLTE, and UMTS/ GSM CS.
  • In-depth knowledge of 2G, 3G, 4G 3GPP protocol specification, system architecture, and related procedures in control and data plane on Non-Access, access – stratum, and layer 1 level.
  • In-depth understanding of PS architecture and interconnection of PS sub-components to meet the system’s requirements for multimode protocol stack.
  • Support and monitor LTE/3GPP UMTS Related standardization work and standards.
  • Expertise in interoperability testing and conformance testing
  • Exposure to one of these network simulators, Agilent / Anite / Anritsu / R&S;
  • Knowledge of creating test plans and test case development.
  • Expertise in scripting programming language TTCN2, TTCN3, Python, Perl

Target Audience:

 O&M; Engineers & Technical support Engineers, Freshers, Optimization Engineers, RF Engineers, OSS & BSS Engineers want to shift their careers to telecom testing.

Prerequisites

The candidate should have basic knowledge of c programming and wireless concepts to join this telecom protocol testing course.

 

 

Syllabus

UMTS (3G) AND GSM (2G) BASIC

  • 2G and 3G Network Architecture – CS & PS domain.
  • RAT- FDMA,TDMA,CDMA,WCDMA,DFDMA,SCFDMA
  • SDU, PDU,UMTS N/W Architecture
  • UMTS Protocol Architecture
  • UMTS Channel

LTE STANDARDIZATION (3GPP)

  • What is 3GPP?
  • 3GPP release and process
  • LTE Standardization Phase
  • LTE Specification and 3GPP Structure

LTE SYSTEM ARCHITECTURE

  • EUTRAN, EPC, SAE &EPC; Architecture
  • Logical Elements and their Interfaces
  • Roaming Architecture configuration
  • LTE Architecture with legacy 3GPP interworking with an interface and their protocols.
  • LTE identifier – UE Identifier, MME Identifier, TAI Architecture

LTE PROTOCOL STACK ARCHITECTURE AND CHANNELS

  • Control plane and User plane
  • L1,L2,L3 Architecture
  • Logical channel, Trasport channel, Physical channel
  • Control Information (CI), Channel Mapping
  • Uu – Control/User plane
  • S1 – Control/User plane
  • X2 – User/Control plane
  • S6a – Control plane
  • S3/S4/S5/S8/S10/S11- C plane/U plane
  • LTE bearer – Default and Dedicated

PHYSICAL LAYER

  • EUTRA Air interface capability
  • FDD Bands
  • TDD Bands
  • FDD and TDD Frame Architecture
  • TDD UL/DL Configuration
  • LTE UE Catagieors
  • Resource grid and Resource block
  • OFDMA, SC-FDMA, MIMO
  • Physical UL and DL Signaling
  • Physical UL and DL Control Information
  • Physical channels
  • UE Power on the procedure

PHYSICAL LAYER PROCEDURES

  • HARQ Procedure, Timing Advance, Power control, Random Acess procedure
  • Physical layer measurement, UE measurement, enodeB measurement, Physical layer parameter configuration

RLC LAYER

  • RLC Architecture and function – TM, AM, UM
  • Framing and reordering
  • ARQ operation, Window operation
  • RLC PDU Format
  • SDU Discard and RLC Re-establishment

MAC LAYER AND PROCEDURES

  • MAC Architecture and function
  • MAC PDU format, LCID, LCGID, MAC-CE
  • MAC Procedures –
    a) Dynamic and SPS Scheduling
    b) SR, BSR, and PHR
    c) Logical channel prioritization
    d) DRx
    e) HARQ and TTI bundling
    f) Measurement gap
    g) RACH Procedure – Contention and Non-contention

PDCP LAYER AND PROCEDURE

  • PDCP function and architecture
  • Header compression and security
  • Data transfer, PDCP PDU format

RRC AND NAS LAYER

  • RRC states and state transition, SRB & DRB PLMN and cell Selection
  • Cell Reselection and access verification
  • RRC Layer Architecture and function
  • RRC procedures –
    a) RCC connection establishment
    b) RCC connection release
    c) System information
    d) RCC connection re-establishment
    e) paging
    f) RCC connection re-configuration

NAS LAYER – EPS MOBILITY MANAGEMENT PROCEDURE

  • NAS state – EMM and ESM
  • NAS Authentication procedure
  • Security mode control procedure
  • Attach procedure
  • Detach procedure, TAU procedure
  • Service request and extended service request procedure
  • Paging procedure

NAS – EPS SESSION MANAGEMENT PROCEDURE

  • Dedicated EPS bearer context activation
  • EPS bearer context activation
  • EPS bearer context deactivation
  • UE requested PDN connectivity
  • UE requests PDN disconnect
  • UE requested bearer resource allocation
  • UE requests bearer resource modification

UE MOBILITY AND HANDOVER

  • RCC connected mode mobility –
    a) Intra LTE H.0 within the MME pool area
    b) Intra LTE H.0 Inter MME pool area
    c) Inter-RAT H.0 – release with reading direction
  • RCC Idle mode mobility
  • Cell Reselection

CSFB

  • CSFB system architecture
  • Voice domain preference and UE usage setting
  • CSFB call flow –
    a) Mobile registration
    b) Mobile originating call
    c) Mobile terminating call

3GPP SPECIFICATION, PROJECT, AND Qualcomm TOOLS

3GPP-
-36 series for LTE layers
-Analyse 3GPP log, LTE logs
-Decoding 3GPP LTE messages and logs
-ASN.1 compiler to describe 3GPP layer 3 message format
-LTE protocol test lab setup and explanation
-Conformance testing
-Different types of testing certification

PROJECT –
-Our technical expert will guide the project by explaining how to
-Develop test plans and test cases based on the marketing and design requirements for new features or update existing features.
-Validate the design and test new features, and functionalities thoroughly providing thorough coverage to features testing.
-Conformance, IoT, regression, performance, and stability testing.
-Discover the bugs, file them using the bug tracking tool, verify bugs after the fix and track the bug status
-Reproduce the customer-reported bugs, verify the fix and convert it to a test case
-Write test cases using TTCN 3, PYTHON, or any other tool selected.

TESTING TOOLS –
-Qualcomm live tools-QPST, QXPM,QCAT
-Protocol Analyzer and Network Simulator.
-Chipset and Log capture tool
-3GPP Testing Specification

Python Programming

Basics of Python :
a) Introduction

Python Operators :
a) Arithmetic
b) Relational
c) Logical
d) Assignment
e) Bitwise
f) Membership
g) Identity operators

Python Conditional Statements :
a) If
b) If else
c) If elif

Python Loops :
a) While
b) For
c) Range()
d) Break and Continue
e) Example problems

Python Numbers :
a) Types in numbers
b) Type convertions

Python Strings :
a) Built-in functions
b) Basic operators
c) Slicing
d) Example problems

Python Lists :
a) Array or list in python
b) List slicing techniques
c) Built-in functions

Python Tuple :
a)Array or list in python
b) List slicing techniques
c) Built-in functions

Python Dictonaries :
a) Creation of dictionaries
b) Built-in functions
c) Example problems

Python Functions :
a) Advantages of functions
b) Function definition using def statement
c) calling function
d) passing parameters
e) scope of the variables

Modules in Python :
a) Importing modules
b) creation of own modules
c) standard modules – os / sys

Exception Handling :
a) Handling exceptions
b) Try-except block
c) Example problems

File Handlings :
a) Files and directories
b) Text files
c) Binary files
d) Text file processing
e) Binary file processing

Network Programming :
a) In this, we will teach how we will send as well as receive data between devices by using TCP/IP and UDP protocols.
b)Python supports many networking protocols through libraries such as a socket, SMTP etc and you can also write network programs directly by using TCP/IP or UDP sockets.

TCP VS UDP / CLIENT VS SERVER – PYTHON EXAMPLES
a)Python socket module makes it easy for you to write our own clients and server programs

MULTIPROCESSING IN PYTHON
a)Multiprocessing refers to the ability of a system to support more than one processor at the same time. Applications in multiprocessing system are broken to smaller routines that run independently. The operation system allocates these threads to the processors improving the performance of the system

FILE TRANSFER PROTOCOLS :
a) In this, we will teach how can we transfer the files as well as receive the files between the devices

EMAILING :
a) To transfer the emails, we will use the SMTP library which is a built-in library in python. SMTP ( Simple Mail Transfer Protocol) is a protocol that enables you to send emails

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