Qualification Program for Telecommunications Engineers Basil Omari Jordan
Qualification Program for Telecommunications Engineers Basil Omari Jordan Engineers Association
overview • What is the Qualification Program • Program elements • Accreditation Criteria • Program Success factors • Program modules
What is the Certified Program for Telecommunications Engineers A comprehensive concentrated Training program delivered to the fresh engineers by experienced field engineers from the industry. At the end of the program the participant must present a practical graduation project and pass an accreditation exam related to the program topics.
? ? ? Y 0 50, 00 l ica electr rs ee engin WH Work Qualification program Engineering Degree
Qualified • orientation Fresh • Training • Selection • Evaluation • Probation Co Tim st Eff e ort s
Program Elements • 120 hours courses • Accreditation exam • Graduation project • Case studies
Accreditation Criteria • Attendance • Graduation project • Exam
Program Success Factors • Industry driven topics • Experienced instructors from field • Updated topics based on live networks and Vendors road maps • Main Employers blessing • Trusted accreditation process • Financial support
Certified Program for Telecommunications Engineers • Understand the basic components of any telecom network • Familiarization with the RF network components and technologies including 2 G/3 G/4 G/Wi. MAX • Understand the main core network elements and their functions including circuit and packet switching systems. • Distinguish between different transmission types and their features including fiber and microwave technologies.
Program Modules Core Radio Transmission
Section 1 Section 2 Network Switching Subsystem (NSS). SS 7 Protocol & Roaming Services Value Added Service (VAS). Intelligent Network (IN) Converged Billing System (CBS). Next Generation Network (NGN). Mobile Service Switching Center (MSC) Section 3 • GPRS Services • Quality of Service • Frame Relay Basics 1 st Module 40 hrs (Core Network) CS and PS KPIs overview. KPI analysis. KPI optimization basics. Section 5 • Section 4 • Signaling Plane • Packet Transmission Between MS and SGSN • Interworking with External Networks • Roaming service configuration and troubleshooting • Data service charging • Radius and Diameter principles and configurations. • SGSN and GGSN Hardware and interconnections • PS Hardware planning. • Backbone Router and switch configurations
Section 1 Overview GSM 3 G Wi. Max 4 G LTE Section 3 • 3 G , 4 G technologies • Advantage of CDMA technology • Fundamentals of UTRAN • Key technologies of UTRAN Section 2 GSM technologies GSM Radio network planning principle GSM Basic Radio parameters 2 nd Module (RADIO) 40 hrs Section 4 • Wi. MAX Technology (12 hrs) • Wi. MAX Network Design Options • Review of RF Fundamentals • Capacity and Oversubscription
Section 1 Transmission Media Types Copper Microwave Radio Fiber Optic Cable Wi. Max , Wi. Fi, . . Section 3 Optical fiber concept Fiber cable construction Fiber splicing Fiber systems & testing Section 2 Microwave Path calculation Traffic engineering 3 rd Module (TRANSMISSIO N) 40 hrs Section 4 DWDM FTTX Transport Networks topologies
“Need Qualification” Campaign Launched by JEA after careful study of Jordan market needs to the competencies and skills required in the FRESH ENGINEER at selected engineering industries. Specific qualification Program was designed to bridge the gap between theory and practice.
Benefits & Instructions • BENEFITS • CERTIFICATE OF QUALIFICATION FROM JEA TRAINING CENTER • EMPLOYMENT EDGE AT MOBILE OPERATORS AND TELECOM COMPANIES • TERMS • FRESH ENGINEERS OR 3 YEARS EXPERIENCE MAXIMUM • FOLLOW JEA TRAINING CENTER INSTRUCTIONS INCLUDING ATTENDANCE POLICIES
THANK YOU
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