4G RF Optimization From A to Z
دورة ضبط وتحسين " أوبتميزيشن" شبكات الجيل الرابع للاتصالات المحمولة
What you will learn
Manage and optimize any LTE network ضبط شبكات الجيل الرابع
Pass any interview in LTE optimization أجتياز المقابلات الشخصية الخاصة بالجيل الرابع
- Idle Mode Behavior.
- Handover.
- CSFB
- Power control
- MIMO
- SONs
- KPIS analysis and actions
Why take this course?
4G Optimization course دورة ضبط وتحسين شبكات الجيل الرابع
"الدورة تم شرحها باللغة العربية مع المصطلحات الأنجليزية"
الدورة ستغطي كل أساسيات الأوبتميزيشن للجيل الرابع مع أمثلة عملية على كل منها
الدورة أيضا تتطلب معرفة جيدة بالجيل الرابع
محتوى الدورة
the course include:
- Idle Mode Behavior.
- Handover.
- CSFB
- Power control
- MIMO
- SONs
- KPIS analysis and actions
مع حالات عملية وأمثلة توضيحية في كل جزئية
4G is the fourth generation of broadband cellular network technology, succeeding 3G, and preceding 5G. A 4G system must provide capabilities defined by ITU in IMT Advanced. Potential and current applications include amended mobile web access, IP telephony, gaming services, high-definition mobile TV, video conferencing, and 3D television.
The first-release WiMAX standard was commercially deployed in South Korea in 2006 and has since been deployed in most parts of the world.
The first-release Long Term Evolution (LTE) standard was commercially deployed in Oslo, Norway, and Stockholm, Sweden in 2009, and has since been deployed throughout most parts of the world. It has, however, been debated whether first-release versions should be considered 4G LTE. The 4G wireless cellular standard was defined by the International Telecommunication Union (ITU) and specifies the key characteristics of the standard, including transmission technology and data speeds.
Each generation of wireless cellular technology has introduced increased bandwidth speeds and network capacity. 4G users get speeds of up to 100 Mbit/s, while 3G only promised a peak speed of 14 Mbit/s.
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