Silabus 4G LTE RF Planning is a professional development program designed to provide participants with comprehensive knowledge and practical skills in planning, designing, and optimizing 4G LTE radio frequency (RF) networks. This training covers essential concepts such as LTE architecture, radio propagation, frequency planning, capacity planning, coverage optimization, and performance analysis to ensure optimal network performance and user experience.
Through this course, participants will learn how to analyze RF parameters, utilize planning tools, identify interference and signal issues, and apply best practices in LTE network deployment. This training is suitable for telecom engineers, RF planners, network optimization professionals, and individuals pursuing a career in telecommunications network planning and engineering.
Silabus 4G LTE RF Planning Objective
- Apply a consistent process to radio network planning and design
- Measurements to assess LTE RAN RF performance
- Map network requirements to corresponding system parameters
- Construct uplink/downlink link budgets to meet specific performance requirements
- Use coverage and capacity requirements to determine the optimal radio network design
- Exploit multiple antenna techniques to optimize coverage and performance
- Determine optimal LTE configuration and operational parameter settings to maximize system performance
Silabus 4G LTE RF Planning Material Outline:
Day 1
- TheoriticalSession 1: Coverage Dimensioning
DL Link Budget & Parameters
Operating Band
Channel Bandwidth
Transmitter : eNodeB
Receiver : UE
UL Link Budget & Parameters
Transmitter – Handset Receiver Examples - Theoritical Session 2: Capacity Dimensioning
Number of user
User density
Services and type
Penetration : building, vehicular, pedestrian
BHCA and call duration
OBQ
Site calculation - Practical Session 1: Data Preparation for LTE Design
Heights map
Clutter map
Vector map
Coordinate system
Network data setting
Sites table - Practical Session 2: Modelling an LTE Network
Antenna parameters setting
Transmitters parameters setting
Cells parameters setting
MIMO Settings
ICIC Settings
Smart Antenna Settings
Propagation model
SPM propagation model
Set the propagation model for each transmitter
Automatic calibration of the Cost-Hata model
Set the propagation model for each transmitter
Day 2
- Practical Session 3: LTE Predictions
Setting the Computation Zone
Propagation and prediction studies calculation
Best server prediction
Coverage by Signal Level prediction
Overlapping Zones prediction - Practical Session 4: Neighbour, Frequency & Physical Cell ID Allocation
Automatic Neighbours Allocation
Automatically Allocation Feature
Automatic Frequency Allocation
Automatic PCI Allocation - Practical Session 5: Traffic model Simulation
Services
Mobility types
Terminals
User profile environments
User profile densities
Sector traffic map
User density traffic map (no of user/km)
Subscriber list - Practical Session 6 : Point Analysis function
Profile
Reception
Interference
Details
Other prediction studies
Silabus 4G LTE RF Planning Method:
- Presentation
- Simulation
- Software support
- Discuse and study case
Venue: Yogyakarta (Ibis Styles Hotel/ Ibis Malioboro Hotel/ Jambuluwuk Hotel/ Cavinton Hotel/ Grand Zuri Hotel, dll)
Training Duration: 2 days
Training Time:
| Januari 2026 | Februari 2026 | Maret 2026 | April 2026 |
| 5 - 6 Januari 2026 | 2 - 3 Februari 2026 | 2 - 3 Maret 2026 | 6 - 7 April 2026 |
| 12 - 13 Januari 2026 | 9 - 10 Februari 2026 | 9 - 10 Maret 2026 | 13 - 14 April 2026 |
| 19 - 20 Januari 2026 | 18 - 19 Februari 2026 | 16 - 17 Maret 2026 | 20 - 21 April 2026 |
| 26 - 27 Januari 2026 | 23 - 24 Februari 2026 | 26 - 27 Maret 2026 | 27 - 28 April 2026 |
| 30 - 31 Maret 2026 | |||
| Mei 2026 | Juni 2026 | Juli 2026 | Agustus 2026 |
| 4 - 5 Mei 2026 | 2 - 3 Juni 2026 | 6 - 7 Juli 2026 | 3 - 4 Agustus 2026 |
| 11 - 12 Mei 2026 | 8 - 9 Juni 2026 | 13 - 14 Juli 2026 | 10 - 11 Agustus 2026 |
| 18 - 19 Mei 2026 | 17 - 18 Juni 2026 | 20 - 21 Juli 2026 | 19 - 20 Agustus 2026 |
| 25 - 26 Mei 2026 | 22 - 23 Juni 2026 | 27 - 28 Juli 2026 | 26 - 27 Agustus 2026 |
| 29 - 30 Juni 2026 | |||
| September 2026 | Oktober 2026 | November 2026 | Desember 2026 |
| 1 - 2 September 2026 | 5 - 6 Oktober 2026 | 2 - 3 November 2026 | 1 - 2 Desember 2026 |
| 7 - 8 September 2026 | 12 - 13 Oktober 2026 | 9 - 10 November 2026 | 7 - 8 Desember 2026 |
| 14 - 15 September 2026 | 19 - 20 Oktober 2026 | 16 - 17 November 2026 | 14 - 15 Desember 2026 |
| 21 - 22 September 2026 | 26 - 27 Oktober 2026 | 23 - 24 November 2026 | 21 - 22 Desember 2026 |
| 28 - 29 September 2026 | 28 - 29 Desember 2026 |
Investment Price/Person
- 4.450.000/person (full fare) or
- 4.200.000/person (early bird atau grup 3 orang/lebih dari perusahaan yang sama)
Facilities for Participants
- Modul Training
- Sertifikat
- ATK: NoteBook dan Ballpoint
- T-Shirt
- Goody Bag
- Tumbler
- Foto Training
- Ruang Training dengan fasilitas Full AC dan multimedia
- Makan siang dan 2 kali coffeebreak
- Instruktur yang Qualified
Ingin menjadi ahli dalam merancang dan mengoptimalkan jaringan 4G LTE yang handal dan efisien? Saatnya upgrade skill Anda bersama Training Indonesia! Melalui program Training 4G LTE RF Planning, Anda akan mempelajari teknik perencanaan radio frequency mulai dari dasar hingga strategi optimasi tingkat lanjut langsung dari para praktisi berpengalaman di industri telekomunikasi.
Kuasai kompetensi yang dibutuhkan untuk menghadapi tantangan jaringan modern dan jadilah bagian dari talenta unggul di dunia telekomunikasi!