primig
2014-04-09, 08:27 AM
Friends!
There has been another LTE radio planning course from TA posted here before, but they are different when I have compared them (page count/chapter headings etc.)
Enjoy & Good Luck!
http://www.4shared.com/rar/igy88T_yce/
LTE Radio Planning (Telecoms Academy)Contents
Section 1 introduction to Radio Planning
Lesson 1 Radio Planning Life Cycle
High Level Network Design Cycle 1
Phase 1 Detailed Procedure 2
Phase 1 Information 3
Phase 2 Detailed Procedures 4
Phase 3 Detailed Procedures 5
Phase 4 Detailed procedures 6
Phase 3 - 4 Information 6
Factors Affecting the LTE Planning Process 7
Allocated Spectrum and Channel Bandwidth 9
LTE Channel Parameters 10
Maximum Bit Rate per Channel 11
Equipment Performance 12
Coverage or Capacity 13
Service Area 14
Self Assessment Multiple Choice 17
Self Assessment Multiple Choice Answer Grid 21
Lesson 2 RF and Baseband Signal
The Electromagnetic Wave 23
Baseband Information 24
Self Assessment Multiple Choice 29
Self Assessment Multiple Choice Answer Grid 31
lesson 3 Decibels (dB) and Noise in RF Theory 33
The Decibel and Applications for RF Practice 33
Calculating Noise in RF systems 36
Cascaded Noise 38
Self Assessment Multiple Choice 41
Self Assessment Multiple Choice Answer Grid
lesson 4 Modulation Schemes for LlTE 45
Modulation Systems 45
Binary Phase Shift Keying (BPSK) 46
High Level Modulation Schemes, QPSK, 8PSK 47
16QAM Modulation 48
64QAM Modulation 48
The Effect of Signal to Noise Ratio in Modulation 49
Adaptive Modulation Schemes 50
Self Assessment Multiple Choice 53
Self Assessment Multiple Choice Answer Grid 55
lesson 5 Multiple access Schemes 57
Multiple Access in Radio Systems 57
Frequency Division Multiple Access 57
Time Division Multiple Access 58
TDMA and FDMA Hybrid 59
Code Division Multiple Access 59
OFDM (Orthogonal Frequency Division Multiplexing) 60
Orthogonal Frequency Division and Multiple Access 61
Duplex Schemes 62
Self Assessment Multiple Choice 63
Self Assessment Multiple Choice Answer Grid 65
End of Section 1 Questions 66
Self Assessment Multiple Choice Answer Grid 71
Section 1 Assignment Questions 72
Section 2 Propagation Principle, Modelling And Antennas 75
lesson 1 Propagation Basics 77
Refraction of the Radio Signal 77
Sub-Refraction 80
Super-Refraction 81
Extreme Cases, Ducting 82
Self Assessment Multiple Choice 85
Self Assessment Multiple Choice Answer Grid 89
lesson 2 Mechanisms of Propagation 91
Attenuation through Penetration 93
Fresnel Clearance 94
Multipath Propagation 96
Rayleigh Environment 96
Rician Environment 97
Self Assessment Multiple Choice 99
Self Assessment Multiple Choice Answer Grid 101
lesson 3 I interference and Frequency Reuse 103
Frequency Reuse Concepts 103
Frequency Reuse in LTE 105
Cell Size and Capacity 106
Cell Deployment in LTE 106
Self Assessment Multiple Choice 109
Self Assessment Multiple Choice Answer Grid 111
lesson 4 Antenna Basic Theory 113
The Dipole Antenna 113
Antenna Beamwidth 117
Increasing Antenna Gain 118
Antenna Tilt 120
Antenna Diversity Configurations 121
Self Assessment Multiple Choice 123
Self Assessment Multiple Choice Answer Grid 127
lesson 5 Advanced Antenna Techniques for LlTE e 129
Single Input Single Output (SISO) 129
Single Input Multiple Output (SIMO) 130
Multiple Input Multiple Output (MIMO) 130
Multiple Input Multiple Output (MIMO) 131
Single User, Multiple User, and Co-operative MIMO 132
Single User MIMO(SU-MIMO) 132
Multiple User MIMO(MU-MIMO) 133
Beamforming 134
LTE Downlink Multiple Antenna Schemes 135
Open-loop Tx Diversity 136
Receive Diversity 136
Spatial Multiplexing – MIMO 136
Spatial Multiplexing – MIMO 137
Closed Loop Spatial Multiplexing 137
Open loop spatial Multiplexing 138
Reporting of UE Feedback 139
Self Assessment Multiple Choice 143
Self Assessment Multiple Choice Answer Grid 147
End of Section 2 Questions 148
Self Assessment Multiple Choice Answer Grid 155
Self Assessment Multiple Choice Answer Grid Cont....... 156
Section 2 Assignment 157
Section 3 LTE Link Budgets 159
Lesson 1 Defining a Link Budget Statement 161
Intro to Basic Radio System 161
Typical Link Budget Requirements 162
LTE link Budget variables 163
Self Assessment Multiple Choice 165
Self Assessment Multiple Choice Answer Grid 167
Lesson 2 Transmitter Power in LTE Link Budgets 169
LTE Transmit Power Capability for the UE 169
Additional Factors Affecting UE Power Output 170
Maximum Power Reduction (MPR) 170
eNodeB Power Output Characteristics 171
Typical Losses in the eNB 172
Other Losses in the transmit/receive system 172
Self Assessment Multiple Choice 173
Lesson 3 eNB and UE Antenna Performance 175
Antenna Characteristics for the UE 175
Antenna Characteristics for eNB 176
Self Assessment Multiple Choice 177
Self Assessment Multiple Choice Answer Grid 179
Lesson 4 Calculating Sensitivity 181
Sensitivity Calculation for the eNB and UE 181
Thermal Noise in Radio Systems 182
Type of Service and Impact on Noise Floor 183
Implementation Margin, UE, eNB 184
Receiver Noise Figure 185
Total Noise Floor 185
Cascaded Noise 186
Typical SNR for LTE Modulation and Coding Schemes 188
Duplex Gap and Duplex Distance, Effect on Receiver Sensitivity 189
lesson 5 System Gain and Maximum Pathloss 193
Environmental Factors and Noise Rise 193
Shadow Margin (Slow Fading) 194
Building and Foliage Losses 196
Body Loss 197
Uplink and Downlink Noise Rise 198
Lesson 6 Pathloss Modelling 201
Propagation Modelling 201
Coverage from link budget 202
Comparison of models 203
The WINNER Model 205
Link Planning Exercise 210
There has been another LTE radio planning course from TA posted here before, but they are different when I have compared them (page count/chapter headings etc.)
Enjoy & Good Luck!
http://www.4shared.com/rar/igy88T_yce/
LTE Radio Planning (Telecoms Academy)Contents
Section 1 introduction to Radio Planning
Lesson 1 Radio Planning Life Cycle
High Level Network Design Cycle 1
Phase 1 Detailed Procedure 2
Phase 1 Information 3
Phase 2 Detailed Procedures 4
Phase 3 Detailed Procedures 5
Phase 4 Detailed procedures 6
Phase 3 - 4 Information 6
Factors Affecting the LTE Planning Process 7
Allocated Spectrum and Channel Bandwidth 9
LTE Channel Parameters 10
Maximum Bit Rate per Channel 11
Equipment Performance 12
Coverage or Capacity 13
Service Area 14
Self Assessment Multiple Choice 17
Self Assessment Multiple Choice Answer Grid 21
Lesson 2 RF and Baseband Signal
The Electromagnetic Wave 23
Baseband Information 24
Self Assessment Multiple Choice 29
Self Assessment Multiple Choice Answer Grid 31
lesson 3 Decibels (dB) and Noise in RF Theory 33
The Decibel and Applications for RF Practice 33
Calculating Noise in RF systems 36
Cascaded Noise 38
Self Assessment Multiple Choice 41
Self Assessment Multiple Choice Answer Grid
lesson 4 Modulation Schemes for LlTE 45
Modulation Systems 45
Binary Phase Shift Keying (BPSK) 46
High Level Modulation Schemes, QPSK, 8PSK 47
16QAM Modulation 48
64QAM Modulation 48
The Effect of Signal to Noise Ratio in Modulation 49
Adaptive Modulation Schemes 50
Self Assessment Multiple Choice 53
Self Assessment Multiple Choice Answer Grid 55
lesson 5 Multiple access Schemes 57
Multiple Access in Radio Systems 57
Frequency Division Multiple Access 57
Time Division Multiple Access 58
TDMA and FDMA Hybrid 59
Code Division Multiple Access 59
OFDM (Orthogonal Frequency Division Multiplexing) 60
Orthogonal Frequency Division and Multiple Access 61
Duplex Schemes 62
Self Assessment Multiple Choice 63
Self Assessment Multiple Choice Answer Grid 65
End of Section 1 Questions 66
Self Assessment Multiple Choice Answer Grid 71
Section 1 Assignment Questions 72
Section 2 Propagation Principle, Modelling And Antennas 75
lesson 1 Propagation Basics 77
Refraction of the Radio Signal 77
Sub-Refraction 80
Super-Refraction 81
Extreme Cases, Ducting 82
Self Assessment Multiple Choice 85
Self Assessment Multiple Choice Answer Grid 89
lesson 2 Mechanisms of Propagation 91
Attenuation through Penetration 93
Fresnel Clearance 94
Multipath Propagation 96
Rayleigh Environment 96
Rician Environment 97
Self Assessment Multiple Choice 99
Self Assessment Multiple Choice Answer Grid 101
lesson 3 I interference and Frequency Reuse 103
Frequency Reuse Concepts 103
Frequency Reuse in LTE 105
Cell Size and Capacity 106
Cell Deployment in LTE 106
Self Assessment Multiple Choice 109
Self Assessment Multiple Choice Answer Grid 111
lesson 4 Antenna Basic Theory 113
The Dipole Antenna 113
Antenna Beamwidth 117
Increasing Antenna Gain 118
Antenna Tilt 120
Antenna Diversity Configurations 121
Self Assessment Multiple Choice 123
Self Assessment Multiple Choice Answer Grid 127
lesson 5 Advanced Antenna Techniques for LlTE e 129
Single Input Single Output (SISO) 129
Single Input Multiple Output (SIMO) 130
Multiple Input Multiple Output (MIMO) 130
Multiple Input Multiple Output (MIMO) 131
Single User, Multiple User, and Co-operative MIMO 132
Single User MIMO(SU-MIMO) 132
Multiple User MIMO(MU-MIMO) 133
Beamforming 134
LTE Downlink Multiple Antenna Schemes 135
Open-loop Tx Diversity 136
Receive Diversity 136
Spatial Multiplexing – MIMO 136
Spatial Multiplexing – MIMO 137
Closed Loop Spatial Multiplexing 137
Open loop spatial Multiplexing 138
Reporting of UE Feedback 139
Self Assessment Multiple Choice 143
Self Assessment Multiple Choice Answer Grid 147
End of Section 2 Questions 148
Self Assessment Multiple Choice Answer Grid 155
Self Assessment Multiple Choice Answer Grid Cont....... 156
Section 2 Assignment 157
Section 3 LTE Link Budgets 159
Lesson 1 Defining a Link Budget Statement 161
Intro to Basic Radio System 161
Typical Link Budget Requirements 162
LTE link Budget variables 163
Self Assessment Multiple Choice 165
Self Assessment Multiple Choice Answer Grid 167
Lesson 2 Transmitter Power in LTE Link Budgets 169
LTE Transmit Power Capability for the UE 169
Additional Factors Affecting UE Power Output 170
Maximum Power Reduction (MPR) 170
eNodeB Power Output Characteristics 171
Typical Losses in the eNB 172
Other Losses in the transmit/receive system 172
Self Assessment Multiple Choice 173
Lesson 3 eNB and UE Antenna Performance 175
Antenna Characteristics for the UE 175
Antenna Characteristics for eNB 176
Self Assessment Multiple Choice 177
Self Assessment Multiple Choice Answer Grid 179
Lesson 4 Calculating Sensitivity 181
Sensitivity Calculation for the eNB and UE 181
Thermal Noise in Radio Systems 182
Type of Service and Impact on Noise Floor 183
Implementation Margin, UE, eNB 184
Receiver Noise Figure 185
Total Noise Floor 185
Cascaded Noise 186
Typical SNR for LTE Modulation and Coding Schemes 188
Duplex Gap and Duplex Distance, Effect on Receiver Sensitivity 189
lesson 5 System Gain and Maximum Pathloss 193
Environmental Factors and Noise Rise 193
Shadow Margin (Slow Fading) 194
Building and Foliage Losses 196
Body Loss 197
Uplink and Downlink Noise Rise 198
Lesson 6 Pathloss Modelling 201
Propagation Modelling 201
Coverage from link budget 202
Comparison of models 203
The WINNER Model 205
Link Planning Exercise 210