This document was already posted here
Sorry, I should have searched better before posting.
I have removed the document and changed the link to a report on public safety communications in Wyoming with coverage plots using EDX SignalPro.
Here is a study on 700MHz vs 2.5GHz Coverage.
COMPARISON OF RADIO PROPAGATION CHARACTERISTICS AT 700 AND 2,500 MHz PERTAINING TO MACROCELLULAR COVERAGE
Communications Research Centre Canada
Ottawa, April 2011
Summary
Frequency-dependent features of signal transmission performance in several radio propagation environments characteristic of macrocellular radio networks are evaluated. Frequency bands of specific interest are 700 MHz and 2,500 MHz (2.5 GHz). The objective of the study is to analyze technical aspects of propagation behaviour in cluttered environments, in order to permit general observations regarding the relative merits of these frequency bands with respect to area coverage.
Last edited by primig; 2014-10-05 at 12:50 AM
Here is the documentation from a Small Cell Coverage proposal . No plots or details of the tool are included, but the rest of the details and document structure are there. Raw doc files, link budget xls and drawings attached as well as a single pdf of the work so far.
http://www.4shared.com/rar/eVftbQAuce/
SMALL CELL COVERAGE PROPOSAL
A survey of the target area was conducted in Aug, 2013. During the survey, the details of the expansion antenna locations for optimum coverage as well as possible feeder cable routings were identified. The resultsof the survey are presented in the form of an engineering proposal.
This document serves to inform the building owner and govenrment on the technical aspects of the proposed small cell distribution system.The engineering proposal will include the following:
Trunking Diagram – Overall schematic of the antenna distribution system.
Floor Plan – Indicates proposed cable routings and antenna locations.
M&E Support – The required mechanical and electrical support.
Transmission Plan – Documentation for transmission requirement.
Material List – Indicates the types and quantity of installation materials used.
Technical Aspects – Technical specifications of materials used.
CONTENTS
1. ABSTRACT
2. LOCATIONS SUMMARY
3. EFFECTIVE ISOTROPIC RADIATING POWER
4. TRUNKING DIAGRAM
5. CABLE ROUTING AND ANTENNA LOCATIONS
6. ANTENNA LOCATIONS
7. MU&RRU LOCATIONS
8. ELECTRICAL AND GROUND SYSTEM
9. TRANSMISSION SYSTEM
10. MATERIAL LIST AND TECHNICAL DATA
A report on estimating the spectrum for the 2014 Commonwealth Games by Analysys Mason.
Spectrum demand grouped into:
- private business radio (PBR) – also referred to as private mobile radio (PMR). In the remainder of this report, we refer to this as PBR
- wireless microphones and in-ear monitors
- temporary audio links
- outside broadcast talkback
- telemetry (e.g. camera control)
- wireless cameras, including airborne links
- video links – including temporary (portable) point-to-point links that might be deployed at certain locations or sporting events, and microwave links that might be used to provide connection from venues (in lieu of fibre)
- satellite news gathering.
Based on Surveys, calculations using ATDI ICS Telecom and demand from similar events (e.g. the London 2012 Olympic and Paralympic Games and the Melbourne 2006 Commonwealth Games).
Link budget used for frequency re-use analysis suitable for MPT1327 or DMR system included in Appendix B
Contents
1 Executive summary
1.1 Categories of use
1.2 Spectrum users
1.3 Demand for spectrum
1.4 Conclusions
1.5 Areas of uncertainty
2 Introduction
3 Approach to the study
3.1 Review of spectrum requirements for the Games/preparation for interviews
3.2 Stakeholder research
3.3 Estimation of bottom-up requirements
3.4 Comparison of bottom-up estimates with London 2012 benchmarks
3.5 Review of theoretical requirements
4 Summary of responses from the stakeholders interviewed
4.1 Proposed services to be delivered during the Games
4.2 Technologies to be deployed
4.3 Spectrum requirements to deliver these services
4.4 Other comments
5 Estimation of spectrum demand for the Games
5.1 Summary of demand by user
5.2 Summary of overall demand
5.3 Comparison with spectrum demand for London 2012 Olympic Games
5.4 Frequency re-use
5.5 Areas of uncertainty
6 Conclusions from the study
6.1 Conclusions arising from our estimation of spectrum demand
6.2 Conclusions relating to frequency re-use
6.3 Conclusions arising in relation to spectrum planning for Glasgow 2014
6.4 Other observations
Annex A Demand estimation
Annex B Link budget used for frequency re-use analysis
Annex C Abbreviations used in this report
Last edited by primig; 2014-10-07 at 02:10 PM
RADIO NETWORK PLANNING AND OPTIMIZATION
Network Final Acceptance Test Report Examples from 2013
http://www.4shared.com/folder/BMScCeNV/RFNWFAT.html
1 EXECUTIVE SUMMARY
2 CLUSTER DT KPI
2.1 Coverage KPI Acceptance Test
2.1.1 P-CPICH Received RSCP Coverage Acceptance Test
2.1.2 P-CPICH Ec/Io Coverage Acceptance Test
2.2 Accessibility KPI Acceptance Test
2.2.1 Call Setup Time Acceptance Test
2.2.2 HSDPA PDP Activation Setup Time Acceptance Test
2.2.3 Call Setup Success Rate Acceptance Test
2.2.4 HSDPA PDP Activate Success Rate Acceptance Test
2.3 Retainability KPI Acceptance Test
2.3.1 AMR Call-Drop Rate Acceptance Test
2.3.2 HSDPA Call-Drop Rate Acceptance Test
2.4 Service Integrity KPI Acceptance Test
2.4.1 Round Trip Delay (continuous ping) Test
2.4.2 HSDPA Service Average DL Throughput Acceptance Test (DT)
2.4.3 HSDPA Service Average DL Throughput Acceptance Test (Stationary)
2.4.4 HSDPA Service Average UL Throughput Acceptance Test (Stationary)
2.5 Mobility KPI Acceptance Test
2.5.1 Intra-Frequency Handover Success Rate Acceptance Test
2.5.2 Inter-RAT Handover Success Rate Acceptance Test
3 DT KPI SUMMARY
4 OMC KPI
5 CONCLUSION AND SUGGESTION
6 REMARKS
Telecommunications Site Options Analysis Report on moving/replacing an existing shared site
Technical Review 2012
Contents
1.0 Introduction
2.0 Project Approach
3.0 Summary of Existing xxx Telecom Tenant Systems and Equipment
4.0 Site Requirements and Viable Alternate Site Options
4.1 Basic Site Requirements and Design Assumptions
4.2 Site Selection – Available Properties Evaluated
4.3 Alternate Site #1
4.4 Alternate Site #2
4.5 Alternate Site # 3
4.6 Potential for a Two Site Alternative
4.7 New Telecommunication Site - Typical Site Development Costs
5.0 Telecommunications Ordinance
6.0 Telecommunication Site Safety Standards and Best Practices
6.1 Site Selection
6.2 Tower Setbacks
6.3 Fall Zone
6.4 Environmental Factors
6.5 Lighting and Painting
6.6 Security
7.0 Lease Conversion Option Evaluation
List of Tables
Table 1 – Site Development Cost Comparison
Table 2 – Annual Telecom Revenue
Table 3 – Lease Purchase Pros and Cons
Table 4 – Unison Proposal Discounted Revenue Table
List of Figures
Figure 1 – Labeled Tower (South Face)
Figure 2 – Verizon Antenna on Tower
Figure 3 – Verizon Antenna on Tower
Figure 4 – Cellular Equipment Compound Diagram
Figure 5 – Existing Tower Tenant Equipment Layout Diagram
Figure 6 – Properties Owned by the City
Figure 7 – Tower – 150’ Coverage Prediction
Figure 8 – STower – 190’ Coverage Prediction
Figure 9 – Tower – 150’ Coverage Prediction
Figure 10 – Tower – 190’ Coverage Prediction
Figure 11 – Tower – 150’ Coverage Prediction
Figure 12 – Tower – 180’ Coverage Prediction
Appendix A Tenant Survey
Some Sample Reports about network quality
http://www.4shared.com/rar/s3LQ9VNYce/SamRFRep.html
In-Building Wireless Network Quality Surveys
2003
1 Executive Summary
1.1 Survey Results Summary
2 Test Parameters
2.1 Technologies Measured
2.2 Area and Road Selection
2.3 Call Placement
2.4 Analysis Technique
2.5 Call Classifications
2.6 Network Evaluation and Ranking Example
2.6.1 Relative Scoring Formula for Call Statistics
2.6.2 Determining Reference Values
2.6.3 Call Statistics Scoring Example
2.6.4 Relative Scoring Formula for Voice Quality
2.7 Determining the winner
3 Coverage Comparison
4 Call Performance Comparison
5 Voice Quality Comparison
5.1.1 Denver Detailed Statistics
6 Geographical Plots
Sample Drive Test Report
2003
1 Introduction
2 Scope of Work
2.1 Project Requirements
2.2 Deliverables
2.3 Complimentary Deliverables
3 RF Coverage Measurements
3.1 Measurement Technique
3.2 Call Placement
3.3 Area and Road Selection
4 Performance Measurements
4.1 Technology Measured
4.2 Call Classification
4.3 Performance Results
5 Attachments
5.1 Map 1 - North Scanner Data 6
5.2 Map 2 - South Scanner Data6
5.3 Map 3 - North Mobile Phone Data6
5.4 Map 4 - South Mobile Phone Data6
5.5 Map 5 - North Server SQE 6
5.6 Map 6 - South Server SQE6
Competitive Network Benchmarking
2008
Executive Summary
Detailed Data Results
Benchmarking Methodology
Appendix
GPRS Data Network Quality Surveys
2003
1 Executive Summary
2 Test Parameters
3 Results
4 Geographic Plots
Network Quality Surveys
2003
1 Executive Summary
1.1 Survey Results Summary
2 Test Parameters
2.1 Technologies Measured
2.2 Area and Road Selection
2.3 Call Placement
2.4 Analysis Technique
2.5 Call Classifications
2.6 Network Evaluation and Ranking Example
2.6.1 Relative Scoring Formula for Call Statistics
2.6.2 Determining Reference Values
2.6.3 Call Statistics Scoring Example
2.6.4 Relative Scoring Formula for Voice Quality
2.7 Determining the winner
3 Coverage Comparison
4 Call Performance Comparison
5 Voice Quality Comparison
5.1.1 Denver Detailed Statistics
6 Geographical Plots
Propagation Model Optimization
2003
1 Executive Summary
2 Introduction
2.1 The Lee Propagation Model
2.2 Knife Edge Diffraction and the Foose Factor
3 Methodology
3.1 Test Site Selection
3.1.1 Morphology
3.1.2 Drive Route Considerations
3.2 Data Collection
3.2.1 Receiver Configuration
3.2.2 Transmitter Configuration
3.2.3 Drive Route Selection
3.2.4 Data Archival
3.3 Data Analysis
3.3.1 Geographical Analysis
3.3.2 Importing the Data into WIZARD
3.3.3 WIZARD Propagation Model Optimization Analysis
3.3.4 Statistical Analysis
3.3.5 Optimized Propagation Parameters
4 Results
4.1 Scatter Plots and Histograms
5 Attachments
Wireless Broadband Mapping Final Report
November 2010
http://www.4shared.com/rar/SB0DLjKmba/
Table of Contents
1.0 Executive Summary
1.1 Purpose of this Report
1.2 Services Modeled and Measured
1.3 Approach
1.4 Broadband Wireless Data Service Results
1.5 Wireless Voice Service Results
2.0 Project Background
2.1 Project Description
2.2 Scope of Work
3.0 Wireless Airlink Technologies & Standards
3.1 Mobile Wireless Airlink Standards
3.2 Fixed Wireless Airlink Standards
4.0 Coverage Modeling
4.1 Mathematical Models
4.2 Software Tools
4.3 Parameter Selection
5.0 Drive Test Survey
6.0 Analysis
6.1 Summary Results
6.2 Coverage Map Calibration & Improvements
6.3 Roaming Issues
6.4 General Observations
6.5 Observations Specific to Each Carrier
7.0 Conclusions
8.0 Cited References and Bibliography
9.0 Acronyms
Appendices
Appendix A - Wireless Broadband Mapping Scope of Work
Appendix B - Mobile Data and Voice Coverage Statistics
Appendix C - Mobile Wireless Coverage Maps
Appendix D - Fixed Wireless Coverage Maps
US Town Wireless Infrastructure Plan
2011
http://www.4shared.com/rar/7L9orhyNb...nfra_Plan.html
This report includes RSSI coverage measurements for the following services:
AT&T Wireless 850 MHz Band
AT&T Wireless 1900 MHz
Sprint- Nextel 850 MHz Band, Nextel
Sprint Nextel 1900 MHz Band, Sprint CDMA
T-mobile 1900 MHz Band
Verizon Wireless 850 MHz Band
Analysis of current status and recommendations for future infrastructure expansion.
Index
Introduction
The Current State of the Wireless Industry
A. Current Environment
B. Increased need for a telecommunications wireless facilities
C. Types of wireless networks.
D. Components of a telecommunications wireless facility
E. Design of wireless networks
The current Federal Law and issues presented to local authorities
Planning Goals.
Analysis of existing coverage in the Town
Exhibit A- Independent Radio Frequency Report
Analysis and recommendations based on Independent Radio Frequency Report
A. Analysis
B. Recommendations
C. Conclusion
Homeland Towers analysis of additionally necessary infrastructure in the Town
Exhibit B - PierCon Independent Radio Frequency coverage analysis
Analysis and recommendations based on Independent Radio Frequency Coverage Analysis
A. Analysis
B. Recommendations
C. Conclusion
Appendix A (Tax Maps)
Complete documentation for a proposed 8 Site Outoor DAS System to fill a gap in T-Mobile Coverage
http://www.4shared.com/rar/ncva6pJXba/0DA5Pr0p.html
I have left out the building permission applications but following documents included:
- Sitemap - location of proposed antennas
- Location photos with proposed equipment sketches
- External Consultant Engineering Review
- Real Estate Value Impact Analysis
- Expert Report on ODAS
- RF Test Report
- Statement of Compliance to FCC Regulations
- Survey & Drawings
External Consultant Engineering Review Contents:
Introduction
Methodology
Site Locations
Background
Proposed System Configuration
Justification for the New Antenna Site (gap in T-Mobile coverage)
Drive Test Data
Radio Frequency Emissions Safety
Summary & Conclusions
Expert Report on ODAS
Contents
Qualifications and Background
Qualifications Specific to This Case
Purpose and Methodology
Executive Summary of Findings
Introduction of Concepts
Cellular
Full Featured Mobile Telephone Service
Wireless Only Households
High Speed Internet Service
Location Services
Enhanced 911
ODAS
Cellular Radio Technologies
GSM
CDMA
EVDO
UMTS
WiMAX
LTE
Benchmark Drive Testing Results
Significant Gap in Coverage
Final Conclusion and Recommendations
Testing and Evaluation of Proposed ODAS
Final Conclusions and Recommendations
Bookmarks