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Path loss
Recommendation ITU-R P.1410-5 (02/2012)
Tr 138 901 V14.3.0 (2018-01)
A Path-Specific Propagation Prediction Method for Point-To-Area Terrestrial Services in the VHF and UHF Bands
Compilation of Measurement Data Relating to Building Entry Loss
Investigation of Path-Loss Models for 5.8 Ghz Radio Signals In
Path Loss Models for Two Small Airport Indoor Environments at 31 Ghz Alexander L
Signal Propagation and Path Loss Models
Broadcasting Transmitters in Kampala Metropolitan; Uganda
Prediction of Path Loss Estimate for a Frequency Modulation (Fm) Station Using Basic Transmission Loss Model
Wireless Channel Propagation Characteristics and Modeling Research in Rice Field Sensor Networks
An Assessment of Path Loss Tools and Practical Testing of Television White Space Frequencies for Rural Broadband Deployments
Capacity Considerations for Secondary Networks in TV White Space
802.11 G Signal Strength Evaluation in an Industrial Environment
Radio-Wave Propagation Into Large Building Structures—Part 2: Characterization of Multipath Kate A
Receiving Antenna Height Dependence of Radio Propagation Path Loss in Fixed Wireless Access Environment
Path-Loss Characteristics of Urban Wireless Channels
Microwave Path Engineering April 2005
Top View
Recommendation ITU-R P.1411-6 (02/2012)
Wireless Underground Sensor Networks Path Loss Model for Precision Agriculture (WUSN- PLM)
Lifetime Warranty
Experimental Evaluation of a Near-Field Magnetic Induction Based Communication System
Taking Wireless Underground: a Comprehensive Summary
Analysis of Radio-Propagation Environments to Support Standards Development for RF- Based Electronic Safety Equipment
Indoor Path Loss
Path Loss in an Urban Peer-To-Peer Channel for Six Public-Safety Frequency Bands David W
Propagation Models and Their Applications in Digital Television Broadcast Network Design and Implementation 9
Comparison of Radio Frequency Path Loss Models in Soil for Wireless Underground Sensor Networks
A Proposed High Data Rate 5.2/5.8Ghz Point to Multipoint MAN System
8-Channel Digitally Encoded Video and 2 Bi-Directional Data Multiplexer
Echostar Satellite L.L.C
Elements Follows Some Geometric Pattern (Example, Linearly Spaced Elements, Elements on a Rectangular Grid Or Elements Placed on a Circle) to Achieve the Requirements
Evaluation of a Terrain-Sensitive
Channel Characterization for Chip-Scale Wireless Communications Within Computing Packages
Application Note Template
Measurement of Radio Propagation Path Loss Over the Sea for Wireless Multimedia
32-Channel Digitally Encoded Video Multiplexer
OHLOSS PATH LOSS COMPUTATION with OHLOSS TUTORIAL (Formerly Rep
On the Path Loss Model for 5-Ghz Microwave-Based Pinless Subsea Connectors
Compatibility Studies in Relation to Resolution 224 in the Bands 698-806 Mhz and 790-862 Mhz
Kernel-Based Adaptive Online Reconstruction of Coverage Maps
Link Budget and Fade Margin 1
Basic Research Counter IED Program
Measurement Based Statistical Model for Path Loss Prediction for Relaying Systems Operating in 1900 Mhz Band
Mobile Radio Propagation Large-Scale Path Loss
7.0 Indoor Radio Propagation
4-Channel Digitally-Encoded Video Multiplexer Transmitter and Receiver COMPAK41M1
Recommendation ITU-R P.1238-7 (02/2012)
Path Loss & Fading
Signal Propagation. Path Loss Models
1.888.678.9427 20-Channel Digital Video 10-Bit Digital/Short
A Novel Path Loss Forecast Model to Support Digital Twins for High Frequency Communications Networks
Chapter 4 Mobile Radio Propagation (Large-Scale Path Loss) Objectives
4-Channel Digitally Encoded Video Multiplexer LIFETIME
RF Path and Absorption Loss Estimation for Underwater Wireless Sensor Networks in Different Water Environments
Radio Propagation for 5G
Performance Evaluation of Path Loss Parameters for Broadcasting Applications
Fundamentals of Satellite Communications Part 2 Link Analysis, Transmission, Path Loss, & Reception
Radio Signal Propagation
Contextual Bandit Learning for Machine Type Communications in the Null Space of Multi-Antenna Systems
Evaluating the Performance of IPTV Over Fixed Wimax
Path Loss Prediction Based on Machine Learning: Principle, Method, and Data Expansion
Third Generation Wireless Modeling in Urban Environment Kusay F
WINNF-TS-0112 Version V1.9.1
Path Loss Model for Outdoor Parking Environments at 28 Ghz and 38 Ghz for 5G Wireless Networks