Radio propagation model
A radio propagation model, also known as the Radio Wave Propagation Model or the Radio Frequency Propagation Model, is an empirical mathematical formulation for the characterization of radio wave propagation as a function of frequency, distance and other conditions. A single model is usually developed to predict the behavior of propagation for all similar links under similar constraints. Created with the goal of formalizing the way radio waves are propagated from one place to another, such models typically predict the path loss along a link or the effective coverage area of a transmitter.
Characteristics
As the path loss encountered along any radio link serves as the dominant factor for characterization of propagation for the link, radio propagation models typically focus on realization of the path loss with the auxiliary task of predicting the area of coverage for a transmitter or modeling the distribution of signals over different regions.
Because each individual telecommunication link has to encounter different terrain, path, obstructions, atmospheric conditions and other phenomena, it is intractable to formulate the exact loss for all telecommunication systems in a single mathematical equation. As a result, different models exist for different types of radio links under different conditions. The models rely on computing the median path loss for a link under a certain probability that the considered conditions will occur.
Development methodology
Radio propagation models are empirical in nature, which means, they are developed based on large collections of data collected for the specific scenario. For any model, the collection of data has to be sufficiently large to provide enough likeliness (or enough scope) to all kind of situations that can happen in that specific scenario. Like all empirical models, radio propagation models do not point out the exact behavior of a link, rather, they predict the most likely behavior the link may exhibit under the specified conditions.
Variations
Different models have been developed to meet the needs of realizing the propagation behavior in different conditions. Types of models for radio propagation include:
- Models for indoor applications
- Models for outdoor applications
- Ground wave propagation models
- Sky wave propagation models
- Environmental Attenuation models
- Point-to-Point propagation models
- Terrain models
- City Models
Models for outdoor attenuations
- Near-earth propagation models
- Foliage models
- Terrain models
- City models
- Band-specific models
Models for indoor attenuations
Models for environmental effects
- Rain attenuation model
- ITU rain attenuation model
- ITU rain attenuation model for satellites
- Crane global model
- Crane two-component model
- Crane model for satellite paths
- DAH model
Models for antenna/environment effects
- Classical (antenna gains are orthogonal to propagation effects)
- Directional beam scattering
See also
- Radio propagation
- Free-space path loss
- Friis transmission equation
- 2-Ray Ground Reflection Model
- Egli Model
- Okumura Model
- Hata Model
- COST Hata model
- SPLAT! a program for calculating radio propagation
- Channel model
- Fading
- Nakagami fading
- Mobility model
- Traffic generation model
- Radio resource management
Log normal shadowing model
References
- ↑ Green, David B.; Obaidat, M.S. (2002). "An accurate line of sight propagation performance model for ad hoc 802.11 wireless LAN (WLAN) devices". IEEE International Conference on Communications, 2002 5: 3424–3428. doi:10.1109/ICC.2002.997466.
- ↑ Greenstein, L. J.; Erceg, V. (1999). "Gain reductions due to scatter on wireless paths with directional antennas". IEEE Communications Letters 3 (6).
- ↑ Anderson, Eric; Phillips, C.; Sicker, D.; Grunwald, D (2009). "Modeling Environmental Effects on Directionality in Wireless Networks". 5th International workshop on Wireless Network Measurements (WiNMee): 1–7. doi:10.1109/WIOPT.2009.5291577. Cite uses deprecated parameter
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External links
- IEEE Vehicular Technology Society - Propagation Committee
- Irregular Terrain Model (Longley-Rice)
- Propagation Models for 3GPP LTE Networks
- COST Action 231 - Evolution of Land Mobile Radio (including Personal) Communications
- CRC-COVWEB - A free online program for calculating radio wave propagation and coverage
- Radio Mobile - A free program for radio propagation
- RadioWORKS -- A freeware program for calculating radio wave propagation, path loss, and frequency information
- SPLAT! - A GPL program for linux, with windows port
- EDAM web page and source code
The following external references provide practical examples of radio propagation concepts as demonstrated using software built on the VOACAP model.
- Online MOF/LOF HF Propagation Prediction Tool
- High Frequency radio propagation de-mystified.
- Is High Frequency radio propagation reciprocal?
- How does noise affect radio signals?
- MSAM propagation simulator