Journal ArticleDOI
Path loss prediction in multifloored buildings at 914 MHz
TLDR
In this paper, the authors presented a model that predicts the effect of walls, office partitions, floors, and building layout on path loss at 914 MHz in a typical office building, and found that average floor attenuation factors (FAF) are 12.9 dB and 16.2 dB for one floor between the transmission and receiver.Abstract:
Quantitative models are presented that predict the effect of walls, office partitions, floors, and building layout on path loss at 914 MHz. Average floor attenuation factors (FAF), which describe the additional path loss (in dB) caused by floors between transmitter and receiver are found for up to four floors in a typical office building. Average FAFs are 12.9 dB and 16.2 dB for one floor between the transmission and receiver in two different office buildings. For same floor measurements, attenuation factors (AF) are found to be 1.4 dB for each cloth-covered office partition and 2.4 dB for each concrete wall between transmitter and receiver.read more
Citations
More filters
Indoor radio propagation channel
TL;DR: The principles of radio propagation in indoor environments are reviewed, the channel is modeled as a linear time-varying filter at each location in the three-dimensional space, and the properties of the filter's impulse response are described.
Journal ArticleDOI
The indoor radio propagation channel
TL;DR: In this paper, a tutorial survey of radio propagation in indoor environments is presented, where the channel is modeled as a linear time-varying filter at each location in the 3D space, and the properties of the filter's impulse response are described.
Journal ArticleDOI
Indoor Office Wideband Millimeter-Wave Propagation Measurements and Channel Models at 28 and 73 GHz for Ultra-Dense 5G Wireless Networks
TL;DR: The results show that novel large-scale path loss models provided here are simpler and more physically based compared to previous 3GPP and ITU indoor propagation models that require more model parameters and offer very little additional accuracy and lack a physical basis.
Journal ArticleDOI
A Survey of Wireless Path Loss Prediction and Coverage Mapping Methods
TL;DR: A new taxonomy for reasoning about the similarities and differences of the many approaches is provided and a brief but complete overview of the various methods is provided as well as describing insights into future directions for research in this area.
Journal ArticleDOI
Error control coding in low-power wireless sensor networks: when is ECC energy-efficient?
TL;DR: An expression for the critical distance, the distance at which the decoder's energy consumption per bit equals the transmit energy savings per bit due to coding gain, compared to an uncoded system is derived.
References
More filters
Journal ArticleDOI
Statistical channel impulse response models for factory and open plan building radio communicate system design
TL;DR: Statistical radio channel impulse response models are presented for the analysis and design of wireless factory and open plan office communication systems and large-scale models for path loss are implicitly included in this work.
Journal ArticleDOI
Characterization of UHF multipath radio channels in factory buildings
TL;DR: In this paper, a wideband multipath measurements at 1300 MHz were made in five factory buildings in Indiana and the average factory path loss was found to be a function of distance to the 2.2 power.
Journal ArticleDOI
Review on radio propagation into and within buildings
TL;DR: In this article, the authors reviewed the published information on radio propagation into and within buildings particular to microcellular portable mobile radio channel at frequencies from 150 MHz upwards, and provided channel models for any particular type of building.
Journal Article
Radio coverage in buildings
J. M Keenan,A. J Motley +1 more
TL;DR: An appropriate model is evolved here for coverage at 864 MHz and 1728 MHz; these being the frequency bands of interest for these services.
Related Papers (5)
Personal communication radio coverage in buildings at 900 MHz and 1700 MHz
A.J. Motley,J.M.P. Keenan +1 more