Radio-Wave Propagation Into Large Building Structures—Part 2: Characterization of Multipath

Remley, Kate A.; Koepke, Galen H.; Holloway, Christopher L.; Grosvenor, Chriss A.; Camell, Dennis G.; Ladbury, John M.; Johnk, Robert T.; Young, William F.

doi:10.1109/tap.2010.2041143

Cited by 17 publications

(7 citation statements)

References 20 publications

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“…Several projects in NIST s Public Safety Communications Research Laboratory have been funded by the Department of Justice s Community-Oriented Policing Services (COPS) program; these include work described in [31] and [36]- [40]. The site-and frequency-diversity results of this paper are a continuation of this work.…”

Section: Large-scale Site and Frequency Diversity Inmentioning

confidence: 99%

Large-Scale Site and Frequency Diversity in Urban Peer-to-Peer Channels for Six Public-Safety Frequency Bands

Matolak

Remley

Holloway

et al. 2014

IEEE Trans. Wireless Commun.

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Abstract-We report on peer-to-peer large-scale wireless channel characteristics for an urban environment in six public-safety bands, for five simultaneous receiving sites. Results are based upon measurements taken in Denver in July 2009 with stationary receivers and a pedestrian transmitter. The six frequencies at which we measured are (in MHz) 430, 750, 905, 1834, 2400, and 4860. We quantify both site and frequency diversity, and show that 5-site selection yields minimum average gains of 15 dB in mean received power levels; 5-site selection diversity also reduces received power variation by 17-29 dB, depending on frequency. Frequency diversity yields similar gains. By approximating received powers as lognormal, we describe an analytical method to approximate the cdf of the per-site, or per-frequency (or both) maximum received power. These data and diversity models should be useful for public-safety and ad hoc communication system designers, and for cooperative diversity schemes, wherein multiple users act as a virtual array.

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Section: Large-scale Site and Frequency Diversity Inmentioning

confidence: 99%

Large-Scale Site and Frequency Diversity in Urban Peer-to-Peer Channels for Six Public-Safety Frequency Bands

Matolak

Remley

Holloway

et al. 2014

IEEE Trans. Wireless Commun.

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“…The sampling of RSS values is a time consuming effort that requires a lot of time hence it can be avoided by the modeling of radio signals in indoor environment. There were many efforts made to effectively model the radio signal propagation in indoor environment but it is not getting the required accuracy, mainly because of the obstacles, multipath, reflection, and scattering issues [1]. Even fingerprinting is also proved inaccurate as it introduces noticeable error due to the changes in indoor environment, building layout, activity of the people inside, furniture and other stuff, these changes and modification are not easy to be addressed in indoor propagation models [2].…”

Section: Literature Reviewmentioning

confidence: 99%

Accuracy Assessment of D-Model for Modeling Wall Attenuation in Indoor Environment

Latif

Memon

Chowdhry

et al. 2014

2014 Sixth International Conference on Computational Intelligence, Communication Systems and Networks

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Indoor radio signal propagation is always an interesting field to explore, especially after the introduction of Location based services, the charm of indoor localization gets more attraction of researchers and hence the work for better radio signal strength maps got accelerated that causes the development of different indoor propagation models. Most indoor localization techniques are based on fingerprinting, that requires time consuming and tedious work of site-survey for database generation. This site survey can be avoided by using an efficient indoor propagation model. Different indoor propagation models have their own performance considerations; some are more accurate but also require more computational requirements whereas the simpler ones are less accurate. In this paper we assess the accuracy of D-model that is a newly introduced indoor propagation model and then we compared its accuracy with earlier empirical models. We developed FAMWiFi for RSS collection, MATLAB for analysis and ArcGIS for signal strength map generation.

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“…In an experiment by [9] to estimate the effects of multipath on "chaotic radio" pulse tests were conducted in corridors with dimensions of 4 m × 40 m × 3 m and conference halls of 20 m × 4 m × 16 m by varying the distance between the transmitter and receiver from 1 -20 m. After conducting these tests in these various environments, their results showed that the effect of multipath interference on their signal was negligible. In [10] multipath effects are measured in various large environments such as a multi-story apartment building, an oil refinery, a long corridor in an office building typical of many commercial facilities, and a subterranean tunnel, to characterize the risk of BER to emergency responders.…”

Section: Prior Work Experimental Setupsmentioning

confidence: 99%

A Compact Test System for Simulating Multipath Interference

Eslami¹,

Bassen²

2014

OJAPr

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Fading and inter-symbol interference (ISI) arising from multipath effects are a common source of both latency and packet errors in wireless communications. Test methods often require large environments to produce long delays that are enough to affect the communications between a transmitter and receiver. This paper presents a simple, compact test method to produce and isolate effects from multipath interference simulating these effects produced by discrete distances. Signals with controlled delays can be created and combined using multiple antennas in two isolated small (2 foot/60 cm) cubes constructed with microwave absorber. We demonstrated this with a pulsed RF signal and a signal from an 802.11 n access point with an internal antenna. This method can be further extended to provide a compact test-bed for almost any wireless interference or coexistence test.

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Radio-Wave Propagation Into Large Building Structures—Part 2: Characterization of Multipath

Cited by 17 publications

References 20 publications

Large-Scale Site and Frequency Diversity in Urban Peer-to-Peer Channels for Six Public-Safety Frequency Bands

Large-Scale Site and Frequency Diversity in Urban Peer-to-Peer Channels for Six Public-Safety Frequency Bands

Accuracy Assessment of D-Model for Modeling Wall Attenuation in Indoor Environment

A Compact Test System for Simulating Multipath Interference

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