Use of dual‐frequency microwave links for measuring path‐averaged rainfall

Rahimi, Abdelmejid; Holt, A.R.; Upton, Graham; Cummings, R.J.

doi:10.1029/2002jd003202

Cited by 73 publications

(73 citation statements)

References 18 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The active approach is to use the SNMP to collect RSL measurements dedicated for weather monitoring. A recent publication details this methodology, and establishes a set of open-source tools which can be used to actively access the CMLs of main manufacturers, and receive the instantaneous RSL (and TSL) samples [9]. With this approach, RSLs (and TSLs) are available in real time as instantaneous samples, at sampling intervals that can be as small as 10 s. Note that to avoid unnecessary traffic load for the cellular provider, the active approach also requires adding a designated server for handling the RSL measurements.…”

Section: The Active Approachmentioning

confidence: 99%

“…In 2006, Messer et al [8] first demonstrated the idea of taking advantage of the existing, widely spread, cellular communication technology, and used the MLs, which are part of its backhaul network, for environmental monitoring. While the relation (1) still forms the basis of links (CMLs) instead of dedicated MLs as in Reference [9], brings new opportunities, as well as challenges. The major opportunity is obvious: the availability of millions of potential virtual meteorological sensors almost everywhere on Earth, with no costs for installation, maintenance, or communication.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Capitalizing on Cellular Technology—Opportunities and Challenges for Near Ground Weather Monitoring

Messer

2018

Environments

View full text Add to dashboard Cite

Abstract:The use of existing measurements from a commercial wireless communication system as virtual sensors for environmental monitoring has recently gained increasing attention. In particular, measurements of the signal level of commercial microwave links (CMLs) used in the backhaul communication network of cellular systems are considered as opportunistic sensors for precipitation monitoring. Research results have demonstrated the feasibility of the suggested technique for the estimating and mapping of rain, as well as for monitoring other-than-rain phenomena. However, further advancement toward implementation and commercial use are heavily dependent on multidisciplinary collaborations: Communication and network engineers are needed to enable access to the existing measurements; signal processing experts can utilize the different data for improving the accuracy and the tempo-spatial resolution of the estimates; atmospheric scientists are responsible for the physical modeling; hydrologists, meteorologists, and others can contribute to the end uses; economists can indicate the potential benefits; etc. In this paper I will review state-of-the-art results and the open challenges, demonstrating the benefit to the public good from utilizing the opportunistic-sensing approach. I will also analyze the various obstacles on the way there.

show abstract

Section: The Active Approachmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Capitalizing on Cellular Technology—Opportunities and Challenges for Near Ground Weather Monitoring

Messer

2018

Environments

View full text Add to dashboard Cite

show abstract

“…Each dot represents a single 30-s disdrometer measurement (not path-averaged). 40 Only data points that were characterized as liquid precipitation by the Parsivel algorithm and where precipitation intensity was Atmos. Meas.…”

Section: Attenuation-rainfall Intensity Relationshipmentioning

confidence: 99%

“…Liebe et al (1989) and David et al (2013). 40 However, it is debatable whether the underlying cause is the wetting of the antennas or the attenuation by the fog droplets themselves. Observation of the accompanying time-lapse camera footage (Fig.…”

Section: Dew and Fogmentioning

confidence: 99%

An urban microwave link rainfall measurement campaign

Leth

Overeem

Uijlenhoet

et al. 2017

Preprint

View full text Add to dashboard Cite

Abstract. Microwave links from cellular communication networks have been shown to be able to provide valuable information concerning the space-time variability of rainfall. In particular over urban areas, where network densities are generally high, they have the potential to complement existing dedicated infrastructure to measure rainfall (gauges, radars). In addition, 10 microwave links provide a great opportunity for ground-based rainfall measurement for those land surface areas of the world where gauges and radars are generally lacking. Such information is not only crucial for water management and agriculture, but also for instance for ground validation of space-borne rainfall estimates such as those provided by the GPM (Global Precipitation Measurement) mission. Data from an existing automated weather station situated just outside Wageningen was further used to compare and to interpret the findings. We find that a basic rainfall retrieval algorithm with no corrections already provides a reasonable correlation to 25 rainfall as measured by the disdrometers. The microwave links do give a significant overestimation. We further investigate several events covering different attenuating phenomena: Rainfall, solid precipitation, temperature, dew, antenna wetting and clutter. We also briefly explore cases where several phenomena play a role. We conclude that the response of different makes of microwave antennas to many of these phenomena is significantly different even under the exact same operating conditions and configuration. 30

show abstract

“…Weather radar does not directly measure rainfall, but instead measures reflected energy using electromagnetic waves, which scan hundreds of meters above the Earth's surface (i.e., 1 or 2 km of altitude at 100 km) with its volume scan increasing with the square of its distance from the weather radar. The reflected energy may also be due to obstructions from the local topography [2]. Therefore, weather radar often encounters errors when observing near-surface rainfall.…”

Section: Introductionmentioning

confidence: 99%

Rainfall Detection and Rainfall Rate Estimation Using Microwave Attenuation

Kim

Kwon

2018

Atmosphere

View full text Add to dashboard Cite

Eight microwave links operating at frequencies ranging from 6 to 8 GHz and with path lengths ranging from 5.7 to 37.4 km traversing the city of Seoul, Korea are used to detect rainfall and estimate path-averaged rainfall rates. Rainfall detection using rain-induced attenuation (dB) was validated by rain detectors installed at automatic weather stations, and the results confirmed that microwave links can be used to detect rainfall with an accuracy ≥80%. The power-law R-k relationships between rain-induced specific attenuation, k (dB km −1 ), and the rainfall rate, R (mm h −1 ), were established and cross-validated by estimating the path-averaged rainfall rate. The mean bias of the path-averaged rainfall rate, as compared to the rainfall rate from ground rain gauges, was between −3 and 1 mm h −1 . The improved accuracy of rainfall detection led to the improved accuracy of the path-averaged rainfall rate. Hence, it was confirmed that microwave links, used for broadcasting and media communications, can identify rainy or dry periods (rain spells or dry spells) in a way comparable to rain detectors and provide high time-resolution rainfall rates in real time.

show abstract

Use of dual‐frequency microwave links for measuring path‐averaged rainfall

Cited by 73 publications

References 18 publications

Capitalizing on Cellular Technology—Opportunities and Challenges for Near Ground Weather Monitoring

Capitalizing on Cellular Technology—Opportunities and Challenges for Near Ground Weather Monitoring

An urban microwave link rainfall measurement campaign

Rainfall Detection and Rainfall Rate Estimation Using Microwave Attenuation

Contact Info

Product

Resources

About