SMART-R: Difference between revisions
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== Deployments == |
== Deployments == |
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Since the inception of the project, both SMART-Rs have performed field research in various regions of the United States, including hurricane research, and haboob intensification studies.<ref>{{cite web|url=http://meteorology.ou.edu/ou-smart-r-team-deploys-hurricane-irma/|title=OU SMART-R team deploys to Hurricane Irma|date=8 September 2017|website=Meteorology.ou.edu}}</ref> Both SMART-Rs have sampled tornadic supercells across the plains, taking part in projects such as VORTEX-2 and VORTEX-SE. Given the SR platform consists of two individual radars, projects are often arranged in what is known as a dual-doppler setup, whereas two radars are located at different locations in varying orientations so as to maximize wind retrieval accuracy.<ref>{{cite web|url=http://www.cswr.org/projects/vortexse/downdraft.html|title=VORTEX-SE - Downdraft Kinematics|website=Cswr.org|date=March 27, 2017|accessdate=May 18, 2018}}</ref> |
Since the inception of the project, both SMART-Rs have performed field research in various regions of the United States, including hurricane research, and [[haboob]] intensification studies.<ref>{{cite web|url=http://meteorology.ou.edu/ou-smart-r-team-deploys-hurricane-irma/|title=OU SMART-R team deploys to Hurricane Irma|date=8 September 2017|website=Meteorology.ou.edu}}</ref> Both SMART-Rs have sampled tornadic supercells across the plains, taking part in projects such as VORTEX-2 and VORTEX-SE. Given the SR platform consists of two individual radars, projects are often arranged in what is known as a dual-doppler setup, whereas two radars are located at different locations in varying orientations so as to maximize wind retrieval accuracy.<ref>{{cite web|url=http://www.cswr.org/projects/vortexse/downdraft.html|title=VORTEX-SE - Downdraft Kinematics|website=Cswr.org|date=March 27, 2017|accessdate=May 18, 2018}}</ref> |
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== References == |
== References == |
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Revision as of 23:37, 25 March 2022
 SR-1 sampling a haboob in Arizona. | |
| Country of origin | USA |
|---|---|
| No. built | 2 |
| Type | Weather radar |
| Frequency | 5635 MHz (SR-1) 5612.82 MHz (SR-2) (C-Band) |
| Beamwidth | 1.5° |
| Pulsewidth | 0.2 to 2.0 μs |
| RPM | 0-33 deg s−1 |
| Diameter | 2.5 m |
| Elevation | 0°-90° |
| Other Names | SR |
The Shared Mobile Atmospheric Research and Teaching Radar, colloquially known as SMART-R or SR, is a mobile Doppler weather radar platform operated and created by University of Oklahoma (OU) with aide from Texas A&M and Texas Tech University in 2001.
Development
Throughout the early and late 1990s, several mobile radar concepts came to be, often involving high frequency X-band radars which suffer significant attenuation, and often lack in range. Ideally, these radars would serve as research and observation platforms, covering regions scarcely covered by the NEXRAD network as a whole.[2] One such concept later went on to become the Doppler On Wheels, now a fleet of 3 operational vehicles.[3]
In order to counteract the problems previously described with high frequency radars, two decommissioned WSR-74 radars, originally used for local warnings, were acquired by TAMU. These two radars, both operating in the C-band, are less susceptible to attenuation in precipitation and have overall greater ranges for doppler products. Throughout the rest of the 90s and into 2000, development of the first SMART-R, SR-1, began. During development, a fire in the garage housing SR-1 broke out, destroying the truck and several components. Much of the radar survived, however, and the project continued with the completion of SR-1 in late 2001. Following this, SR-2 was assembled and eventually completed in 2004.[1]
Characteristics
All listed characteristics will apply to both SRs. The operating maximum power for SR is 250 kW. The highest operating frequency for SR is 5,635 MHz - falling into the C-band. With a 2.5 m center-fed parabolic antenna, the gain is approximately 40 dB. Moreover, half power beamwidth is approximately 1.5°.[1]
Deployments
Since the inception of the project, both SMART-Rs have performed field research in various regions of the United States, including hurricane research, and haboob intensification studies.[4] Both SMART-Rs have sampled tornadic supercells across the plains, taking part in projects such as VORTEX-2 and VORTEX-SE. Given the SR platform consists of two individual radars, projects are often arranged in what is known as a dual-doppler setup, whereas two radars are located at different locations in varying orientations so as to maximize wind retrieval accuracy.[5]
References
- ^ a b c Michael I. Biggerstaff; et al. (September 2005). "The Shared Mobile Atmospheric Research And Teaching Radar : A Collaboration to Enhance Research and Teaching". Bulletin of the American Meteorological Society. 86 (9). American Meteorological Society: 1263–1274. Bibcode:2005BAMS...86.1263B. doi:10.1175/BAMS-86-9-1263. eISSN 1520-0477. ISSN 0003-0007.
- ^ Mersereau, Dennis (22 July 2015). "U.S. radars have come a long way, but gaps in coverage remain a big risk". Washingtonpost.com.
- ^ "Center for Severe Weather Research: The DOW Network". Cswr.org.
- ^ "OU SMART-R team deploys to Hurricane Irma". Meteorology.ou.edu. 8 September 2017.
- ^ "VORTEX-SE - Downdraft Kinematics". Cswr.org. March 27, 2017. Retrieved May 18, 2018.