| Presentation | 2012-07-27 Development of the Phase Array Radar for Meteorological Application Tomoo USHIO, Eiichi YOSHIKAWA, Fumihiko MIZUTANI, Masakazu WADA, |
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| Abstract(in Japanese) | (See Japanese page) |
| Abstract(in English) | A new phased array radar system for meteorological application has been developed by Toshiba Corporation and Osaka University under a grant of NICT. It is now well known that rapidly evolving severe weather phenomena (e.g., microbursts, severe thunderstorms, tornadoes) are a threat to our lives particularly in a densely populated area and the number of such phenomena tends to increase as a result of the global warming. Over the past decade, mechanically rotating radar systems at the C-band or S-band have been proved to be effective for weather surveillance especially in a wide area more than 100 km in range. However, rapidly evolving weather phenomena have temporal and spatial scales comparable to the resolution limit (-10 min. and -500m) of typical S-band or C-band radar systems, and cannot be fully resolved with these radar systems. In order to understand the fundamental process and dynamics of such fast changing weather phenomena, volumetric observations with both high temporal and spatial resolution are required. The phased array radar system under developing has been required to have the unique capability of scanning the whole sky with 100m and 10 second resolution up to 30 km in a cost effective manner. To achieve this goal, the system adopts the digital beam forming technique for elevation scanning and mechanically rotates the array antenna in azimuth direction within 10 seconds. The radar transmits a broad beam of several degrees with 24 antenna elements and receives the back scattered signal with 128 elements digitizing at each elements. Then by digitally forming the beam in the signal processor, the fast scanning is realized. Although the phased array radar system using the digital beam forming technique can estimate the 3 dimensional structure of the precipitation system within 10 seconds with 100 meter resolution, the received signal may also be seriously contaminated by the relatively high received power from ground clutter and strong precipitation echoes through the side lobes of the transmitting beam. To avoid this problem, a beam forming technique using the MMSE (Minimum Mean Square Error) formulation has been proposed and tested in this paper. This approach can adaptively mitigate the masking interference that results from the standard digital beam forming method in the vicinity of ground clutter and strong precipitation area. The proposed method is compared with the standard beam forming technique and Capon's method. The simulation results show that the proposed technique can correctly estimate the precipitation echo within a few dB even in the presence of a strong ground clutter that is more than 30 dB higher than the precipitation echo with 15 pulse repetition number. The MMSE based technique is shown to be superior to the standard DBF scenarios under the small number of pulse repetitions to achieve the rapid scanning. |
| Keyword(in Japanese) | (See Japanese page) |
| Keyword(in English) | Phased Array Radar / Weather Radar |
| Paper # | SANE2012-46 |
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| Conference Information | |
| Committee | SANE |
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| Conference Date | 2012/7/20(1days) |
| Place (in Japanese) | (See Japanese page) |
| Place (in English) | |
| Topics (in Japanese) | (See Japanese page) |
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| Paper Information | |
| Registration To | Space, Aeronautical and Navigational Electronics (SANE) |
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| Language | ENG |
| Title (in Japanese) | (See Japanese page) |
| Sub Title (in Japanese) | (See Japanese page) |
| Title (in English) | Development of the Phase Array Radar for Meteorological Application |
| Sub Title (in English) | |
| Keyword(1) | Phased Array Radar |
| Keyword(2) | Weather Radar |
| 1st Author's Name | Tomoo USHIO |
| 1st Author's Affiliation | Faculty of Engineering, Osaka University() |
| 2nd Author's Name | Eiichi YOSHIKAWA |
| 2nd Author's Affiliation | Faculty of Engineering, Osaka University |
| 3rd Author's Name | Fumihiko MIZUTANI |
| 3rd Author's Affiliation | Toshiba Corporation |
| 4th Author's Name | Masakazu WADA |
| 4th Author's Affiliation | Toshiba Corporation |
| Date | 2012-07-27 |
| Paper # | SANE2012-46 |
| Volume (vol) | vol.112 |
| Number (no) | 162 |
| Page | pp.pp.- |
| #Pages | 6 |
| Date of Issue | |