Optimization of a Shared-Aperture Dual-Band Transmitting/Receiving Array Antenna for Radar Applications
In this paper, a design algorithm for a sharedaperture dual-band transmitting/receiving array antenna is proposed for active array radar applications. Sand X-band elements are located on a single planar aperture, but the transmitting and receiving apertures are separated for simultaneous transmittin...
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| Published in | IEEE transactions on antennas and propagation Vol. 65; no. 12; pp. 7038 - 7051 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.12.2017
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-926X 1558-2221 |
| DOI | 10.1109/TAP.2017.2765540 |
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| Abstract | In this paper, a design algorithm for a sharedaperture dual-band transmitting/receiving array antenna is proposed for active array radar applications. Sand X-band elements are located on a single planar aperture, but the transmitting and receiving apertures are separated for simultaneous transmitting and receiving. First, difference sets and a genetic algorithm (GA) are used to optimize the transmitting thinned arrays with radiation characteristics equivalent to those of a periodic array. For the receiving thinned array, a GA is applied to derive the array configurations and quadratic programming is utilized to calculate the feed signals. To verify the design algorithm, 17 × 7 transmitting arrays and 17 × 17 receiving arrays are designed, manufactured, and measured by utilizing a dipole antenna and Vivaldi antenna as the Sand X-band elements, respectively. Moreover, mutual coupling between the array elements is considered when computing the radiation pattern in an effort to ensure accurate predictions of the radiation characteristics. The measured peak sidelobe levels (PSLs) without beam scanning for the Sand X-band transmitting arrays are -12.12 and -12.4 dB, and the half-power beamwidths (HPBWs) are 5.38° × 14.65° and 5.44° × 12.75°, respectively. For the receiving array, low PSLs of -23.2 and -22.35 dB are obtained at 3.1 and 9.5 GHz, while the measured HPBWs are 7.45° × 7.01° and 7.95° × 8.11°. No grating lobes occur for either the transmitting or receiving array antenna within the target scan angle range. |
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| AbstractList | In this paper, a design algorithm for a sharedaperture dual-band transmitting/receiving array antenna is proposed for active array radar applications. Sand X-band elements are located on a single planar aperture, but the transmitting and receiving apertures are separated for simultaneous transmitting and receiving. First, difference sets and a genetic algorithm (GA) are used to optimize the transmitting thinned arrays with radiation characteristics equivalent to those of a periodic array. For the receiving thinned array, a GA is applied to derive the array configurations and quadratic programming is utilized to calculate the feed signals. To verify the design algorithm, 17 × 7 transmitting arrays and 17 × 17 receiving arrays are designed, manufactured, and measured by utilizing a dipole antenna and Vivaldi antenna as the Sand X-band elements, respectively. Moreover, mutual coupling between the array elements is considered when computing the radiation pattern in an effort to ensure accurate predictions of the radiation characteristics. The measured peak sidelobe levels (PSLs) without beam scanning for the Sand X-band transmitting arrays are -12.12 and -12.4 dB, and the half-power beamwidths (HPBWs) are 5.38° × 14.65° and 5.44° × 12.75°, respectively. For the receiving array, low PSLs of -23.2 and -22.35 dB are obtained at 3.1 and 9.5 GHz, while the measured HPBWs are 7.45° × 7.01° and 7.95° × 8.11°. No grating lobes occur for either the transmitting or receiving array antenna within the target scan angle range. In this paper, a design algorithm for a shared-aperture dual-band transmitting/receiving array antenna is proposed for active array radar applications. [Formula Omitted]- and [Formula Omitted]-band elements are located on a single planar aperture, but the transmitting and receiving apertures are separated for simultaneous transmitting and receiving. First, difference sets and a genetic algorithm (GA) are used to optimize the transmitting thinned arrays with radiation characteristics equivalent to those of a periodic array. For the receiving thinned array, a GA is applied to derive the array configurations and quadratic programming is utilized to calculate the feed signals. To verify the design algorithm, [Formula Omitted] transmitting arrays and [Formula Omitted] receiving arrays are designed, manufactured, and measured by utilizing a dipole antenna and Vivaldi antenna as the [Formula Omitted]- and [Formula Omitted]-band elements, respectively. Moreover, mutual coupling between the array elements is considered when computing the radiation pattern in an effort to ensure accurate predictions of the radiation characteristics. The measured peak sidelobe levels (PSLs) without beam scanning for the [Formula Omitted]- and [Formula Omitted]-band transmitting arrays are −12.12 and −12.4 dB, and the half-power beamwidths (HPBWs) are 5.38[Formula Omitted] and 5.44[Formula Omitted], respectively. For the receiving array, low PSLs of −23.2 and −22.35 dB are obtained at 3.1 and 9.5 GHz, while the measured HPBWs are 7.45[Formula Omitted] 7.01° and 7.95[Formula Omitted]. No grating lobes occur for either the transmitting or receiving array antenna within the target scan angle range. |
| Author | JoonYoung Park DongHwan Kim Kwon, Gina Keum Cheol Hwang |
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| Cites_doi | 10.2528/PIERM10101003 10.1109/TAP.2005.863382 10.1109/8.18721 10.1109/SPAWC.2014.6941314 10.1109/LAWP.2006.880693 10.1109/TMTT.2005.843485 10.1002/mop.10640 10.1049/iet-map.2009.0630 10.1049/iet-map.2010.0487 10.1109/8.817659 10.1109/8.914255 10.1049/cp:20010242 10.1109/TAP.2012.2207034 10.2528/PIERB09082703 10.1109/TAP.2009.2029382 10.2528/PIER07081501 10.1109/8.299602 10.1002/mop.25850 |
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| Snippet | In this paper, a design algorithm for a sharedaperture dual-band transmitting/receiving array antenna is proposed for active array radar applications. Sand... In this paper, a design algorithm for a shared-aperture dual-band transmitting/receiving array antenna is proposed for active array radar applications.... |
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| SubjectTerms | Algorithms Antenna arrays Antennas Aperture Aperture antennas Apertures Beam scanning Dipole antennas Dual band dual-band array Genetic algorithms Lobes Mutual coupling Optimization Quadratic programming Radar antennas Radar arrays Receiving shared-aperture array Transmission Transmitting antennas transmitting/receiving array |
| Title | Optimization of a Shared-Aperture Dual-Band Transmitting/Receiving Array Antenna for Radar Applications |
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