| spelling |
oapen-20.500.12657-556882022-06-01T03:49:03Z Advanced Ground-Based Real and Synthetic Aperture Radar Miccinesi, Lapo bistatic radar MIMO radar radar interferometry ground based radar three-dimensional radar radar monitoring bic Book Industry Communication::T Technology, engineering, agriculture::TJ Electronics & communications engineering::TJF Electronics engineering Ground-based/terrestrial radar interferometry (GBRI) is a scientific topic of increasing interest in recent years. The GBRI is used in several field as remote sensing technique for monitoring natural environment (landslides, glacier, and mines) or infrastructures (bridges, towers). These sensors provide the displacement of targets by measuring the phase difference between sending and receiving radar signal. If the acquisition rate is enough the GBRI can provide the natural frequency, e.g. by calculating the Fourier transform of displacement. The research activity, presented in this work, concerns design and development of some advanced GBRI systems. These systems are related to the following issue: detection of displacement vector, Multiple Input Multiple Output (MIMO) and radars with 3D capability. 2022-05-31T10:37:30Z 2022-05-31T10:37:30Z 2021 book ONIX_20220531_9788855183772_972 2612-8020 9788855183772 9788855183765 9788855183789 https://library.oapen.org/handle/20.500.12657/55688 eng Premio Tesi di Dottorato application/pdf Attribution 4.0 International 9788855183772.pdf https://books.fupress.com/isbn/9788855183772 Firenze University Press 10.36253/978-88-5518-377-2 10.36253/978-88-5518-377-2 bf65d21a-78e5-4ba2-983a-dbfa90962870 9788855183772 9788855183765 9788855183789 93 144 Florence open access
|
| description |
Ground-based/terrestrial radar interferometry (GBRI) is a scientific topic of increasing interest in recent years. The GBRI is used in several field as remote sensing technique for monitoring natural environment (landslides, glacier, and mines) or infrastructures (bridges, towers). These sensors provide the displacement of targets by measuring the phase difference between sending and receiving radar signal. If the acquisition rate is enough the GBRI can provide the natural frequency, e.g. by calculating the Fourier transform of displacement. The research activity, presented in this work, concerns design and development of some advanced GBRI systems. These systems are related to the following issue: detection of displacement vector, Multiple Input Multiple Output (MIMO) and radars with 3D capability.
|
