Air And Spaceborne Radar Systems Pdf995

Air and spaceborne radar systems pdf995

In order to more clearly illustrate the differences between airborne and spaceborne radars, we will briefly outline a few of the representative systems of each type, starting with airborne systems. The system was transferred to Environment Canada in for use in oil spill research and other environmental applications.

Airborne and Spaceborne Radar Systems

This system operates at two radar bands, C- 5. Cross-polarization data can be recorded simultaneously for both the C- and X-band channels, and the C-band system can be operated as a fully polarimetric radar. Imagery can be acquired at three different imaging geometries nadir, narrow and wide swath modes over a wide range of incidence angles five degrees to almost 90 degrees. In addition to being a fully calibratable system for quantitative measurements, the system has a second antenna mounted on the aircraft fuselage to allow the C-band system to be operated as an interferometric radar.

Air and spaceborne radar systems pdf995

The swath coverage varies from 19 to 50 km, and the resolution from 5 to 18 m. They were primarily designed for monitoring sea ice one of the key applications for radar, in Canada and for terrain analysis.

Air And Spaceborne Radar Systems An Introduction

Radar's all-weather, day or night imaging capabilities are well-suited to monitoring ice in Canada's northern and coastal waters. STAR-1 was also the first SAR system to use on-board data processing and to offer real-time downlinking of data to surface stations.

The AirSAR system is a C-, L-, and P-band advanced polarimetric SAR which can collect data for each of these bands at all possible combinations of horizontal and vertical transmit and receive polarizations i. Data from the AirSAR system can be fully calibrated to allow extraction of quantitative measurements of radar backscatter.

Air and spaceborne radar systems pdf995

Spatial resolution of the AirSAR system is on the order of 12 metres in both range and azimuth. Incidence angle ranges from zero degrees at nadir to about 70 degrees at the far range.

Air and spaceborne radar systems pdf995

This capability to collect multi-frequency, multi-polarization data over such a diverse range of incidence angles allows a wide variety of specialized research experiments to be carried out. With the advances and success of airborne imaging radar, satellite radars were the next logical step to complement the optical satellite sensors in operation.

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The SAR operated at L-band The viewing geometry was fixed between nine and 15 degrees with a swath width of km and a spatial resolution of 25 metres. This steep viewing geometry was designed primarily for observations of ocean and sea ice, but a great deal of imagery was also collected over land areas.

However, the small incidence angles amplified foreshortening and layover effects over terrain with high relief, limiting its utility in these areas. Although the satellite was only operational for three months, it demonstrated the wealth of information and the large volumes of data!

An Introduction

ERS-1 carried on-board a radar altimeter, an infrared radiometer and microwave sounder, and a C-band 5. This is a flexible instrument which can be operated as a scatterometer to measure reflectivity of the ocean surface, as well as ocean surface wind speed and direction.

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It can also operate as a synthetic aperture radar, collecting imagery over a km swath over an incidence angle range of 20 to 26 degrees, at a resolution of approximately 30 metres. Polarization is vertical transmit and vertical receive VV which, combined with the fairly steep viewing angles, make ERS-1 particularly sensitive to surface roughness.

Air and spaceborne radar systems : an introduction

The revisit period or repeat cycle of ERS-1 can be varied by adjusting the orbit, and has ranged from three to days, depending on the mode of operation. Generally, the repeat cycle is about 35 days.

Air and spaceborne radar systems pdf995

Designed primarily for ocean monitoring applications and research, ERS-1 provided the worldwide remote sensing community with the first wide-spread access to spaceborne SAR data.

Imagery from both satellites has been used in a wide range of applications, over both ocean and land environments. The swath width is approximately 75 km and spatial resolution is approximately 18 metres in both range and azimuth. Thus, JERS-1 images are slightly less susceptible to geometry and terrain effects.

Description

The longer L-band wavelength of JERS-1 allows some penetration of the radar energy through vegetation and other surface types. Imaging swaths can be varied from 35 to km in width, with resolutions from 10 to metres.

Viewing geometry is also flexible, with incidence angles ranging from less than 20 degrees to more than 50 degrees.

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Although the satellite's orbit repeat cycle is 24 days, the flexibility of the steerable radar beam gives RADARSAT the ability to image regions much more frequently and to address specific geographic requests for data acquisition. RADARSAT's orbit is optimized for frequent coverage of mid-latitude to polar regions, and is able to provide daily images of the entire Arctic region as well as view any part of Canada within three days.

Even at equatorial latitudes, complete coverage can be obtained within six days using the widest swath of km.

Air and spaceborne radar systems pdf995

A particular object or feature may not have the same appearance i. List some of the factors which might account for this. The backscatter response, and thus the appearance of an object or feature on a radar image, is dependent on several things.

Imaging options over a km range Whiz quiz A particular object or feature may not have the same appearance i. The answer is Whiz quiz - answer The backscatter response, and thus the appearance of an object or feature on a radar image, is dependent on several things.

Different radar wavelengths or frequencies will result in variations due to their differing sensitivities to surface roughness, which controls the amount of energy backscattered. Using different polarizations will also affect how the energy interacts with a target and the subsequent energy that is reflected back to the radar.

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Generally, these differences can be quite significant between airborne and spaceborne platforms. Changes in the moisture content of an object or feature will also change the amount of backscatter.

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