Please find the attached Running head: RADAR SYSTEMS1A Report on a PI SAR 2 radar systemPi SAR 2 radar systemNameInstitutionDateRADAR SYSTEM2Pi Sar 2 Radar SystemIntroductionIn recent decades, attention has been increasing on radar programs, their applications, andtype as means of offering imagery of the earth’s floor. The study looks at the roles of Pi SAR2 in today’s disaster management in distinct nations. The study also sought to explorewhether this advanced radar system has solved problems encountered while using the conventionsystems. The radar programs use the electromagnets and radio frequencies to deliver the picture.
Any object reflects the radio waves, which the satellite tv for pc uses to provide the picture obtained. Regarding these systems, the studying team finished a top level view of differentresearches concerning the topic. According to Kramer, Airborne sensor, 2020, the Pi SAR 2radar system is an improvement of ancient to solve some weak spot of the historic system. Kramer states, the building of this system started in the year 2006 and the initialdemonstration was in 2008, the aim was to cover the functionality of practical software duringdisasters. He explains the mechanism of the mechanisms of this instrument by jotting down that;the greatest bandwidth of 500 MHZ is obtained in a slant range of a distinct determination of 0. 3.
The 12 bit D /A converter create a chip pulse with a system clock of 1. 6 GHz. Various reports were done, and the review found that, the effectiveness of thesesystems are applied in studying the distribution of buildings in urban areas, watching naturaldisaster and the information obtained is used during making plans Susaki and Kishimoto, 2015. In theirresearch, they stated that the realm coverage of this system was limited. They carried out theextraction of images of mountains and homes.
It was concluded that this system producesimages that are accurate about 80% to 90%. The images produced were stable. The research2RADAR SYSTEM3concluded that Japan was encouraged to create Pi SAR 2 since they wanted a system, whichprovided quick imagery in a catastrophe situation. Additionally, they wanted a system with a high determination of about 0. 3, and which has aclose track interferometry characteristic, to enable them to measure the accurate height from theground.
They also wanted a system that will provide x band and Polarimetric data. Specifications and parameter analysisThe analysis found all the know specification of the Pi SAR 2 and their importance inefficiencyof the system. These standards include Kramer, Airborne sensor, 2020:Bandwidth500/300/150 MHZInstrument mass537 kg INS inclusiveSlant range decision 0. 3/0. 5/1. 0 mAzimuth resolution0.
3/0. 6/1. 2 m 1/2/4 lookAntenna size668 mm 200 mmSwath width5 10 kmThe system has a processor that adopts an offset video method for higher help duringprocessing. The method can create the 300 MHZ bandwidth chip, and method signs fromvideos at 720 MHz sampling rate for inputs with 300 MHz bandwidth. This is the most efficientmethod in comparison with established video method.
The system also contains the Digital/ Analogmodule and A/D modules, which creates and distributes indications depending on the received3RADAR SYSTEM4command. They also distribute these commands. The study found that during the system, thesystem platform is considered for advantageous imaging. The length of the cross track interferometryshould be about 2. 6 m to achieve the special choice of 0.
3 m, therefore, that distance shouldbe.