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Pakistan Remote Sensing Satellite System - PRSSS News & Update

Pakistan to launch Remote Sensing Satellite in 2014
Islamabad—After successful launch of communication satellite Paksat-IR, Pakistan Space and Upper Atmosphere Research Commission (SUPARCO) now plans to launch high resolution Remote Sensing Satellite System (RSSS), in 2014, to meet the national and international user requirements in the field of satellite imagery. RSSS is planned to be a progressive and sustainable program.Initially, SUPARCO plans to launch an optical satellite with payload of 2.5 meter PAN in 700 km sun-synchronous orbit by the end of year 2011, which will be followed by a series of optical and SAR satellites in future.
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Giving further details, Secretary SUPARCO Arshad H Siraj said it will be helpful in exploiting the potentials of space technologies for natural resource surveying and environmental monitoring. RSSS will also be significant in executing application projects of national significance,transfer technology to users in public and private sectors as remote sensing along with its allied technologies has become an industry in itself.

He said SUPARCO is the pioneer in introducing these technologies in Pakistan using Satellite Remote Sensing techniques. He was of the view that RSSS will also be helpful in improving agriculture of the country,water resources, ennvironment and other such issues. SUPARCO aims to contribute to the socio-economic development of the country by demonstrating the potential of space technologies for natural resources surveying and environment monitoring, he went on to add.

Pakistan entered the space age with the formal launching of a second hand purchased Paksat-I in January 2003. “Since then our scientists and engineers had been making endeavours to launch indigenous satellite and ensure country’s permanent presence in the space”.

It is pertinent to mention here that Pakistan launched communication satellite Paksat-IR few days back, which has 30 transponders, design life of 15 years and will provide TV broadcasting, internet and data communications services in South and Central Asia, Eastern Europe, East Africa and the Far East.
Pakistan to launch Remote Sensing Satellite in 2014
 
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will be good for flood monitoring.

the RSS will be carrying numerous equipments for testing and evaluation and will lead the path for the future space projects.
It is reported that it will be carrying a prototype SAR and its study will help develop further SAR satellites for intelligence imaginary as well.

so this, wont only be monitoring the floods!
;)

RSSS is planned to be a progressive and sustainable program. Initially, SUPARCO plans to launch an optical satellite with payload of 2.5 meter PAN in 700 km sun-synchronous orbit by the end of year 2011, which will be followed by a series of optical and SAR satellites in future. Necessary infrastructure for ground control and image reception and processing is also planned to be setup.
refere to post http://www.defence.pk/forums/pakist...nsing-satellite-system-prsss.html#post2027325 for details images and information
 
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in reference to above post, one application of this PRSSS equipped with SAR as mentioned in initial posts can be Terrain Couture measuring and imaging for use in BABUR TERCOM system.

Babur is also equipped with Terrain Contour Matching or TERCOM system to further increase the accuracy. TERCOM is an automated navigation system used primarily by an unmanned aerial vehicle such as a long-range cruise missile. The system uses a predefined contour map of the flight path which acts as a comparison master image.
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The missile is equipped with a sophisticated radar altimeter which constantly reads the terrain it is crossing and compares the readings to the master image. When deviations are detected, the missile's guidance system makes the necessary corrections to its flight path. This makes extremely accurate navigation and collision avoidance possible. The high degree of accuracy possible in terms of exact altitude above all terrain profiles allows TERCOM equipped missiles to maintain low altitude flight paths while avoiding obstacles. This ground hugging ability confounds enemy ground radar systems
The missile also has a GPS guidance system.
For Details: http://www.defence.pk/forums/pakist...abur-cruise-missile-database.html#post3023390

at present Pakistan do not possess any satellite that can provide military grade imaging of terrain. it seems that as of now China and Pakistan have some sort of understanding on this matter and Pakistan Arm have access to military grade satellite imaging from Beidou navigation system.
http://www.defence.pk/forums/chines...peration-future-beidou-navigation-system.html
 
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[--Leo--];3054069 said:
is this helpfull for our defence purpose?

this will be one application!

terrain imaging with military grade details and accuracy will be used in all TERCOM guided/enabled equipment.

the US C-130 Talon-I and Talon-II uses pulse Doppler radars and TERCOM to fly at very very low altitudes (30 to 50m in cases) to avoid radar detection.
Our Babur and RAAD missile both have TERCOM and it seem at the moment we are getting terrain images from Beidou navigation system for these but with the launch of PPRSS we will be able to do this at home
 
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i dnt knw why this is delayed to 2014

we should have launched PRSS 10 years ago

this year i think budget for suparco is nt released/sanctioned yet

that can give us future developments idea
 
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this will be one application!

terrain imaging with military grade details and accuracy will be used in all TERCOM guided/enabled equipment.

the US C-130 Talon-I and Talon-II uses pulse Doppler radars and TERCOM to fly at very very low altitudes (30 to 50m in cases) to avoid radar detection.
Our Babur and RAAD missile both have TERCOM and it seem at the moment we are getting terrain images from Beidou navigation system for these but with the launch of PPRSS we will be able to do this at home
But Beidou doesn't cover Pakistan , except a little of the North. And since the COMPASS isn't active yet, I don't see how Pakistan is able to utilize it..........
Also,Pakistan Remote Sensing Satellite can't act as a military grade taerrain mapping sattelite as of yet, since it doesn't have the X band radar required..........
 
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i dnt knw why this is delayed to 2014

we should have launched PRSS 10 years ago

this year i think budget for suparco is nt released/sanctioned yet

that can give us future developments idea

Budget 2012:

The development projects of SUPARCO include development of a compact antenna test range, development of various laboratories and logistic support facilities for the National Satellite Development Program, Altitude and Orbital Control System Centre, development of a satellite assembly integration and test facility, remote sensing data transmission facility and satellite environmental validation and testing facility.

Source: http://www.defence.pk/forums/pakist...-satellite-developments-19.html#ixzz1xruqLxm8
 
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GPS signals need a minimum of two satellites for two dimensional location, and three for a proper 3d lock.

One satellite, on its own, cannot provide precise location information.


my dear every thing with the 1 after that when they gone need more they gone do wht needed to do :D
 
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It was supposed to be in space within 2011, now its delayed till 2014, any particular reason for it.....
 
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But Beidou doesn't cover Pakistan , except a little of the North. And since the COMPASS isn't active yet, I don't see how Pakistan is able to utilize it..........
Also,Pakistan Remote Sensing Satellite can't act as a military grade taerrain mapping sattelite as of yet, since it doesn't have the X band radar required..........

Well it seems your knowledge on the subject is pathetic Compass is actually Beidou-2 currently it consists of 11 satellites and very much active from Dec-2011 in China and so neighbours. We don't know yet what PRSS is carrying its not completed yet and look at the coverage map of Beidou it can do the job for us ;)



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Development of Satellite Facilities

SUPARCO developed a Prototype Remote Sensing Satellite in 2007 as a part of skill development programme. It is an indigenous effort in the field of satellite engineering aimed at enhancing the know-how and capacity building of its scientists and engineers. Facilities developed/upgraded were utilized to test and evaluate the satellite responses in various environments such as HELMHOLTZ Coil, Clean Room, Anechoic Chamber and Light Controlled Environment, Satellite Platform Control Unit and Satellite Mission Control Room.

The Prototype satellite is the evaluation version of FM Satellite, in which Satellite Control, Navigation, Imaging, Communication and Power Management have been completely implemented.

The PRSS is able to acquire 2.5m GSD of satellite images. The PRSS Satellite is controlled through the OBC which can handle Telecommand and Telemetry through Ground Segment. All the subsystems of the Satellite are interconnected through CAN-2.0 Bus. The Power Capacity of PRSS is 600W with state of the art Power Management system which is used to perform Solar Power Distribution, Battery Power Distribution, Fast Take Over and Battery Charging Module and Subsystem Power Distribution through specific Power Control Unit which will manage the power according to specific requirements. In Satellite Navigation and Control system, PRSS is fully equipped with sophisticated Sensors and Actuators. The Satellite Navigation system comprises 3-Axis rate Gyros, Magnetometers, Accelerometers, Digital sun Sensor and Star tracking Sensors in order to provide accurate attitude and orbital determination. Magnetotorquer Rods, Thruster and Reaction wheels are used for controlling satellite attitude. The imaging Payload System is equipped with High resolution CCD sensor which is used in IKONOS, QUICKBIRD satellite for imaging with high speed Data Acquisition and Transmission to Ground Segment. The protocol implementation for communication of PRSS to Satellite Ground Segment is fully CCSDS complaint which can easily be interfaced with any standard Ground based equipments.

The prototype satellite has been integrated and tested under various conditions and through various testing tools in order to evaluate its performance and reliability.

The On-Board Computer System of PRSS Prototype satellite on 386 Ex Processor based and hardware communication on CAN 2.0 bus. PIC Controllers have been used to establish sub-system communication with On Board Computer (OBC).OBC has been mounted and harnessed with other subsystems on satellite structure. Ground station software functionality with hardwired link has been successfully established and tested along with Telemetry acquisition and Telecommand generation.

The OBC is fully equipped with redundant logic circuits which can handle any kind of error occurring in space.

Along with digital expertise, PRSS team is also mature in RF areas. The PRSS Prototype is equipped with S-Band transmitter, supporting Data rate of 150 Mbps with direct carrier QPSK modulation scheme. Integration and testing of different transmitter modules was performed successfully. S-Band Telemetry Transmitter and Telecommand Receiver has been mounted on satellite.

The reaction wheel mounted on the PRSS is used to perform actuation for compensation of orbital displacement in SPACE environment. The reaction wheel has been designed according to theoretical calculation of satellite environment. The pressure vessel design is essential because the propellant used for the thrusters needs to be stored in some storage device, the pressure vessel serves this purpose.

The storage tank was developed by using ASME Section VIII standards (the standards for pressure vessel). The pressure vessel is designed to store 30kg of propellant at high pressure without failure, with mass not more that of 10Kg.

PRSS Prototype Model is equipped with 600 watts Power System which has been developed and integrated with other subsystems. The power requirements of satellite Prototype comprises Solar panels of 32V and 11A, Battery Pack of 24V and 10A, fully regulated bus of 28V, Battery Discharge Regulators, Battery Charger (Fast and Trickle), Power Management and Control Unit. Separate Power distribution modules have been designed for individual subsystems with the provision of voltage and current monitoring.

Functional testing of Imaging Payload of PRSS has been successfully completed. The Features of the Imaging Payload System are: KLI14403 Tri-linear CCD Sensors are used for imaging which have 3-Band sensor arrays with Resolution of 14400 pixels in line. High rate pixel output has been interfaced with 10MHz, 3-Parallel High Speed ADC with 12 Bit Resolution at 10MHz rate, Imaging Payload Controller on DM642 Media Processor Based Design for Managing System Tasks, Ethernet Based Image Data Transmission with CCSDS format at 100Mbps, UART Based IPC interface with CAN Controller, Telescope with 20m focusing for testing and evaluation of overall performance of sensor.

The Ground Segment Software has been developed for the acquisition of image data from satellite payload controller over Ethernet interface. It acquires and saves image data with time stamping and displays sub-sampled/low resolution image in the GUI. An Imaging Platform is designed to acquire the simulated earth images. Since the PRSS MSS sensor is push broom sensor therefore the moving platform is developed in order to test sensor and overall IPS electronics performance. This system is placed on PRSS Prototype Structure and its harnessing functional testing/debugging has been completed. Its software and hardware performance with power consumption log is measured and scrutinized with calculated system response which has successfully fulfilled all such requirement.
 
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