Chanakyaa
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The land of Aryabhatt and Bhaskar has not changed since centuries. The Same DNA and genes are proving themeselves yet again and again.
At a world stage fillined with uncertainities and elements like ISIS and terror, Its really soothing to see the eforts of Indian youth who plan, think and have the will to reach the stars and beyond. As they rightly say...
Honhaar Birwaan k.. Hote Chikane Paat....
For the First time in India, a group of 30 UG students from Seven different colleges located in and around Bangalore and Hyderabad has successfully built India’s 1st Pico-satellite “STUDSAT” at Satellite Integration Center located at the lead Institute, NMIT.
The Project is being carried out under the guidance and supervision of Dr. Jharna Majumdar, Professor CSE and Dean (R&D), NMIT with Support and Supervision of ISRO. The Pico-satellite was launched ISRO’s PSLV-C15 on 12th July 2010 at Sriharikota.
Students of NMIT who actively participated in the project have received National and International awards for their innovative research contributions. The team has created a national record by entering into LIMCA BOOK of RECORDS 2011 Edition.
More : Team STUDSAT | A Student Satellite Project in India Team STUDSAT | My Blog
Indian Space Research Organisation (ISRO) has given many educational institutions a chance to venture into space technology by guiding students towards making experimental satellites. Since 2009, five such student satellites have been launched by ISRO.
And by next year, the space agency is set to launch 12 more satellites designed by students of different academic institutions.
Photo Credit: Mike Licht/Flickr
According to ISRO Chairman, A.S. Kiran Kumar, they are focussing on lighter satellites as lifting them into space is easier. Thus, students are being given the opportunity to design light-weight experimental satellites, and 12 of them are expected to be launched by middle of next year.
The five student satellites launched by ISRO till date are as follows:
Jugnu:
Nanosatellite Jugnu was designed and developed by Indian Institute of Technology, Kanpur under the guidance of ISRO. It weighs 3 kg and was launched on Oct. 12, 2011.
According to ISRO website, the functions of Jugnu are as follows:
Weighing 10.9 kg, this nanosatellite was developed by the students and faculty of SRM University, Chennai. The satellite aims to address the issue of pollution and global warming by monitoring Carbon dioxide and water vapour levels. It was launched on Oct. 12, 2011.
YOUTHSAT:
This is a mini satellite with a lift-off mass of 92 kg. It was a joint Indo-Russian stellar and atmospheric satellite mission which saw the participation of students from different universities at graduate, post graduate and research scholar level. Two out of three payloads on the satellite are Indian and one is Russian. Its objectives are to investigate the composition of upper surface of the earth, carry our experiments related to energy of the earth’s crust, and to understand the dynamics of the earth surface. PSLV – C16 was used as the launch vehicle for the satellite on Apr. 20, 2011.
STUDSAT :
Photo of the StudSat-1 CubeSat
Photo Credit: directory.eoportal.org
Launched on July 12, 2010, STUDSAT was the first pico-satellite of India, and the smallest satellite launched indigenously by any Indian organization. It was developed by a group of seven engineering colleges from Karnataka and Andhra Pradesh. Weighing 1 kg, its primary objective was that of promoting space technology in educational institutions. The miniature satellite was developed to encourage research by establishing a communication link between the satellite and ground station.
ANUSAT :
Photo Credit: mitindia.edu
This was the first satellite built by an Indian University under ISRO’s guidance, to demonstrate the technologies related to message store and forward operations. Store and forward is a telecommunications technique in which information is sent to an intermediate station, kept there, and sent to the final destination other intermediate station later. Designed, developed and integrated at Madras Institute of Technology (MIT), Anna University, the satellite weighs 40 kg and was launched on Apr. 20, 2009.
There are two ways in which universities can join hands with ISRO for satellite development:
Development of payloads: In this case, educational institutions can propose that the payloads developed by them be launched with ISRO’s small satellites. Every satellite has a payload that performs the required functions to achieve the mission goals. The development of payloads deals with detectors, electronics and associated algorithms, it is carried out as R&D activity in several education institutions across the world. Thus, the payload is developed by the university or institution, and is launched with ISRO’s satellite along with other payloads. After launch ISRO acquires the payload data and sends it to the universities for further analysis.
Satellite design and fabrication: Universities get technical guidance by ISRO to design, fabricate and test the satellite bus and payload. The bus supports payload functions. Universities deliver the integrated spacecraft to ISRO for launch. ISRO also provides them with some of the required material. Finally, the design is tested by ISRO. More than one university can club together to work under this option.
At a world stage fillined with uncertainities and elements like ISIS and terror, Its really soothing to see the eforts of Indian youth who plan, think and have the will to reach the stars and beyond. As they rightly say...
Honhaar Birwaan k.. Hote Chikane Paat....
For the First time in India, a group of 30 UG students from Seven different colleges located in and around Bangalore and Hyderabad has successfully built India’s 1st Pico-satellite “STUDSAT” at Satellite Integration Center located at the lead Institute, NMIT.
The Project is being carried out under the guidance and supervision of Dr. Jharna Majumdar, Professor CSE and Dean (R&D), NMIT with Support and Supervision of ISRO. The Pico-satellite was launched ISRO’s PSLV-C15 on 12th July 2010 at Sriharikota.
Students of NMIT who actively participated in the project have received National and International awards for their innovative research contributions. The team has created a national record by entering into LIMCA BOOK of RECORDS 2011 Edition.
Nitte Amateur Satellite Tracking Centre (NASTRAC) first of its kind in India. The ground station is the first and final terrestrial end of a communication link to an object in outer space. Wireless Communication is done with Satellites; hence the ground station serves as the access point on Earth.
The Satellite dumps the data to the ground station whenever it passes over that area. Main purpose of the ground stations is to track and receive telemetry and payload data from satellite for health analysis, and also to control the satellite by commanding.
The Ground Station includes hardware and software elements to transmit and receive information reliably. The system include, a computer programmed with orbital-prediction software compatible with the hardware for auto-tracking, and a transceiver to transmit and receive command and telemetry data respectively.
More : Team STUDSAT | A Student Satellite Project in India Team STUDSAT | My Blog
Indian Space Research Organisation (ISRO) has given many educational institutions a chance to venture into space technology by guiding students towards making experimental satellites. Since 2009, five such student satellites have been launched by ISRO.
And by next year, the space agency is set to launch 12 more satellites designed by students of different academic institutions.
Photo Credit: Mike Licht/Flickr
According to ISRO Chairman, A.S. Kiran Kumar, they are focussing on lighter satellites as lifting them into space is easier. Thus, students are being given the opportunity to design light-weight experimental satellites, and 12 of them are expected to be launched by middle of next year.
The five student satellites launched by ISRO till date are as follows:
Jugnu:
Nanosatellite Jugnu was designed and developed by Indian Institute of Technology, Kanpur under the guidance of ISRO. It weighs 3 kg and was launched on Oct. 12, 2011.
According to ISRO website, the functions of Jugnu are as follows:
- To prove the indigenously developed camera system for imaging the Earth in the near infrared region and test image processing algorithms.
- Evaluate GPS receiver for its use in satellite navigation.
- Test indigenously developed MEMS based Inertial Measurement Unit (IMU) in space.
Weighing 10.9 kg, this nanosatellite was developed by the students and faculty of SRM University, Chennai. The satellite aims to address the issue of pollution and global warming by monitoring Carbon dioxide and water vapour levels. It was launched on Oct. 12, 2011.
YOUTHSAT:
This is a mini satellite with a lift-off mass of 92 kg. It was a joint Indo-Russian stellar and atmospheric satellite mission which saw the participation of students from different universities at graduate, post graduate and research scholar level. Two out of three payloads on the satellite are Indian and one is Russian. Its objectives are to investigate the composition of upper surface of the earth, carry our experiments related to energy of the earth’s crust, and to understand the dynamics of the earth surface. PSLV – C16 was used as the launch vehicle for the satellite on Apr. 20, 2011.
STUDSAT :
Photo of the StudSat-1 CubeSat
Photo Credit: directory.eoportal.org
Launched on July 12, 2010, STUDSAT was the first pico-satellite of India, and the smallest satellite launched indigenously by any Indian organization. It was developed by a group of seven engineering colleges from Karnataka and Andhra Pradesh. Weighing 1 kg, its primary objective was that of promoting space technology in educational institutions. The miniature satellite was developed to encourage research by establishing a communication link between the satellite and ground station.
ANUSAT :
Photo Credit: mitindia.edu
This was the first satellite built by an Indian University under ISRO’s guidance, to demonstrate the technologies related to message store and forward operations. Store and forward is a telecommunications technique in which information is sent to an intermediate station, kept there, and sent to the final destination other intermediate station later. Designed, developed and integrated at Madras Institute of Technology (MIT), Anna University, the satellite weighs 40 kg and was launched on Apr. 20, 2009.
There are two ways in which universities can join hands with ISRO for satellite development:
Development of payloads: In this case, educational institutions can propose that the payloads developed by them be launched with ISRO’s small satellites. Every satellite has a payload that performs the required functions to achieve the mission goals. The development of payloads deals with detectors, electronics and associated algorithms, it is carried out as R&D activity in several education institutions across the world. Thus, the payload is developed by the university or institution, and is launched with ISRO’s satellite along with other payloads. After launch ISRO acquires the payload data and sends it to the universities for further analysis.
Satellite design and fabrication: Universities get technical guidance by ISRO to design, fabricate and test the satellite bus and payload. The bus supports payload functions. Universities deliver the integrated spacecraft to ISRO for launch. ISRO also provides them with some of the required material. Finally, the design is tested by ISRO. More than one university can club together to work under this option.
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